choline has been researched along with Neuroblastoma in 97 studies
Neuroblastoma: A common neoplasm of early childhood arising from neural crest cells in the sympathetic nervous system, and characterized by diverse clinical behavior, ranging from spontaneous remission to rapid metastatic progression and death. This tumor is the most common intraabdominal malignancy of childhood, but it may also arise from thorax, neck, or rarely occur in the central nervous system. Histologic features include uniform round cells with hyperchromatic nuclei arranged in nests and separated by fibrovascular septa. Neuroblastomas may be associated with the opsoclonus-myoclonus syndrome. (From DeVita et al., Cancer: Principles and Practice of Oncology, 5th ed, pp2099-2101; Curr Opin Oncol 1998 Jan;10(1):43-51)
| Excerpt | Relevance | Reference |
|---|---|---|
| " Associations were also null for gene-environment interaction with pre-pregnancy vitamin supplementation, dietary folic acid, and folate." | 7.83 | A family-based study of gene variants and maternal folate and choline in neuroblastoma: a report from the Children's Oncology Group. ( Basta, PV; Carrier, KS; Diskin, SJ; Engel, SM; Maris, JM; Maxen, C; Mazul, AL; Naranjo, A; Olshan, AF; Siega-Riz, AM; Vaksman, Z; Weinberg, CR; Zou, F, 2016) |
| "This study characterized the Na+-dependent transport of L-glutamine by a human neuroblastoma cell line, SK-N-SH." | 7.71 | Characterization of L-glutamine transport by a human neuroblastoma cell line. ( Okada, A; Wang, HS; Wasa, M, 2002) |
| "Uptake of biocytin and biotin was investigated in cultured transformed variants of neuronal (NB2a neuroblastoma) and glial (C6 astrocytoma) CNS cells." | 7.71 | Biocytin and biotin uptake into NB2a neuroblastoma and C6 astrocytoma cells. ( Baumgartner, ER; Baur, B; Suormala, T, 2002) |
| " To study potential effects of acetylcholine production in neuronal differentiation, we used the FB5 subclone of N18TG2 murine neuroblastoma cells stably transfected with cDNA for choline acetyltransferase." | 7.70 | Modulation of acetylcholinesterase and voltage-gated Na(+) channels in choline acetyltransferase- transfected neuroblastoma clones. ( Ajmone-Cat, MA; Augusti-Tocco, G; Baldelli, P; Biagioni, S; Carbone, E; De Jaco, A, 2000) |
| "An influence of carnitine on acetylcholine synthesis from radiolabeled glucose was monitored in neuroblastoma NB-2a cells." | 7.69 | Synergistic effect of choline and carnitine on acetylcholine synthesis in neuroblastoma NB-2a cells. ( Nałecz, KA; Nałecz, MJ; Wawrzeńczyk, A, 1994) |
| "The sequential methylation of ethanolamine (Etn) or phosphorylethanolamine to the corresponding choline (Cho) derivatives was studied in both undifferentiated and retinoic acid (RA) differentiated human neuroblastoma clones LA-N-1 and LA-N-2." | 7.69 | The conversion of ethanolamine and of its metabolites to choline in human neuroblastoma clones: effect of differentiation induced by retinoic acid. ( Andriamampandry, C; Carrara, M; Dreyfus, H; Freysz, L; Haidar, NE; Kanfer, JN; Massarelli, R, 1994) |
| "Human neuroblastoma cholinergic LA-N-2 cells were used as an experimental model to test the possibility that the methylation of phosphoethanolamine (PEtn) to phosphocholine (PCho) and free choline (Cho) (Andriamampandry et al." | 7.69 | Incorporation of [3H]ethanolamine into acetylcholine by a human cholinergic neuroblastoma clone. ( Andriamampandry, C; Carrara, M; Dreyfus, H; Freysz, L; Haidar, NE; Kanfer, JN; Massarelli, R, 1994) |
| "LA-N-2, a cell line derived from a human peripheral neuroblastoma, has a partially cholinergic phenotype and is a potential in vitro model of cholinergic neurons." | 7.69 | Differentiation agents enhance cholinergic characteristics of LA-N-2 human neuroblastoma cells. ( Crosland, RD, 1996) |
| "After mouse neuroblastoma cells were cultured with [15N]glycine in Dulbecco's modified Eagle's medium for total four days, they gave significant amounts of 15N-atom% excess in phosphatidylserine, phosphatidylethanolamine, ethanolamine plasmalogen, phosphatidylcholine, sphingomyelin and ceramide." | 7.69 | Evidence for indirect utilization of glycine for production of N-bases of glycerophospholipids and sphingolipids in mouse neuroblastoma cells by using 15N-labeled glycine. ( Hara, A; Kurahashi, H; Taketomi, T; Uemura, K, 1995) |
| "The conversion of choline in cultures of the human neuroblastoma cell lines, LA-N-1 and LA-N-2 cells, was investigated in order to identify potential precursors in acetylcholine (AcCho) synthesis." | 7.68 | The metabolic fate of [3H-methyl]choline in cultured human neuroblastoma cell lines, LA-N-1 and LA-N-2. ( Kanfer, JN; Massarelli, R; Singh, IN; Sorrentino, G, 1991) |
| "Palytoxin-induced whole-cell and single channel currents were recorded in mouse neuroblastoma cells." | 7.68 | Characterization of palytoxin-induced channels in mouse neuroblastoma cells. ( Dubois, JM; Rouzaire-Dubois, B, 1990) |
| "Dioctanoylglycerol, a synthetic diacylglycerol, stimulated [14C]choline uptake in cultured human neuroblastoma (LA-N-2) cells." | 7.68 | Dioctanoylglycerol stimulates accumulation of [methyl-14C]choline and its incorporation into acetylcholine and phosphatidylcholine in a human cholinergic neuroblastoma cell line. ( Nitsch, RM; Richardson, UI; Slack, BE; Wurtman, RJ, 1992) |
| "We have examined the effects of phorbol esters on phosphatidylcholine (PtdCho) metabolism in the neuroblastoma-glioma hybrid cell line NG108-15." | 7.67 | Phosphatidylcholine biosynthesis in the neuroblastoma-glioma hybrid cell line NG108-15: stimulation by phorbol esters. ( Blusztajn, JK; Freese, A; Liscovitch, M; Wurtman, RJ, 1986) |
| "The phosphatidylserine (PtdSer) content of human cholinergic neuroblastoma (LA-N-2) cells was manipulated by exposing the cells to exogenous PtdSer, and the effects on phospholipid content, membrane composition, and incorporation of choline into phosphatidylcholine (PtdCho) were investigated." | 7.67 | Uptake of exogenous phosphatidylserine by human neuroblastoma cells stimulates the incorporation of [methyl-14C]choline into phosphatidylcholine. ( Blusztajn, JK; Liscovitch, M; Slack, BE; Wurtman, RJ, 1989) |
| "Neuroblastoma cells were used to determine the effect of high carbohydrate and polyol levels on myo-inositol metabolism." | 7.67 | myo-Inositol metabolism in 41A3 neuroblastoma cells: effects of high glucose and sorbitol levels. ( Dunlap, JA; Ginsberg, BH; Yorek, MA, 1987) |
| "The neuroblastoma x glioma hybrid clone NG108-15 is able to release acetylcholine upon depolarization and form cholinergic neuromuscular synapses in culture." | 7.66 | Choline uptake by the neuroblastoma x glioma hybrid, NG108-15. ( McGee, R, 1980) |
| "Previous studies on neuroblastoma cells in culture showed that the presence of partially purified rat liver phospholipid-transfer protein had a marked differential effect on the uptake and apparent subcellular distribution of radioactively labeled sphingomyelin and phosphatidylcholine (PC) added to the medium as mixed phospholipid (PC/sphingomyelin) liposomes." | 7.66 | Studies on the turnover of endogenous choline-containing phospholipids of cultured neuroblastoma cells. ( Clarke, JT; Cook, HW; D'Souza, CJ; Spence, MW, 1983) |
| "Neuroblastoma clones were examined for choline acetyltransferase (EC 2." | 7.65 | Neurotransmitter synthesis by neuroblastoma clones (neuroblast differentiation-cell culture-choline acetyltransferase-acetylcholinesterase-tyrosine hydroxylase-axons-dendrites). ( Amano, T; Nirenberg, M; Richelson, E, 1972) |
| "The specific activity of mouse neuroblastoma choline-O-acetyltransferase (EC 2." | 7.65 | Regulation of the synthesis of choline-O-acetyltransferase and thymidylate synthetase in mouse neuroblastoma in cell culture. ( De Francesco, L; Friedkin, ME; Rosenberg, RN; Vandeventer, L, 1971) |
| "Choline is an essential nutrient necessary for synthesis of membrane phospholipids, cell signalling molecules and acetylcholine." | 5.35 | Detection of choline transporter-like 1 protein CTL1 in neuroblastoma x glioma cells and in the CNS, and its role in choline uptake. ( Dolezal, V; Dove, R; Lisá, V; Machová, E; Meunier, FM; Newcombe, J; O'Regan, S; Prentice, J, 2009) |
| "Choline is an important methyl donor and a component of membrane phospholipids." | 5.32 | Choline availability modulates human neuroblastoma cell proliferation and alters the methylation of the promoter region of the cyclin-dependent kinase inhibitor 3 gene. ( Niculescu, MD; Yamamuro, Y; Zeisel, SH, 2004) |
| "Choline transport was the major site of action." | 5.28 | Calcium-independent effects of TMB-8. Modification of phospholipid metabolism in neuroblastoma cells by inhibition of choline uptake. ( Byers, DM; Cook, HW; Palmer, FB; Spence, MW, 1992) |
| "Findings will provide timely information on the safety, efficacy, and optimal dosing of t-PA to treat moderate/severe COVID-19-induced ARDS, which can be rapidly adapted to a phase III trial (NCT04357730; FDA IND 149634)." | 4.21 | ( Abbasi, S; Abd El-Wahab, A; Abdallah, M; Abebe, G; Aca-Aca, G; Adama, S; Adefegha, SA; Adidigue-Ndiome, R; Adiseshaiah, P; Adrario, E; Aghajanian, C; Agnese, W; Ahmad, A; Ahmad, I; Ahmed, MFE; Akcay, OF; Akinmoladun, AC; Akutagawa, T; Alakavuklar, MA; Álava-Rabasa, S; Albaladejo-Florín, MJ; Alexandra, AJE; Alfawares, R; Alferiev, IS; Alghamdi, HS; Ali, I; Allard, B; Allen, JD; Almada, E; Alobaid, A; Alonso, GL; Alqahtani, YS; Alqarawi, W; Alsaleh, H; Alyami, BA; Amaral, BPD; Amaro, JT; Amin, SAW; Amodio, E; Amoo, ZA; Andia Biraro, I; Angiolella, L; Anheyer, D; Anlay, DZ; Annex, BH; Antonio-Aguirre, B; Apple, S; Arbuznikov, AV; Arinsoy, T; Armstrong, DK; Ash, S; Aslam, M; Asrie, F; Astur, DC; Atzrodt, J; Au, DW; Aucoin, M; Auerbach, EJ; Azarian, S; Ba, D; Bai, Z; Baisch, PRM; Balkissou, AD; Baltzopoulos, V; Banaszewski, M; Banerjee, S; Bao, Y; Baradwan, A; Barandika, JF; Barger, PM; Barion, MRL; Barrett, CD; Basudan, AM; Baur, LE; Baz-Rodríguez, SA; Beamer, P; Beaulant, A; Becker, DF; Beckers, C; Bedel, J; Bedlack, R; Bermúdez de Castro, JM; Berry, JD; Berthier, C; Bhattacharya, D; Biadgo, B; Bianco, G; Bianco, M; Bibi, S; Bigliardi, AP; Billheimer, D; Birnie, DH; Biswas, K; Blair, HC; Bognetti, P; Bolan, PJ; Bolla, JR; Bolze, A; Bonnaillie, P; Borlimi, R; Bórquez, J; Bottari, NB; Boulleys-Nana, JR; Brighetti, G; Brodeur, GM; Budnyak, T; Budnyk, S; Bukirwa, VD; Bulman, DM; Burm, R; Busman-Sahay, K; Butcher, TW; Cai, C; Cai, H; Cai, L; Cairati, M; Calvano, CD; Camacho-Ordóñez, A; Camela, E; Cameron, T; Campbell, BS; Cansian, RL; Cao, Y; Caporale, AS; Carciofi, AC; Cardozo, V; Carè, J; Carlos, AF; Carozza, R; Carroll, CJW; Carsetti, A; Carubelli, V; Casarotta, E; Casas, M; Caselli, G; Castillo-Lora, J; Cataldi, TRI; Cavalcante, ELB; Cavaleiro, A; Cayci, Z; Cebrián-Tarancón, C; Cedrone, E; Cella, D; Cereda, C; Ceretti, A; Ceroni, M; Cha, YH; Chai, X; Chang, EF; Chang, TS; Chanteux, H; Chao, M; Chaplin, BP; Chaturvedi, S; Chaturvedi, V; Chaudhary, DK; Chen, A; Chen, C; Chen, HY; Chen, J; Chen, JJ; Chen, K; Chen, L; Chen, Q; Chen, R; Chen, SY; Chen, TY; Chen, WM; Chen, X; Chen, Y; Cheng, G; Cheng, GJ; Cheng, J; Cheng, YH; Cheon, HG; Chew, KW; Chhoker, S; Chiu, WN; Choi, ES; Choi, MJ; Choi, SD; Chokshi, S; Chorny, M; Chu, KI; Chu, WJ; Church, AL; Cirrincione, A; Clamp, AR; Cleff, MB; Cohen, M; Coleman, RL; Collins, SL; Colombo, N; Conduit, N; Cong, WL; Connelly, MA; Connor, J; Cooley, K; Correa Ramos Leal, I; Cose, S; Costantino, C; Cottrell, M; Cui, L; Cundall, J; Cutaia, C; Cutler, CW; Cuypers, ML; da Silva Júnior, FMR; Dahal, RH; Damiani, E; Damtie, D; Dan-Li, W; Dang, Z; Dasa, SSK; Davin, A; Davis, DR; de Andrade, CM; de Jong, PL; de Oliveira, D; de Paula Dorigam, JC; Dean, A; Deepa, M; Delatour, C; Dell'Aiera, S; Delley, MF; den Boer, RB; Deng, L; Deng, Q; Depner, RM; Derdau, V; Derici, U; DeSantis, AJ; Desmarini, D; Diffo-Sonkoue, L; Divizia, M; Djenabou, A; Djordjevic, JT; Dobrovolskaia, MA; Domizi, R; Donati, A; Dong, Y; Dos Santos, M; Dos Santos, MP; Douglas, RG; Duarte, PF; Dullaart, RPF; Duscha, BD; Edwards, LA; Edwards, TE; Eichenwald, EC; El-Baba, TJ; Elashiry, M; Elashiry, MM; Elashry, SH; Elliott, A; Elsayed, R; Emerson, MS; Emmanuel, YO; Emory, TH; Endale-Mangamba, LM; Enten, GA; Estefanía-Fernández, K; Estes, JD; Estrada-Mena, FJ; Evans, S; Ezra, L; Faria de, RO; Farraj, AK; Favre, C; Feng, B; Feng, J; Feng, L; Feng, W; Feng, X; Feng, Z; Fernandes, CLF; Fernández-Cuadros, ME; Fernie, AR; Ferrari, D; Florindo, PR; Fong, PC; Fontes, EPB; Fontinha, D; Fornari, VJ; Fox, NP; Fu, Q; Fujitaka, Y; Fukuhara, K; Fumeaux, T; Fuqua, C; Fustinoni, S; Gabbanelli, V; Gaikwad, S; Gall, ET; Galli, A; Gancedo, MA; Gandhi, MM; Gao, D; Gao, K; Gao, M; Gao, Q; Gao, X; Gao, Y; Gaponenko, V; Garber, A; Garcia, EM; García-Campos, C; García-Donas, J; García-Pérez, AL; Gasparri, F; Ge, C; Ge, D; Ge, JB; Ge, X; George, I; George, LA; Germani, G; Ghassemi Tabrizi, S; Gibon, Y; Gillent, E; Gillies, RS; Gilmour, MI; Goble, S; Goh, JC; Goiri, F; Goldfinger, LE; Golian, M; Gómez, MA; Gonçalves, J; Góngora-García, OR; Gonul, I; González, MA; Govers, TM; Grant, PC; Gray, EH; Gray, JE; Green, MS; Greenwald, I; Gregory, MJ; Gretzke, D; Griffin-Nolan, RJ; Griffith, DC; Gruppen, EG; Guaita, A; Guan, P; Guan, X; Guerci, P; Guerrero, DT; Guo, M; Guo, P; Guo, R; Guo, X; Gupta, J; Guz, G; Hajizadeh, N; Hamada, H; Haman-Wabi, AB; Han, TT; Hannan, N; Hao, S; Harjola, VP; Harmon, M; Hartmann, MSM; Hartwig, JF; Hasani, M; Hawthorne, WJ; Haykal-Coates, N; Hazari, MS; He, DL; He, P; He, SG; Héau, C; Hebbar Kannur, K; Helvaci, O; Heuberger, DM; Hidalgo, F; Hilty, MP; Hirata, K; Hirsch, A; Hoffman, AM; Hoffmann, JF; Holloway, RW; Holmes, RK; Hong, S; Hongisto, M; Hopf, NB; Hörlein, R; Hoshino, N; Hou, Y; Hoven, NF; Hsieh, YY; Hsu, CT; Hu, CW; Hu, JH; Hu, MY; Hu, Y; Hu, Z; Huang, C; Huang, D; Huang, DQ; Huang, L; Huang, Q; Huang, R; Huang, S; Huang, SC; Huang, W; Huang, Y; Huffman, KM; Hung, CH; Hung, CT; Huurman, R; Hwang, SM; Hyun, S; Ibrahim, AM; Iddi-Faical, A; Immordino, P; Isla, MI; Jacquemond, V; Jacques, T; Jankowska, E; Jansen, JA; Jäntti, T; Jaque-Fernandez, F; Jarvis, GA; Jatt, LP; Jeon, JW; Jeong, SH; Jhunjhunwala, R; Ji, F; Jia, X; Jia, Y; Jian-Bo, Z; Jiang, GD; Jiang, L; Jiang, W; Jiang, WD; Jiang, Z; Jiménez-Hoyos, CA; Jin, S; Jobling, MG; John, CM; John, T; Johnson, CB; Jones, KI; Jones, WS; Joseph, OO; Ju, C; Judeinstein, P; Junges, A; Junnarkar, M; Jurkko, R; Kaleka, CC; Kamath, AV; Kang, X; Kantsadi, AL; Kapoor, M; Karim, Z; Kashuba, ADM; Kassa, E; Kasztura, M; Kataja, A; Katoh, T; Kaufman, JS; Kaupp, M; Kehinde, O; Kehrenberg, C; Kemper, N; Kerr, CW; Khan, AU; Khan, MF; Khan, ZUH; Khojasteh, SC; Kilburn, S; Kim, CG; Kim, DU; Kim, DY; Kim, HJ; Kim, J; Kim, OH; Kim, YH; King, C; Klein, A; Klingler, L; Knapp, AK; Ko, TK; Kodavanti, UP; Kolla, V; Kong, L; Kong, RY; Kong, X; Kore, S; Kortz, U; Korucu, B; Kovacs, A; Krahnert, I; Kraus, WE; Kuang, SY; Kuehn-Hajder, JE; Kurz, M; Kuśtrowski, P; Kwak, YD; Kyttaris, VC; Laga, SM; Laguerre, A; Laloo, A; Langaro, MC; Langham, MC; Lao, X; Larocca, MC; Lassus, J; Lattimer, TA; Lazar, S; Le, MH; Leal, DB; Leal, M; Leary, A; Ledermann, JA; Lee, JF; Lee, MV; Lee, NH; Leeds, CM; Leeds, JS; Lefrandt, JD; Leicht, AS; Leonard, M; Lev, S; Levy, K; Li, B; Li, C; Li, CM; Li, DH; Li, H; Li, J; Li, L; Li, LJ; Li, N; Li, P; Li, T; Li, X; Li, XH; Li, XQ; Li, XX; Li, Y; Li, Z; Li, ZY; Liao, YF; Lin, CC; Lin, MH; Lin, Y; Ling, Y; Links, TP; Lira-Romero, E; Liu, C; Liu, D; Liu, H; Liu, J; Liu, L; Liu, LP; Liu, M; Liu, T; Liu, W; Liu, X; Liu, XH; Liu, Y; Liuwantara, D; Ljumanovic, N; Lobo, L; Lokhande, K; Lopes, A; Lopes, RMRM; López-Gutiérrez, JC; López-Muñoz, MJ; López-Santamaría, M; Lorenzo, C; Lorusso, D; Losito, I; Lu, C; Lu, H; Lu, HZ; Lu, SH; Lu, SN; Lu, Y; Lu, ZY; Luboga, F; Luo, JJ; Luo, KL; Luo, Y; Lutomski, CA; Lv, W; M Piedade, MF; Ma, J; Ma, JQ; Ma, JX; Ma, N; Ma, P; Ma, S; Maciel, M; Madureira, M; Maganaris, C; Maginn, EJ; Mahnashi, MH; Maierhofer, M; Majetschak, M; Malla, TR; Maloney, L; Mann, DL; Mansuri, A; Marelli, E; Margulis, CJ; Marrella, A; Martin, BL; Martín-Francés, L; Martínez de Pinillos, M; Martínez-Navarro, EM; Martinez-Quintanilla Jimenez, D; Martínez-Velasco, A; Martínez-Villaseñor, L; Martinón-Torres, M; Martins, BA; Massongo, M; Mathew, AP; Mathews, D; Matsui, J; Matsumoto, KI; Mau, T; Maves, RC; Mayclin, SJ; Mayer, JM; Maynard, ND; Mayr, T; Mboowa, MG; McEvoy, MP; McIntyre, RC; McKay, JA; McPhail, MJW; McVeigh, AL; Mebazaa, A; Medici, V; Medina, DN; Mehmood, T; Mei-Li, C; Melku, M; Meloncelli, S; Mendes, GC; Mendoza-Velásquez, C; Mercadante, R; Mercado, MI; Merenda, MEZ; Meunier, J; Mi, SL; Michels, M; Mijatovic, V; Mikhailov, V; Milheiro, SA; Miller, DC; Ming, F; Mitsuishi, M; Miyashita, T; Mo, J; Mo, S; Modesto-Mata, M; Moeller, S; 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Schladweiler, MC; Schofield, CJ; Schuepbach, RA; Schulz, J; Schwartz, N; Scorcella, C; Seeley, J; Seemann, F; Seinige, D; Sengoku, T; Seravalli, J; Sgromo, B; Shaheen, MY; Shan, L; Shanmugam, S; Shao, H; Sharma, S; Shaw, KJ; Shen, BQ; Shen, CH; Shen, P; Shen, S; Shen, Y; Shen, Z; Shi, J; Shi-Li, L; Shimoda, K; Shoji, Y; Shun, C; Silva, MA; Silva-Cardoso, J; Simas, NK; Simirgiotis, MJ; Sincock, SA; Singh, MP; Sionis, A; Siu, J; Sivieri, EM; Sjerps, MJ; Skoczen, SL; Slabon, A; Slette, IJ; Smith, MD; Smith, S; Smith, TG; Snapp, KS; Snow, SJ; Soares, MCF; Soberman, D; Solares, MD; Soliman, I; Song, J; Sorooshian, A; Sorrell, TC; Spinar, J; Staudt, A; Steinhart, C; Stern, ST; Stevens, DM; Stiers, KM; Stimming, U; Su, YG; Subbian, V; Suga, H; Sukhija-Cohen, A; Suksamrarn, A; Suksen, K; Sun, J; Sun, M; Sun, P; Sun, W; Sun, XF; Sun, Y; Sundell, J; Susan, LF; Sutjarit, N; Swamy, KV; Swisher, EM; Sykes, C; Takahashi, JA; Talmor, DS; Tan, B; Tan, ZK; Tang, L; Tang, S; Tanner, JJ; Tanwar, M; Tarazi, Z; Tarvasmäki, T; Tay, FR; Teketel, A; Temitayo, GI; Thersleff, T; Thiessen Philbrook, H; Thompson, LC; Thongon, N; Tian, B; Tian, F; Tian, Q; Timothy, AT; Tingle, MD; Titze, IR; Tolppanen, H; Tong, W; Toyoda, H; Tronconi, L; Tseng, CH; Tu, H; Tu, YJ; Tung, SY; Turpault, S; Tuynman, JB; Uemoto, AT; Ugurlu, M; Ullah, S; Underwood, RS; Ungell, AL; Usandizaga-Elio, I; Vakonakis, I; van Boxel, GI; van den Beucken, JJJP; van der Boom, T; van Slegtenhorst, MA; Vanni, JR; Vaquera, A; Vasconcellos, RS; Velayos, M; Vena, R; Ventura, G; Verso, MG; Vincent, RP; Vitale, F; Vitali, S; Vlek, SL; Vleugels, MPH; Volkmann, N; Vukelic, M; Wagner Mackenzie, B; Wairagala, P; Waller, SB; Wan, J; Wan, MT; Wan, Y; Wang, CC; Wang, H; Wang, J; Wang, JF; Wang, K; Wang, L; Wang, M; Wang, S; Wang, WM; Wang, X; Wang, Y; Wang, YD; Wang, YF; Wang, Z; Wang, ZG; Warriner, K; Weberpals, JI; Weerachayaphorn, J; Wehrli, FW; Wei, J; Wei, KL; Weinheimer, CJ; Weisbord, SD; Wen, S; Wendel Garcia, PD; Williams, JW; Williams, R; Winkler, C; Wirman, AP; Wong, S; Woods, CM; Wu, B; Wu, C; Wu, F; Wu, P; Wu, S; Wu, Y; Wu, YN; Wu, ZH; Wurtzel, JGT; Xia, L; Xia, Z; Xia, ZZ; Xiao, H; Xie, C; Xin, ZM; Xing, Y; Xing, Z; Xu, S; Xu, SB; Xu, T; Xu, X; Xu, Y; Xue, L; Xun, J; Yaffe, MB; Yalew, A; Yamamoto, S; Yan, D; Yan, H; Yan, S; Yan, X; Yang, AD; Yang, E; Yang, H; Yang, J; Yang, JL; Yang, K; Yang, M; Yang, P; Yang, Q; Yang, S; Yang, W; Yang, X; Yang, Y; Yao, JC; Yao, WL; Yao, Y; Yaqub, TB; Ye, J; Ye, W; Yen, CW; Yeter, HH; Yin, C; Yip, V; Yong-Yi, J; Yu, HJ; Yu, MF; Yu, S; Yu, W; Yu, WW; Yu, X; Yuan, P; Yuan, Q; Yue, XY; Zaia, AA; Zakhary, SY; Zalwango, F; Zamalloa, A; Zamparo, P; Zampini, IC; Zani, JL; Zeitoun, R; Zeng, N; Zenteno, JC; Zepeda-Palacio, C; Zhai, C; Zhang, B; Zhang, G; Zhang, J; Zhang, K; Zhang, Q; Zhang, R; Zhang, T; Zhang, X; Zhang, Y; Zhang, YY; Zhao, B; Zhao, D; Zhao, G; Zhao, H; Zhao, Q; Zhao, R; Zhao, S; Zhao, T; Zhao, X; Zhao, XA; Zhao, Y; Zhao, Z; Zheng, Z; Zhi-Min, G; Zhou, CL; Zhou, HD; Zhou, J; Zhou, W; Zhou, XQ; Zhou, Z; Zhu, C; Zhu, H; Zhu, L; Zhu, Y; Zitzmann, N; Zou, L; Zou, Y, 2022) |
| " Associations were also null for gene-environment interaction with pre-pregnancy vitamin supplementation, dietary folic acid, and folate." | 3.83 | A family-based study of gene variants and maternal folate and choline in neuroblastoma: a report from the Children's Oncology Group. ( Basta, PV; Carrier, KS; Diskin, SJ; Engel, SM; Maris, JM; Maxen, C; Mazul, AL; Naranjo, A; Olshan, AF; Siega-Riz, AM; Vaksman, Z; Weinberg, CR; Zou, F, 2016) |
| "Cholinergically differentiated SH-SY5Y neuroblastoma cells were treated with a pathophysiologically relevant, low (300 nM), and a high (3 μM) dose of amyloid beta 1-42 (Abeta) or 42-1 (revAbeta)." | 3.79 | Pathophysiological amyloid concentrations induce sustained upregulation of readthrough acetylcholinesterase mediating anti-apoptotic effects. ( Klein, J; Li, G; Zimmermann, M, 2013) |
| "One immunological component of asthma is believed to be the interaction of eosinophils with parasympathetic cholinergic nerves and a consequent inhibition of acetylcholine muscarinic M2 receptor activity, leading to enhanced acetylcholine release and bronchoconstriction." | 3.72 | Eosinophil-induced release of acetylcholine from differentiated cholinergic nerve cells. ( Costello, RW; Durcan, N; Kingham, PJ; McLean, WG; Sawatzky, DA, 2003) |
| "Cytotoxic drug treatment of drug-sensitive SH-SY5Y neuroblastoma cells resulted in increased methylene and polyunsaturated fatty acid resonances and decreased choline resonance." | 3.72 | Predicting resistance or response to chemotherapy by proton magnetic resonance spectroscopy in neuroblastoma. ( Gräslund, A; Jarvet, J; Kogner, P; Lindskog, M; Spenger, C, 2004) |
| "Uptake of biocytin and biotin was investigated in cultured transformed variants of neuronal (NB2a neuroblastoma) and glial (C6 astrocytoma) CNS cells." | 3.71 | Biocytin and biotin uptake into NB2a neuroblastoma and C6 astrocytoma cells. ( Baumgartner, ER; Baur, B; Suormala, T, 2002) |
| "This study characterized the Na+-dependent transport of L-glutamine by a human neuroblastoma cell line, SK-N-SH." | 3.71 | Characterization of L-glutamine transport by a human neuroblastoma cell line. ( Okada, A; Wang, HS; Wasa, M, 2002) |
| " To study potential effects of acetylcholine production in neuronal differentiation, we used the FB5 subclone of N18TG2 murine neuroblastoma cells stably transfected with cDNA for choline acetyltransferase." | 3.70 | Modulation of acetylcholinesterase and voltage-gated Na(+) channels in choline acetyltransferase- transfected neuroblastoma clones. ( Ajmone-Cat, MA; Augusti-Tocco, G; Baldelli, P; Biagioni, S; Carbone, E; De Jaco, A, 2000) |
| "After mouse neuroblastoma cells were cultured with [15N]glycine in Dulbecco's modified Eagle's medium for total four days, they gave significant amounts of 15N-atom% excess in phosphatidylserine, phosphatidylethanolamine, ethanolamine plasmalogen, phosphatidylcholine, sphingomyelin and ceramide." | 3.69 | Evidence for indirect utilization of glycine for production of N-bases of glycerophospholipids and sphingolipids in mouse neuroblastoma cells by using 15N-labeled glycine. ( Hara, A; Kurahashi, H; Taketomi, T; Uemura, K, 1995) |
| "In the human neuroblastoma cell line LA-N-2, recombinant rat ciliary neurotrophic factor (CNTF) induced neurite growth and cholinergic differentiation that were both half-maximally saturated at < 100 pM of the neurokine, but was not required for cell survival in serum-free conditions over a 13-day period." | 3.69 | Differentiation effects of ciliary neurotrophic factor on human neuroblastoma cells. ( Dow, KE; Dunn, RJ; Lawrance, G; Richardson, PM; Riopelle, RJ; Rylett, RJ, 1995) |
| " In this study, we describe the effect of ethanol on the incorporation of radioactive serine, choline and ethanolamine into their respective phospholipids in a neuroblastoma x glioma hybrid cell line (NG 108-15)." | 3.69 | Ethanol potentiates the uptake of [14C]serine into phosphatidylserine by base-exchange reaction in NG 108-15 cells. ( Alling, C; Gustavsson, L; Rodríguez, FD, 1996) |
| " The spectra from meningiomas, neuroblastomas, and glioblastomas displayed, in addition to similarities-including the presence of signals from leucine, isoleucine, valine, threonine, lactate, acetate, glutamate, choline-containing compounds and glycine-certain distinguishing metabolic features." | 3.69 | Characteristic metabolic profiles revealed by 1H NMR spectroscopy for three types of human brain and nervous system tumours. ( Bhakoo, KK; Florian, CL; Noble, M; Preece, NE; Williams, SR, 1995) |
| "The sequential methylation of ethanolamine (Etn) or phosphorylethanolamine to the corresponding choline (Cho) derivatives was studied in both undifferentiated and retinoic acid (RA) differentiated human neuroblastoma clones LA-N-1 and LA-N-2." | 3.69 | The conversion of ethanolamine and of its metabolites to choline in human neuroblastoma clones: effect of differentiation induced by retinoic acid. ( Andriamampandry, C; Carrara, M; Dreyfus, H; Freysz, L; Haidar, NE; Kanfer, JN; Massarelli, R, 1994) |
| "Human neuroblastoma cholinergic LA-N-2 cells were used as an experimental model to test the possibility that the methylation of phosphoethanolamine (PEtn) to phosphocholine (PCho) and free choline (Cho) (Andriamampandry et al." | 3.69 | Incorporation of [3H]ethanolamine into acetylcholine by a human cholinergic neuroblastoma clone. ( Andriamampandry, C; Carrara, M; Dreyfus, H; Freysz, L; Haidar, NE; Kanfer, JN; Massarelli, R, 1994) |
| "Palytoxin-induced whole-cell and single channel currents were recorded in mouse neuroblastoma cells." | 3.68 | Characterization of palytoxin-induced channels in mouse neuroblastoma cells. ( Dubois, JM; Rouzaire-Dubois, B, 1990) |
| "The conversion of choline in cultures of the human neuroblastoma cell lines, LA-N-1 and LA-N-2 cells, was investigated in order to identify potential precursors in acetylcholine (AcCho) synthesis." | 3.68 | The metabolic fate of [3H-methyl]choline in cultured human neuroblastoma cell lines, LA-N-1 and LA-N-2. ( Kanfer, JN; Massarelli, R; Singh, IN; Sorrentino, G, 1991) |
| "The cell numbers of three mouse neuroblastoma cell lines were decreased upon incubation with lysosphingolipids in the following order of effectiveness: lysosulfatide (lysoCS) greater than psychosine (Ps) greater than sphingosylphosphocholine (SPC)." | 3.68 | Effects of various lysosphingolipids on cell growth, morphology and lipid composition in three neuroblastoma cell lines. ( Hara, A; Sugiyama, E; Taketomi, T; Uemura, K, 1990) |
| "Dioctanoylglycerol, a synthetic diacylglycerol, stimulated [14C]choline uptake in cultured human neuroblastoma (LA-N-2) cells." | 3.68 | Dioctanoylglycerol stimulates accumulation of [methyl-14C]choline and its incorporation into acetylcholine and phosphatidylcholine in a human cholinergic neuroblastoma cell line. ( Nitsch, RM; Richardson, UI; Slack, BE; Wurtman, RJ, 1992) |
| "The phosphatidylserine (PtdSer) content of human cholinergic neuroblastoma (LA-N-2) cells was manipulated by exposing the cells to exogenous PtdSer, and the effects on phospholipid content, membrane composition, and incorporation of choline into phosphatidylcholine (PtdCho) were investigated." | 3.67 | Uptake of exogenous phosphatidylserine by human neuroblastoma cells stimulates the incorporation of [methyl-14C]choline into phosphatidylcholine. ( Blusztajn, JK; Liscovitch, M; Slack, BE; Wurtman, RJ, 1989) |
| "Differences between the influences of phorbol esters (such as 4 beta-12-O-tetradecanoylphorbol 13-acetate) and of fatty acids (such as oleic acid) on the synthesis and turnover of phosphatidylcholine (PtdCho) and other phospholipids have been studied in glioma (C6), neuroblastoma (N1E-115), and hybrid (NG108-15) cells in culture using [methyl-3H]choline, [32P]Pi, [1,2-14C]ethanolamine, or 1-14C-labeled fatty acids as lipid precursors." | 3.67 | Alterations of phospholipid metabolism by phorbol esters and fatty acids occur by different intracellular mechanisms in cultured glioma, neuroblastoma, and hybrid cells. ( Byers, DM; Cook, HW; Palmer, FB; Spence, MW, 1989) |
| "Neuroblastoma cells were used to determine the effect of high carbohydrate and polyol levels on myo-inositol metabolism." | 3.67 | myo-Inositol metabolism in 41A3 neuroblastoma cells: effects of high glucose and sorbitol levels. ( Dunlap, JA; Ginsberg, BH; Yorek, MA, 1987) |
| "We have examined the effects of phorbol esters on phosphatidylcholine (PtdCho) metabolism in the neuroblastoma-glioma hybrid cell line NG108-15." | 3.67 | Phosphatidylcholine biosynthesis in the neuroblastoma-glioma hybrid cell line NG108-15: stimulation by phorbol esters. ( Blusztajn, JK; Freese, A; Liscovitch, M; Wurtman, RJ, 1986) |
| "The neuroblastoma x glioma hybrid clone NG108-15 is able to release acetylcholine upon depolarization and form cholinergic neuromuscular synapses in culture." | 3.66 | Choline uptake by the neuroblastoma x glioma hybrid, NG108-15. ( McGee, R, 1980) |
| "Previous studies on neuroblastoma cells in culture showed that the presence of partially purified rat liver phospholipid-transfer protein had a marked differential effect on the uptake and apparent subcellular distribution of radioactively labeled sphingomyelin and phosphatidylcholine (PC) added to the medium as mixed phospholipid (PC/sphingomyelin) liposomes." | 3.66 | Studies on the turnover of endogenous choline-containing phospholipids of cultured neuroblastoma cells. ( Clarke, JT; Cook, HW; D'Souza, CJ; Spence, MW, 1983) |
| "The production of cytoplasmic RNA that contains polyadenylic acid is increased, relative to total cytoplasmic RNA, in a neuroblastoma clone, NBE-(A), after induction of differentiation by 4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone, an inhibitor of adenosine 3',5'-monophosphate phosphodiesterase." | 3.65 | Neuroblastoma: drug-induced differentiation increases proportion of cytoplasmic RNA that contains polyadenylic acid. ( Bondy, SC; Prasad, KN; Purdy, JL, 1974) |
| "The specific activity of mouse neuroblastoma choline-O-acetyltransferase (EC 2." | 3.65 | Regulation of the synthesis of choline-O-acetyltransferase and thymidylate synthetase in mouse neuroblastoma in cell culture. ( De Francesco, L; Friedkin, ME; Rosenberg, RN; Vandeventer, L, 1971) |
| "Choline is an essential nutrient necessary for synthesis of membrane phospholipids, cell signalling molecules and acetylcholine." | 1.35 | Detection of choline transporter-like 1 protein CTL1 in neuroblastoma x glioma cells and in the CNS, and its role in choline uptake. ( Dolezal, V; Dove, R; Lisá, V; Machová, E; Meunier, FM; Newcombe, J; O'Regan, S; Prentice, J, 2009) |
| "Neuroblastoma is the most common extracranial solid malignancy in children." | 1.34 | 1H MRS identifies specific metabolite profiles associated with MYCN-amplified and non-amplified tumour subtypes of neuroblastoma cell lines. ( Dyer, SA; Edwards, EC; Grundy, RG; Levine, BA; McConville, C; McMullan, DJ; Peet, AC; Reed, M; Strachan, MC; Wilkes, TM; Wilson, M, 2007) |
| " The toxic effect of AF64A correlated well with the affinity of the choline transport system detected in each cell type." | 1.29 | Direct cytotoxicity of ethylcholine mustard aziridinium in cerebral microvascular endothelial cells. ( Estrada, C; Galea, E; Gómez, C; Martín, C, 1993) |
| "Choline transport was the major site of action." | 1.28 | Calcium-independent effects of TMB-8. Modification of phospholipid metabolism in neuroblastoma cells by inhibition of choline uptake. ( Byers, DM; Cook, HW; Palmer, FB; Spence, MW, 1992) |
| " Dose-response curves for inhibition of choline transport by A-5 and HC-3 were not changed by a 24-hr pre-exposure of the cells to each inhibitor." | 1.28 | Characterization of the effect of two 4-methyl piperidine derivatives of hemicholinium-3, A-4 and A-5, on choline transport. ( Long, JP; Sheff, KY; Yorek, MA, 1990) |
| Timeframe | Studies, this research(%) | All Research% |
|---|---|---|
| pre-1990 | 43 (44.33) | 18.7374 |
| 1990's | 33 (34.02) | 18.2507 |
| 2000's | 13 (13.40) | 29.6817 |
| 2010's | 6 (6.19) | 24.3611 |
| 2020's | 2 (2.06) | 2.80 |
| Authors | Studies |
|---|---|
| Borgonetti, V | 1 |
| Galeotti, N | 1 |
| Nese, M | 1 |
| Riboli, G | 1 |
| Brighetti, G | 1 |
| Sassi, V | 1 |
| Camela, E | 1 |
| Caselli, G | 1 |
| Sassaroli, S | 1 |
| Borlimi, R | 1 |
| Aucoin, M | 1 |
| Cooley, K | 1 |
| Saunders, PR | 1 |
| Carè, J | 1 |
| Anheyer, D | 1 |
| Medina, DN | 1 |
| Cardozo, V | 1 |
| Remy, D | 1 |
| Hannan, N | 1 |
| Garber, A | 1 |
| Velayos, M | 1 |
| Muñoz-Serrano, AJ | 1 |
| Estefanía-Fernández, K | 1 |
| Sarmiento Caldas, MC | 1 |
| Moratilla Lapeña, L | 1 |
| López-Santamaría, M | 1 |
| López-Gutiérrez, JC | 1 |
| Li, J | 1 |
| Zhang, J | 1 |
| Shen, S | 1 |
| Zhang, B | 2 |
| Yu, WW | 1 |
| Toyoda, H | 1 |
| Huang, DQ | 1 |
| Le, MH | 1 |
| Nguyen, MH | 1 |
| Huang, R | 1 |
| Zhu, L | 1 |
| Wang, J | 6 |
| Xue, L | 1 |
| Liu, L | 2 |
| Yan, X | 2 |
| Huang, S | 1 |
| Li, Y | 6 |
| Xu, T | 1 |
| Li, C | 2 |
| Ji, F | 1 |
| Ming, F | 1 |
| Zhao, Y | 2 |
| Cheng, J | 1 |
| Wang, Y | 3 |
| Zhao, H | 1 |
| Hong, S | 1 |
| Chen, K | 2 |
| Zhao, XA | 1 |
| Zou, L | 1 |
| Sang, D | 1 |
| Shao, H | 1 |
| Guan, X | 1 |
| Chen, X | 2 |
| Chen, Y | 4 |
| Wei, J | 1 |
| Zhu, C | 1 |
| Wu, C | 1 |
| Moore, HB | 1 |
| Barrett, CD | 1 |
| Moore, EE | 1 |
| Jhunjhunwala, R | 1 |
| McIntyre, RC | 1 |
| Moore, PK | 1 |
| Hajizadeh, N | 1 |
| Talmor, DS | 1 |
| Sauaia, A | 1 |
| Yaffe, MB | 1 |
| Liu, C | 3 |
| Lin, Y | 1 |
| Dong, Y | 1 |
| Wu, Y | 1 |
| Bao, Y | 1 |
| Yan, H | 2 |
| Ma, J | 1 |
| Fernández-Cuadros, ME | 1 |
| Albaladejo-Florín, MJ | 1 |
| Álava-Rabasa, S | 1 |
| Usandizaga-Elio, I | 1 |
| Martinez-Quintanilla Jimenez, D | 1 |
| Peña-Lora, D | 1 |
| Neira-Borrajo, I | 1 |
| López-Muñoz, MJ | 1 |
| Rodríguez-de-Cía, J | 1 |
| Pérez-Moro, OS | 1 |
| Abdallah, M | 1 |
| Alsaleh, H | 1 |
| Baradwan, A | 1 |
| Alfawares, R | 1 |
| Alobaid, A | 1 |
| Rasheed, A | 1 |
| Soliman, I | 1 |
| Wendel Garcia, PD | 1 |
| Fumeaux, T | 1 |
| Guerci, P | 1 |
| Heuberger, DM | 1 |
| Montomoli, J | 2 |
| Roche-Campo, F | 1 |
| Schuepbach, RA | 1 |
| Hilty, MP | 1 |
| Poloni, TE | 1 |
| Carlos, AF | 1 |
| Cairati, M | 1 |
| Cutaia, C | 1 |
| Medici, V | 1 |
| Marelli, E | 1 |
| Ferrari, D | 1 |
| Galli, A | 1 |
| Bognetti, P | 1 |
| Davin, A | 1 |
| Cirrincione, A | 1 |
| Ceretti, A | 1 |
| Cereda, C | 1 |
| Ceroni, M | 1 |
| Tronconi, L | 1 |
| Vitali, S | 1 |
| Guaita, A | 1 |
| Leeds, JS | 1 |
| Raviprakash, V | 1 |
| Jacques, T | 1 |
| Scanlon, N | 1 |
| Cundall, J | 1 |
| Leeds, CM | 1 |
| Riva, A | 1 |
| Gray, EH | 1 |
| Azarian, S | 1 |
| Zamalloa, A | 1 |
| McPhail, MJW | 1 |
| Vincent, RP | 1 |
| Williams, R | 1 |
| Chokshi, S | 1 |
| Patel, VC | 1 |
| Edwards, LA | 1 |
| Alqarawi, W | 1 |
| Birnie, DH | 1 |
| Golian, M | 1 |
| Nair, GM | 1 |
| Nery, PB | 1 |
| Klein, A | 1 |
| Davis, DR | 1 |
| Sadek, MM | 1 |
| Neilipovitz, D | 1 |
| Johnson, CB | 1 |
| Green, MS | 1 |
| Redpath, C | 1 |
| Miller, DC | 1 |
| Beamer, P | 1 |
| Billheimer, D | 1 |
| Subbian, V | 1 |
| Sorooshian, A | 1 |
| Campbell, BS | 1 |
| Mosier, JM | 1 |
| Novaretti, JV | 1 |
| Astur, DC | 1 |
| Cavalcante, ELB | 1 |
| Kaleka, CC | 1 |
| Amaro, JT | 1 |
| Cohen, M | 1 |
| Huang, W | 1 |
| Li, T | 1 |
| Ling, Y | 1 |
| Qian, ZP | 1 |
| Zhang, YY | 1 |
| Huang, D | 1 |
| Xu, SB | 1 |
| Liu, XH | 1 |
| Xia, L | 1 |
| Yang, Y | 3 |
| Lu, SH | 1 |
| Lu, HZ | 1 |
| Zhang, R | 2 |
| Ma, JX | 1 |
| Tang, S | 1 |
| Li, CM | 1 |
| Wan, J | 1 |
| Wang, JF | 1 |
| Ma, JQ | 1 |
| Luo, JJ | 1 |
| Chen, HY | 2 |
| Mi, SL | 1 |
| Chen, SY | 1 |
| Su, YG | 1 |
| Ge, JB | 1 |
| Milheiro, SA | 1 |
| Gonçalves, J | 1 |
| Lopes, RMRM | 1 |
| Madureira, M | 1 |
| Lobo, L | 1 |
| Lopes, A | 1 |
| Nogueira, F | 1 |
| Fontinha, D | 1 |
| Prudêncio, M | 1 |
| M Piedade, MF | 1 |
| Pinto, SN | 1 |
| Florindo, PR | 1 |
| Moreira, R | 1 |
| Castillo-Lora, J | 1 |
| Delley, MF | 1 |
| Laga, SM | 1 |
| Mayer, JM | 1 |
| Sutjarit, N | 1 |
| Thongon, N | 1 |
| Weerachayaphorn, J | 1 |
| Piyachaturawat, P | 1 |
| Suksamrarn, A | 1 |
| Suksen, K | 1 |
| Papachristou, DJ | 1 |
| Blair, HC | 1 |
| Hu, Y | 1 |
| Shen, P | 1 |
| Zeng, N | 1 |
| Wang, L | 3 |
| Yan, D | 1 |
| Cui, L | 1 |
| Yang, K | 2 |
| Zhai, C | 1 |
| Yang, M | 1 |
| Lao, X | 1 |
| Sun, J | 1 |
| Ma, N | 1 |
| Wang, S | 1 |
| Ye, W | 1 |
| Guo, P | 1 |
| Rahimi, S | 1 |
| Singh, MP | 1 |
| Gupta, J | 1 |
| Nakanishi, I | 1 |
| Ohkubo, K | 1 |
| Shoji, Y | 1 |
| Fujitaka, Y | 1 |
| Shimoda, K | 1 |
| Matsumoto, KI | 1 |
| Fukuhara, K | 1 |
| Hamada, H | 1 |
| van der Boom, T | 1 |
| Gruppen, EG | 1 |
| Lefrandt, JD | 1 |
| Connelly, MA | 1 |
| Links, TP | 1 |
| Dullaart, RPF | 1 |
| Berry, JD | 1 |
| Bedlack, R | 1 |
| Mathews, D | 1 |
| Agnese, W | 1 |
| Apple, S | 1 |
| Meloncelli, S | 1 |
| Divizia, M | 1 |
| Germani, G | 1 |
| Adefegha, SA | 1 |
| Bottari, NB | 1 |
| Leal, DB | 1 |
| de Andrade, CM | 1 |
| Schetinger, MR | 1 |
| Martínez-Velasco, A | 1 |
| Perez-Ortiz, AC | 1 |
| Antonio-Aguirre, B | 1 |
| Martínez-Villaseñor, L | 1 |
| Lira-Romero, E | 1 |
| Palacio-Pastrana, C | 1 |
| Zenteno, JC | 1 |
| Ramirez, I | 1 |
| Zepeda-Palacio, C | 1 |
| Mendoza-Velásquez, C | 1 |
| Camacho-Ordóñez, A | 1 |
| Ortiz Bibriesca, DM | 1 |
| Estrada-Mena, FJ | 1 |
| Martin, BL | 1 |
| Thompson, LC | 1 |
| Kim, YH | 2 |
| Snow, SJ | 1 |
| Schladweiler, MC | 1 |
| Phillips, P | 1 |
| Harmon, M | 1 |
| King, C | 1 |
| Richards, J | 1 |
| George, I | 1 |
| Haykal-Coates, N | 1 |
| Gilmour, MI | 1 |
| Kodavanti, UP | 1 |
| Hazari, MS | 1 |
| Farraj, AK | 1 |
| Shen, Z | 1 |
| Zou, Y | 1 |
| Gao, K | 1 |
| Lazar, S | 1 |
| Wurtzel, JGT | 1 |
| Ma, P | 1 |
| Goldfinger, LE | 1 |
| Vukelic, M | 1 |
| Laloo, A | 1 |
| Kyttaris, VC | 1 |
| Chen, R | 1 |
| Chen, J | 2 |
| Xun, J | 1 |
| Hu, Z | 1 |
| Huang, Q | 2 |
| Steinhart, C | 1 |
| Shen, Y | 1 |
| Lu, H | 1 |
| Mansuri, A | 1 |
| Lokhande, K | 1 |
| Kore, S | 1 |
| Gaikwad, S | 1 |
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2 reviews available for choline and Neuroblastoma
| Article | Year |
|---|---|
Topics: 3T3-L1 Cells; A Kinase Anchor Proteins; Acetates; Achilles Tendon; Acute Kidney Injury; Acute Pain; | 2022 |
Neurotransmitter metabolism in murine neuroblastoma cells.
Topics: Acetylcholine; Action Potentials; Amino Acids; Biological Transport; Catecholamines; Cell Line; Chol | 1976 |
1 trial available for choline and Neuroblastoma
95 other studies available for choline and Neuroblastoma
| Article | Year |
|---|---|
Novel Combination of Choline with
Topics: Animals; Bacopa; Choline; Corticotropin-Releasing Hormone; Humans; Mice; Microglia; Neuroblastoma; N | 2023 |
Pathophysiological amyloid concentrations induce sustained upregulation of readthrough acetylcholinesterase mediating anti-apoptotic effects.
Topics: Acetylcholinesterase; Adenosine Triphosphate; Amyloid beta-Peptides; Apoptosis; Cell Line, Tumor; Ch | 2013 |
In vivo magnetic resonance imaging and spectroscopy identifies oncolytic adenovirus responders.
Topics: Adenoviridae; Animals; Biomarkers, Tumor; Carcinoma; Cells, Cultured; Choline; Cricetinae; Fatty Aci | 2014 |
Monocyte Chemoattractant Protein-Induced Protein 1 Overexpression Modulates Transcriptome, Including MicroRNA, in Human Neuroblastoma Cells.
Topics: Base Sequence; Binding Sites; Biological Transport; Cell Line, Tumor; Choline; Gene Expression Regul | 2016 |
A family-based study of gene variants and maternal folate and choline in neuroblastoma: a report from the Children's Oncology Group.
Topics: Child, Preschool; Choline; Dietary Supplements; Female; Folic Acid; Gene-Environment Interaction; Ge | 2016 |
Detection of choline transporter-like 1 protein CTL1 in neuroblastoma x glioma cells and in the CNS, and its role in choline uptake.
Topics: Acetylcholine; Animals; Antibody Specificity; Antigens, CD; Cell Differentiation; Cell Enlargement; | 2009 |
Peroxynitrite donor SIN-1 alters high-affinity choline transporter activity by modifying its intracellular trafficking.
Topics: Cell Line, Transformed; Cell Line, Tumor; Choline; Clathrin; Cysteine Proteinase Inhibitors; Dose-Re | 2012 |
High-affinity choline uptake (HACU) and choline acetyltransferase (ChAT) activity in neuronal cultures for mechanistic and drug discovery studies.
Topics: Biological Transport, Active; Cell Line, Tumor; Choline; Choline O-Acetyltransferase; Drug Discovery | 2012 |
Eosinophil-induced release of acetylcholine from differentiated cholinergic nerve cells.
Topics: Acetylcholine; Asthma; Cell Communication; Cell Differentiation; Cell Line, Tumor; Choline; Choliner | 2003 |
Par-4 inhibits choline uptake by interacting with CHT1 and reducing its incorporation on the plasma membrane.
Topics: Animals; Apoptosis Regulatory Proteins; Biotinylation; Blotting, Western; Carrier Proteins; Cell Dea | 2004 |
Choline availability modulates human neuroblastoma cell proliferation and alters the methylation of the promoter region of the cyclin-dependent kinase inhibitor 3 gene.
Topics: Base Sequence; Blotting, Western; Cell Cycle Proteins; Cell Division; Cell Line, Tumor; Choline; CpG | 2004 |
Predicting resistance or response to chemotherapy by proton magnetic resonance spectroscopy in neuroblastoma.
Topics: Animals; Antineoplastic Agents; Camptothecin; Cell Line, Tumor; Choline; Cisplatin; Drug Resistance, | 2004 |
Molecular characterization of the family of choline transporter-like proteins and their splice variants.
Topics: Alternative Splicing; Amino Acid Sequence; Animals; Animals, Newborn; Blotting, Northern; Brain; Cel | 2005 |
1H MRS identifies specific metabolite profiles associated with MYCN-amplified and non-amplified tumour subtypes of neuroblastoma cell lines.
Topics: Cell Line, Tumor; Choline; Gene Amplification; Humans; Magnetic Resonance Spectroscopy; N-Myc Proto- | 2007 |
Activity and subcellular trafficking of the sodium-coupled choline transporter CHT is regulated acutely by peroxynitrite.
Topics: Animals; Biotinylation; Cell Culture Techniques; Cell Line; Cell Line, Tumor; Cell Membrane; Choline | 2008 |
Choline uptake by the neuroblastoma x glioma hybrid, NG108-15.
Topics: Animals; Biological Transport; Bucladesine; Cell Line; Choline; Clone Cells; Glioma; Hemicholinium 3 | 1980 |
Studies on the turnover of endogenous choline-containing phospholipids of cultured neuroblastoma cells.
Topics: Animals; Carrier Proteins; Cell Line; Choline; Kinetics; Liposomes; Liver; Lysophosphatidylcholines; | 1983 |
A new capillary tube system for measuring the uptake and release of materials from cultured cells.
Topics: Acetylcholine; Animals; Biological Transport; Cell Line; Choline; Glioma; Hybrid Cells; Kinetics; Me | 1980 |
Use of C1300 neuroblastoma cells to evaluate the protective value of hexamethonium, trimethaphan, hemicholinium, and triethylcholine against diisopropyl phosphorofluoridate toxicity.
Topics: Animals; Cell Survival; Choline; Cholinergic Antagonists; Cholinesterase Reactivators; DNA, Neoplasm | 1995 |
Evidence for indirect utilization of glycine for production of N-bases of glycerophospholipids and sphingolipids in mouse neuroblastoma cells by using 15N-labeled glycine.
Topics: Animals; Cell Line; Choline; Ethanolamine; Ethanolamines; Glycine; Mice; Neuroblastoma; Phosphatidic | 1995 |
Differentiation effects of ciliary neurotrophic factor on human neuroblastoma cells.
Topics: Acetylcholinesterase; Binding, Competitive; Cell Differentiation; Cell Survival; Choline; Choline O- | 1995 |
Proton MR spectroscopy of experimental brain tumors in vivo.
Topics: Animals; Aspartic Acid; Blood Glucose; Brain Edema; Brain Neoplasms; Caudate Nucleus; Cell Line; Cho | 1994 |
Synergistic effect of choline and carnitine on acetylcholine synthesis in neuroblastoma NB-2a cells.
Topics: Acetylcholine; Acylation; Animals; Carnitine; Cell Line; Choline; Drug Synergism; Kinetics; Mice; Ne | 1994 |
The conversion of ethanolamine and of its metabolites to choline in human neuroblastoma clones: effect of differentiation induced by retinoic acid.
Topics: Biological Transport; Cell Differentiation; Choline; Clone Cells; Ethanol; Ethanolamine; Ethanolamin | 1994 |
Incorporation of [3H]ethanolamine into acetylcholine by a human cholinergic neuroblastoma clone.
Topics: Acetylcholine; Choline; Clone Cells; Ethanolamine; Ethanolamines; Humans; Kinetics; Neuroblastoma; P | 1994 |
Possible involvement of the base exchange enzymes in the phospholipid metabolism in LAN-2 cells.
Topics: Choline; Ethanolamine; Ethanolamines; Humans; Neuroblastoma; Phospholipids; Serine; Tetradecanoylpho | 1993 |
Cholinergic neuron-specific expression of the human choline acetyltransferase gene is controlled by silencer elements.
Topics: Animals; Choline; Choline O-Acetyltransferase; Gene Expression Regulation; Humans; Neuroblastoma; Ne | 1993 |
Regulation of expression of cholinergic neuronal phenotypic markers in neuroblastoma LA-N-2.
Topics: Acetylcholine; Biological Transport; Biomarkers; Carrier Proteins; Cell Differentiation; Choline; DN | 1993 |
Direct cytotoxicity of ethylcholine mustard aziridinium in cerebral microvascular endothelial cells.
Topics: Animals; Aziridines; Biological Transport; Brain; Cattle; Cell Death; Cells, Cultured; Choline; Chol | 1993 |
Effects of differentiation on the phospholipid and phospholipid fatty acid composition of N1E-115 neuroblastoma cells.
Topics: Cell Differentiation; Choline; Ethanolamine; Ethanolamines; Fatty Acids; Humans; Neuroblastoma; Phos | 1993 |
Differentiation agents enhance cholinergic characteristics of LA-N-2 human neuroblastoma cells.
Topics: Acetylcholine; Cell Differentiation; Choline; Humans; Neuroblastoma; Tritium; Tumor Cells, Cultured | 1996 |
Characteristic metabolic profiles revealed by 1H NMR spectroscopy for three types of human brain and nervous system tumours.
Topics: Alanine; Amino Acids; Brain Neoplasms; Choline; Chromatography, High Pressure Liquid; Creatine; Glio | 1995 |
Phorbol ester stimulation of phosphatidylcholine synthesis in four cultured neural cell lines: correlations with expression of protein kinase C isoforms.
Topics: Animals; Blotting, Northern; Blotting, Western; Choline; Gene Expression; Glioma; Humans; Isoenzymes | 1995 |
Abrogation of shedding of immunosuppressive neuroblastoma gangliosides.
Topics: Cell Division; Choline; Gangliosides; Glucosyltransferases; Humans; Morpholines; Neoplasm Proteins; | 1996 |
Immortalization and transformation are associated with specific alterations in choline metabolism.
Topics: Animals; Antigens, Viral, Tumor; Cell Division; Cell Line, Transformed; Choline; Glioblastoma; Human | 1996 |
Ethanol potentiates the uptake of [14C]serine into phosphatidylserine by base-exchange reaction in NG 108-15 cells.
Topics: Animals; Carbon Radioisotopes; Choline; Ethanol; Ethanolamine; Ethanolamines; Glioma; Hybrid Cells; | 1996 |
Colocalisation of CTP:choline phosphate cytidylyltransferase (CT) with F-actin accompanies increased phosphatidylcholine synthesis in differentiating neuroblastoma cells.
Topics: Actins; Cell Differentiation; Cell Nucleus; Choline; Choline-Phosphate Cytidylyltransferase; Cytosol | 1997 |
AF64A-induced changes in N-myc expression in the LA-N-2 human neuroblastoma cell line are modulated by choline and hemicholinium-3.
Topics: Aziridines; Cell Division; Cell Survival; Choline; Gene Expression Regulation, Neoplastic; Hemicholi | 1998 |
Chromatin-associated phosphatidylcholine synthesis.
Topics: Carbon Radioisotopes; Cell Nucleus; Choline; Chromatin; Cytidine Diphosphate Choline; Humans; Neurob | 1998 |
Modulation of acetylcholinesterase and voltage-gated Na(+) channels in choline acetyltransferase- transfected neuroblastoma clones.
Topics: Acetylcholinesterase; Animals; Brain; Cell Differentiation; Choline; Choline O-Acetyltransferase; Cl | 2000 |
Cholinergic differentiation triggered by blocking cell proliferation and treatment with all-trans-retinoic acid.
Topics: Acetylcholine; Animals; Aphidicolin; Carrier Proteins; Cell Differentiation; Cell Division; Choline; | 2000 |
Phosphatidylcholine metabolism in nuclei of phorbol ester-activated LA-N-1 neuroblastoma cells.
Topics: Carbon Radioisotopes; Cell Nucleus; Choline; Choline Kinase; Cytidine Diphosphate Choline; Humans; K | 2000 |
Biocytin and biotin uptake into NB2a neuroblastoma and C6 astrocytoma cells.
Topics: Animals; Astrocytoma; Binding, Competitive; Biological Transport; Biotin; Carbon-Carbon Ligases; Cel | 2002 |
Characterization of L-glutamine transport by a human neuroblastoma cell line.
Topics: Amino Acid Transport System ASC; Amino Acids; Biological Transport; Cell Division; Cell Membrane; Ch | 2002 |
Uptake of neurotransmitters and precursors by clonal cell lines of neural origin.
Topics: Amino Acids; Aminooxyacetic Acid; Aspartic Acid; Astrocytoma; Biogenic Amines; Cell Line; Cell Membr | 1976 |
Effect of cellular desialylation on choline high affinity uptake and ecto-acetylcholinesterase activity of cholinergic neuroblasts.
Topics: Acetylcholinesterase; Cells, Cultured; Choline; Clostridium perfringens; Neuraminidase; Neuroblastom | 1975 |
Choline and diethylcholine transport into a cholinergic clone of neuroblastoma cells.
Topics: Animals; Biological Transport; Choline; Clone Cells; Hemicholinium 3; Kinetics; Mice; Neoplasms, Exp | 1979 |
Choline uptake and metabolism by nerve cell cultures.
Topics: Animals; Biological Transport, Active; Cell Line; Choline; Kinetics; Mice; Neuroblastoma; Neurons; T | 1979 |
Calcium fluxes in cultured and bulk isolated neuronal and glial cells.
Topics: Acetylcholine; Animals; Astrocytes; Brain Neoplasms; Calcium; Cells, Cultured; Choline; Glioma; Huma | 1977 |
Choline stimulates the synthesis and accumulation of acetate in a cholinergic neuroblastoma clone.
Topics: Acetates; Acetylcholine; Choline; Clone Cells; Glucose; Kinetics; Neuroblastoma | 1977 |
Base stimulation of phospholipid metabolism in neuroblastoma cells. II. Estimates of rates of synthesis and degradation of phosphoglycerides by base manipulation.
Topics: Cell Line; Choline; Ethanolamines; Glycerophosphates; Kinetics; Neuroblastoma; Phosphates; Phosphati | 1977 |
On the uptake mechanism of choline in nerve cell cultures.
Topics: Animals; Astrocytes; Brain; Chick Embryo; Choline; Cholinesterase Inhibitors; Clone Cells; Cyanides; | 1976 |
Cholinesterase activity and choline uptake in intact nerve cell cultures.
Topics: Animals; Astrocytes; Benzenaminium, 4,4'-(3-oxo-1,5-pentanediyl)bis(N,N-dimethyl-N-2-propenyl-), Dib | 1976 |
Synapse formation between clonal neuroblastoma X glioma hybrid cells and striated muscle cells.
Topics: Action Potentials; Calcium; Cells, Cultured; Choline; Glioma; Hybrid Cells; Membrane Potentials; Mus | 1976 |
Activation of the action potential Na+ ionophore of cultured neuroblastoma cells by veratridine and batrachotoxin.
Topics: Action Potentials; Animals; Batrachotoxins; Biological Transport, Active; Calcium; Cations, Divalent | 1975 |
Dioctanoylglycerol stimulates accumulation of [methyl-14C]choline and its incorporation into acetylcholine and phosphatidylcholine in a human cholinergic neuroblastoma cell line.
Topics: Acetylcholine; Choline; Diglycerides; Humans; Nervous System Neoplasms; Neuroblastoma; Osmolar Conce | 1992 |
Calcium-independent effects of TMB-8. Modification of phospholipid metabolism in neuroblastoma cells by inhibition of choline uptake.
Topics: Animals; Calcium; Calcium Channel Blockers; Chlorpromazine; Choline; Gallic Acid; Mice; Neuroblastom | 1992 |
The effect of protein kinase C activation on muscarinic-M3- and K(+)-evoked release of [3H]noradrenaline and increases in intracellular Ca2+ in human neuroblastoma SH-SY5Y cells.
Topics: Calcium; Choline; Enzyme Activation; Humans; Intracellular Fluid; Neuroblastoma; Norepinephrine; Pot | 1992 |
Characterization of palytoxin-induced channels in mouse neuroblastoma cells.
Topics: Acrylamides; Animals; Calcium; Cell Membrane Permeability; Choline; Cnidarian Venoms; Electric Condu | 1990 |
Oleoylamine and sphingosine stimulation of phosphatidylserine synthesis by LA-N-2 cells is protein kinase C independent.
Topics: Amines; Choline; Diglycerides; Down-Regulation; Ethanolamines; Humans; Neuroblastoma; Oleic Acids; P | 1992 |
Effects of insulin on glucose uptake in cultured cells from the central nervous system of rodent.
Topics: Animals; Calcium; Carbachol; Central Nervous System; Choline; Deoxyglucose; Glioma; Insulin; Kinetic | 1991 |
The metabolic fate of [3H-methyl]choline in cultured human neuroblastoma cell lines, LA-N-1 and LA-N-2.
Topics: Acetylcholine; Cell Differentiation; Choline; Chromatography, Thin Layer; Humans; Neoplasm Proteins; | 1991 |
Hemicholinium-3 derivatives A-4 and A-5 alter choline metabolism in NB41A3 neuroblastoma cells.
Topics: Animals; Biphenyl Compounds; Choline; Ethanolamine; Ethanolamines; Mice; Neuroblastoma; Phosphatidyl | 1991 |
Receptor-linked early events induced by vasoactive intestinal contractor (VIC) on neuroblastoma and vascular smooth-muscle cells.
Topics: Animals; Calcium; Cell Line; Cells, Cultured; Choline; Diglycerides; Egtazic Acid; Fura-2; Inositol | 1990 |
Characterization of the effect of two 4-methyl piperidine derivatives of hemicholinium-3, A-4 and A-5, on choline transport.
Topics: Animals; Biological Transport; Biphenyl Compounds; Choline; Dose-Response Relationship, Drug; Mice; | 1990 |
Development of cholinergic markers in the neuroblastoma, N1E-115.
Topics: Acetylcholine; Acetylcholinesterase; Animals; Biomarkers; Cell Division; Choline; Choline O-Acetyltr | 1990 |
Effects of various lysosphingolipids on cell growth, morphology and lipid composition in three neuroblastoma cell lines.
Topics: Animals; Cell Division; Cell Line; Choline; Gangliosides; Kinetics; Lipid Metabolism; Mice; Neurobla | 1990 |
Mechanism of action of a polypeptide neurotoxin from the coral Goniopora on sodium channels in mouse neuroblastoma cells.
Topics: Action Potentials; Animals; Cell Line; Cesium; Choline; Intercellular Signaling Peptides and Protein | 1986 |
Acetylcholine synthesis and secretion by LA-N-2 human neuroblastoma cells.
Topics: Acetylcholine; Cell Line; Choline; Cholinergic Fibers; Hemicholinium 3; Humans; Neuroblastoma; Potas | 1989 |
Uptake of exogenous phosphatidylserine by human neuroblastoma cells stimulates the incorporation of [methyl-14C]choline into phosphatidylcholine.
Topics: Biological Transport; Choline; Enzyme Activation; Humans; Neuroblastoma; Phosphatidylcholines; Phosp | 1989 |
Alterations of phospholipid metabolism by phorbol esters and fatty acids occur by different intracellular mechanisms in cultured glioma, neuroblastoma, and hybrid cells.
Topics: Animals; Cell Line; Choline; Ethanolamine; Ethanolamines; Fatty Acids; Glioma; Hybrid Cells; Kinetic | 1989 |
myo-Inositol metabolism in 41A3 neuroblastoma cells: effects of high glucose and sorbitol levels.
Topics: Animals; Cell Division; Cell Line; Choline; Ethanolamine; Ethanolamines; Glucose; Inositol; Kinetics | 1987 |
Differential regulation of phosphatidylcholine biosynthesis by 12-O-tetradecanoylphorbol-13-acetate and diacylglycerol in NG108-15 neuroblastoma x glioma hybrid cells.
Topics: 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine; Animals; Choline; Chromatography, High Pressure Liqui | 1987 |
Phosphatidylcholine biosynthesis in the neuroblastoma-glioma hybrid cell line NG108-15: stimulation by phorbol esters.
Topics: Animals; Cell Line; Choline; Ethanolamine; Ethanolamines; Glioma; Inositol; Neuroblastoma; Phorbol E | 1986 |
AF64A: an active site directed irreversible inhibitor of choline acetyltransferase.
Topics: Animals; Aziridines; Azirines; Cell Line; Choline; Choline Kinase; Choline O-Acetyltransferase; Chol | 1985 |
Biochemical differentiation in reaggregating brain cell culture.
Topics: Acetylcholinesterase; Acyltransferases; Age Factors; Animals; Brain; Carbon Isotopes; Carboxy-Lyases | 1971 |
Human neuroblastoma cell culture: effect of 5-bromodeoxyuridine on morphological differentiation and levels of neural enzymes.
Topics: Acetyltransferases; Bromodeoxyuridine; Catechol O-Methyltransferase; Cell Differentiation; Choline; | 1973 |
Differentiation of neuroblastoma cells induced in culture by 6-thioguanine.
Topics: Acetyltransferases; Animals; Bromodeoxyuridine; Carbon Radioisotopes; Catechol O-Methyltransferase; | 1973 |
Antibodies to rat brain choline acetyltransferase: species and organ specificity.
Topics: Acetyltransferases; Animals; Antibodies; Brain; Carbon Radioisotopes; Carnitine; Cats; Cattle; Choli | 1973 |
Enzyme regulation in neuroblastoma cells. Selection of clones with low acetylcholinesterase activity and the independent control of acetylcholinesterase and choline-O-acetyltransferase.
Topics: Acetylcholine; Acetylcholinesterase; Acetyltransferases; Adenine; Adenosine Monophosphate; Animals; | 1972 |
Neuroblastoma: drug-induced differentiation increases proportion of cytoplasmic RNA that contains polyadenylic acid.
Topics: Acetyltransferases; Adenosine; Adenosine Monophosphate; Animals; Benzyl Compounds; Brain; Cell Diffe | 1974 |
Neurotransmitter synthesis by neuroblastoma clones (neuroblast differentiation-cell culture-choline acetyltransferase-acetylcholinesterase-tyrosine hydroxylase-axons-dendrites).
Topics: Acetylcholinesterase; Acyltransferases; Animals; Axons; Cell Differentiation; Cell Line; Choline; Ch | 1972 |
Choline transport by neuroblastoma cells in tissue culture.
Topics: Acetylcholinesterase; Acetyltransferases; Biological Transport; Calcium; Cell Line; Cells, Cultured; | 1974 |
Kinetics of choline uptake in neuroblastoma clones.
Topics: Acetylcholinesterase; Acetyltransferases; Animals; Butyrylcholinesterase; Carbon Radioisotopes; Chol | 1974 |
Transport of neurotransmitter precursors into cultured cells.
Topics: Acetylcholine; Amino Acids; Animals; Biological Transport; Carbon Isotopes; Catecholamines; Cell Lin | 1973 |
Demonstration of cholinergic cells in human neuroblastoma and ganglioneuroma.
Topics: Acyltransferases; Bone Marrow; Cells, Cultured; Choline; Ganglioneuroma; Humans; In Vitro Techniques | 1973 |
[Proceedings: Effect of acetylcholinesterase inhibitors on the kinetics of choline incorporation in a clone culture of mouse neuroblastoma].
Topics: Animals; Cell Line; Cells, Cultured; Choline; Cholinesterase Inhibitors; Clone Cells; In Vitro Techn | 1973 |
Morphine tolerance in a human neuroblastoma line: changes in choline acetylase and cholinesterase activities.
Topics: Acetyltransferases; Cell Division; Cell Line; Cell Survival; Choline; Cholinesterases; Dose-Response | 1974 |
Inhibition of acetylcholine synthesis in neuroblastoma cells by a styrylpyridine analog.
Topics: Acetylcholine; Acetyltransferases; Animals; Carbon Radioisotopes; Choline; Clone Cells; Culture Medi | 1974 |
Expression of neuronal phenotypes in neuroblastoma cell hybrids.
Topics: Acetylcholinesterase; Acetyltransferases; Adolescent; Adult; Animals; Cell Differentiation; Choline; | 1974 |
Differential assay for choline acetyltransferase.
Topics: Acetylcholinesterase; Acetyltransferases; Animals; Carbon Radioisotopes; Carnitine; Cell Line; Choli | 1974 |
High activity of choline acetyltransferase induced in neuroblastoma x glia hybrid cells.
Topics: Acetylcholinesterase; Acetyltransferases; Animals; Cell Fusion; Cell Line; Choline; Chromosomes; Clo | 1974 |
Markers for gene expression in cultured cells from the nervous system.
Topics: Acetylcholinesterase; Acyltransferases; Animals; Brain; Carbon Isotopes; Carboxy-Lyases; Catechol O- | 1972 |
Establishment of functional clonal lines of neurons from mouse neuroblastoma.
Topics: Acetylcholinesterase; Acyltransferases; Animals; Cell Line; Choline; Clone Cells; Mice; Mixed Functi | 1969 |
Regulation of the synthesis of choline-O-acetyltransferase and thymidylate synthetase in mouse neuroblastoma in cell culture.
Topics: Acyltransferases; Animals; Carbon Isotopes; Cell Differentiation; Cell Division; Cell Line; Choline; | 1971 |