Compounds > chenodeoxycholic acid
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chenodeoxycholic acid and dinoprostone

chenodeoxycholic acid has been researched along with dinoprostone in 16 studies

Research

Studies (16)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's4 (25.00)18.2507
2000's9 (56.25)29.6817
2010's2 (12.50)24.3611
2020's1 (6.25)2.80

Authors

AuthorsStudies
Abellán Guillén, A; Cordeiro, MN; Garrido Escudero, A; Morales Helguera, A; Pérez-Garrido, A1
Barnes, JC; Bradley, P; Day, NC; Fourches, D; Reed, JZ; Tropsha, A1
Hata, Y; Hiraishi, H; Mutoh, H; Ota, S; Sugimoto, T; Terano, A; Tsukahara, H1
Hata, Y; Ivey, KJ; Kawabe, T; Ota, S; Razandi, M; Terano, A1
Moriwaki, H; Muto, Y; Nishigaki, Y; Ohnishi, H1
Bertagnolli, MM; Bilinski, RT; Chadburn, A; Churchill, M; Dannenberg, AJ; Mahmoud, NN; Martucci, C; Mestre, JR1
Dannenberg, AJ; DeLellis, RA; Golijanin, D; Jakobsson, PJ; Paty, PB; Soslow, RA; Subbaramaiah, K; Yoshimatsu, K1
Behar, J; Biancani, P; Carey, MC; Xiao, ZL1
Imamura, M; Itami, A; Kaganoi, J; Kawabe, A; Kiyono, T; Maeda, M; Shimada, Y; Soma, T1
Guan, H; Li, PF; Si, Q; Zhao, HX1
Imamura, M; Kaganoi, J; Kawabe, A; Kondo, K; Shimada, Y; Soma, T; Tsunoda, S1
Aratsu, Z; Bouscarel, B; Ceryak, S; Epstein, L; Jones, L; Meng, JP1
Kuwayama, H; Sohma, R; Takada, H; Takahashi, M1
Dannenberg, AJ; Miyaki, A; Subbaramaiah, K; Tai, HH; Yang, P1
Chang, SC; Chen, CS; Hsiao, YH; Hung, MH; Lee, YC; Perng, DW; Su, KC; Tseng, CM; Wu, YC1
Fujitsuka, N; Kono, T; Mogami, S; Sadatomi, D1

Other Studies

16 other study(ies) available for chenodeoxycholic acid and dinoprostone

ArticleYear
Convenient QSAR model for predicting the complexation of structurally diverse compounds with beta-cyclodextrins.
    Bioorganic & medicinal chemistry, 2009, Jan-15, Volume: 17, Issue:2

    Topics: beta-Cyclodextrins; Hydrophobic and Hydrophilic Interactions; Organic Chemicals; Quantitative Structure-Activity Relationship

2009
Cheminformatics analysis of assertions mined from literature that describe drug-induced liver injury in different species.
    Chemical research in toxicology, 2010, Volume: 23, Issue:1

    Topics: Animals; Chemical and Drug Induced Liver Injury; Cluster Analysis; Databases, Factual; Humans; MEDLINE; Mice; Models, Chemical; Molecular Conformation; Quantitative Structure-Activity Relationship

2010
Protective effect of tauroursodeoxycholate against chenodeoxycholate-induced damage to cultured rabbit gastric cells.
    Digestive diseases and sciences, 1991, Volume: 36, Issue:4

    Topics: Animals; Bile Acids and Salts; Calcium; Cells, Cultured; Chenodeoxycholic Acid; Dinoprostone; Dose-Response Relationship, Drug; Female; Free Radicals; Gastric Mucosa; Indomethacin; Isomerism; Male; Rabbits; Taurochenodeoxycholic Acid; Verapamil

1991
Bile salts stimulate mucous glycoprotein secretion from cultured rabbit gastric mucosal cells.
    The Journal of laboratory and clinical medicine, 1994, Volume: 124, Issue:3

    Topics: Animals; Bile Acids and Salts; Calcium; Cells, Cultured; Chenodeoxycholic Acid; Deoxycholic Acid; Dinoprostone; Dose-Response Relationship, Drug; Gastric Mucosa; Glycodeoxycholic Acid; Glycoproteins; Indomethacin; Male; Mucins; Rabbits; Radioimmunoassay; Taurodeoxycholic Acid; Time Factors

1994
Ursodeoxycholic acid corrects defective natural killer activity by inhibiting prostaglandin E2 production in primary biliary cirrhosis.
    Digestive diseases and sciences, 1996, Volume: 41, Issue:7

    Topics: Adult; Aged; Cells, Cultured; Chenodeoxycholic Acid; Cholic Acid; Cholic Acids; Chronic Disease; Deoxycholic Acid; Dinoprostone; Female; Hepatitis C; Humans; Indomethacin; Killer Cells, Natural; Liver Cirrhosis, Biliary; Liver Diseases; Male; Middle Aged; Ursodeoxycholic Acid

1996
Administration of an unconjugated bile acid increases duodenal tumors in a murine model of familial adenomatous polyposis.
    Carcinogenesis, 1999, Volume: 20, Issue:2

    Topics: Adenomatous Polyposis Coli; Adenomatous Polyposis Coli Protein; Animals; beta Catenin; Carcinogenicity Tests; Chenodeoxycholic Acid; Cholagogues and Choleretics; Cytoskeletal Proteins; Dinoprostone; Disease Models, Animal; Duodenal Neoplasms; Duodenum; Female; Mice; Trans-Activators

1999
Inducible microsomal prostaglandin E synthase is overexpressed in colorectal adenomas and cancer.
    Clinical cancer research : an official journal of the American Association for Cancer Research, 2001, Volume: 7, Issue:12

    Topics: Adenocarcinoma; Adenoma; Blotting, Western; Cell Line; Chenodeoxycholic Acid; Colonic Neoplasms; Colorectal Neoplasms; Cyclooxygenase 2; Dinoprostone; Enzyme Induction; Gene Expression Regulation, Enzymologic; Humans; Intestinal Mucosa; Intramolecular Oxidoreductases; Isoenzymes; Membrane Proteins; Prostaglandin-E Synthases; Prostaglandin-Endoperoxide Synthases; Recombinant Proteins; Transfection; Tumor Necrosis Factor-alpha

2001
Hydrophilic but not hydrophobic bile acids prevent gallbladder muscle dysfunction in acute cholecystitis.
    Hepatology (Baltimore, Md.), 2003, Volume: 37, Issue:6

    Topics: Acetylcholine; Acute Disease; Animals; Bile; Bile Acids and Salts; Bile Ducts; Biomarkers; Catalase; Chenodeoxycholic Acid; Cholecystitis; Dinoprostone; Gallbladder; Guinea Pigs; Hydrogen Peroxide; Ligation; Lipid Peroxides; Muscle Contraction; Muscle, Smooth; Oxidative Stress; Receptors, Prostaglandin E; Sincalide; Ursodeoxycholic Acid

2003
Production of prostaglandinE2 via bile acid is enhanced by trypsin and acid in normal human esophageal epithelial cells.
    Life sciences, 2004, May-21, Volume: 75, Issue:1

    Topics: Benzenesulfonates; Cell Survival; Cells, Cultured; Chenodeoxycholic Acid; Culture Media; Cyclooxygenase 2; Cyclooxygenase 2 Inhibitors; Cyclooxygenase Inhibitors; Dinoprostone; Duodenogastric Reflux; Epithelial Cells; Esophagus; Humans; Hydrogen-Ion Concentration; Immunoblotting; Isoenzymes; Membrane Proteins; Oxazoles; Prostaglandin-Endoperoxide Synthases; Trypsin; Up-Regulation

2004
[Studies on mechanism of antiasthmatic and anti-inflammatory actions of CDCA].
    Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica, 2004, Volume: 29, Issue:4

    Topics: Animals; Anti-Asthmatic Agents; Anti-Inflammatory Agents, Non-Steroidal; Chenodeoxycholic Acid; Cyclic AMP; Dinoprostone; Female; Lung; Male; Materia Medica; Mice; Nitric Oxide; Rats; Rats, Wistar; Trachea

2004
Chenodeoxycholic acid stimulates the progression of human esophageal cancer cells: A possible mechanism of angiogenesis in patients with esophageal cancer.
    International journal of cancer, 2006, Aug-15, Volume: 119, Issue:4

    Topics: Adult; Aged; Aged, 80 and over; Animals; Cell Line, Tumor; Chenodeoxycholic Acid; Cyclooxygenase 2; Dinoprostone; Disease Progression; Enzyme Activation; ErbB Receptors; Esophageal Neoplasms; Female; Gene Expression Regulation, Enzymologic; Humans; Interleukin-6; Male; Mice; Middle Aged; Mitogen-Activated Protein Kinases; Neoplasm Transplantation; Signal Transduction; Survival Rate; Vascular Endothelial Growth Factor A

2006
Biphasic regulation by bile acids of dermal fibroblast proliferation through regulation of cAMP production and COX-2 expression level.
    American journal of physiology. Cell physiology, 2006, Volume: 291, Issue:3

    Topics: Alprostadil; Bile Acids and Salts; Cell Proliferation; Chenodeoxycholic Acid; Colforsin; Cyclic AMP; Cyclooxygenase 1; Cyclooxygenase 2; Dinoprostone; Fibroblasts; Forearm; Humans; Liver Diseases; Membrane Proteins; RNA, Messenger; Skin

2006
Protective effect of n-3 polyunsaturated fatty acid on primary culture of rat hepatocytes.
    Journal of gastroenterology and hepatology, 2007, Volume: 22, Issue:11

    Topics: Animals; Cell Culture Techniques; Cell Survival; Cells, Cultured; Chenodeoxycholic Acid; Cytoprotection; Dinoprostone; Dose-Response Relationship, Drug; Eicosapentaenoic Acid; Enzyme Induction; Free Radical Scavengers; Hepatocytes; L-Lactate Dehydrogenase; Leukotriene B4; Male; Rats; Rats, Sprague-Dawley; RNA, Messenger; Superoxide Dismutase

2007
Bile acids inhibit NAD+-dependent 15-hydroxyprostaglandin dehydrogenase transcription in colonocytes.
    American journal of physiology. Gastrointestinal and liver physiology, 2009, Volume: 297, Issue:3

    Topics: Binding Sites; Chenodeoxycholic Acid; Colon; Deoxycholic Acid; Dinoprostone; Down-Regulation; Early Growth Response Protein 1; Gene Expression Regulation, Enzymologic; HT29 Cells; Humans; Hydroxyprostaglandin Dehydrogenases; Mitogen-Activated Protein Kinase 1; Mitogen-Activated Protein Kinase 3; Promoter Regions, Genetic; Protein Kinase C; RNA Interference; RNA, Messenger; Signal Transduction; Snail Family Transcription Factors; Time Factors; Transcription Factors; Transcription, Genetic

2009
Bile acids increase alveolar epithelial permeability via mitogen-activated protein kinase, cytosolic phospholipase A2 , cyclooxygenase-2, prostaglandin E2 and junctional proteins.
    Respirology (Carlton, Vic.), 2013, Volume: 18, Issue:5

    Topics: Bile Acids and Salts; Cadherins; Cell Membrane Permeability; Cells, Cultured; Chenodeoxycholic Acid; Cyclooxygenase 2; Dinoprostone; Dose-Response Relationship, Drug; Humans; Mitogen-Activated Protein Kinase Kinases; Occludin; Phospholipases A2, Cytosolic; Pulmonary Alveoli; Respiratory Mucosa; Signal Transduction; Tight Junction Proteins; Zonula Occludens-1 Protein

2013
Weak acids induce PGE
    Scientific reports, 2020, 11-27, Volume: 10, Issue:1

    Topics: Acids; Animals; Cells, Cultured; Chenodeoxycholic Acid; Cyclooxygenase 2 Inhibitors; Dinoprostone; Drugs, Chinese Herbal; Epithelial Cells; Esophageal Mucosa; Gastroesophageal Reflux; Heartburn; Humans; Hydrogen-Ion Concentration; MAP Kinase Signaling System; Models, Biological; Prostaglandin-Endoperoxide Synthases; Rats; TRPV Cation Channels

2020