choline and Malaria studies

choline and Malaria

choline has been researched along with Malaria in 19 studies

Malaria: A protozoan disease caused in humans by four species of the PLASMODIUM genus: PLASMODIUM FALCIPARUM; PLASMODIUM VIVAX; PLASMODIUM OVALE; and PLASMODIUM MALARIAE; and transmitted by the bite of an infected female mosquito of the genus ANOPHELES. Malaria is endemic in parts of Asia, Africa, Central and South America, Oceania, and certain Caribbean islands. It is characterized by extreme exhaustion associated with paroxysms of high FEVER; SWEATING; shaking CHILLS; and ANEMIA. Malaria in ANIMALS is caused by other species of plasmodia.

Research Excerpts

Excerpt	Relevance	Reference
"Parasitized erythrocytes from mice infected with the murine malaria parasite Plasmodium vinckei vinckei showed a marked increase in the rate of influx of choline compared with erythrocytes from uninfected mice."	7.70	Increased choline transport in erythrocytes from mice infected with the malaria parasite Plasmodium vinckei vinckei. ( Kirk, K; Staines, HM, 1998)
"Parasitized erythrocytes from mice infected with the murine malaria parasite Plasmodium vinckei vinckei showed a marked increase in the rate of influx of choline compared with erythrocytes from uninfected mice."	3.70	Increased choline transport in erythrocytes from mice infected with the malaria parasite Plasmodium vinckei vinckei. ( Kirk, K; Staines, HM, 1998)
"The permeability of simian erythrocytes to choline was found to be considerably increased after infection by the malaria parasite, Plasmodium knowlesi."	3.68	Increased permeability to choline in simian erythrocytes after Plasmodium knowlesi infection. ( Ancelin, ML; Parant, M; Philippot, JR; Thuet, MJ; Vial, HJ, 1991)
"Malaria has emerged as one of the most debilitating parasitic infection with about 500 million cases reported annually and one million deaths worldwide."	2.47	Novel targets for malaria therapy. ( Patravale, V; Prabhu, P, 2011)
" The bioavailability of a radiolabeled form of the product seemed to be advantageous (slow blood clearance and no significant concentration in tissues)."	2.38	Basic biochemical investigations as rationale for the design of original antimalarial drugs. An example of phospholipid metabolism. ( Angelin, ML; Calas, M; Cordinas, G; Elabbadi, N; Giral, L; Vial, HJ, 1992)

Research

Studies (19)

Timeframe	Studies, this research(%)	All Research%
pre-1990	4 (21.05)	18.7374
1990's	9 (47.37)	18.2507
2000's	0 (0.00)	29.6817
2010's	4 (21.05)	24.3611
2020's	2 (10.53)	2.80

Timeframe

Studies, this research(%)

All Research%

pre-1990

4 (21.05)

18.7374

1990's

9 (47.37)

18.2507

2000's

0 (0.00)

29.6817

2010's

4 (21.05)

24.3611

2020's

2 (10.53)

2.80

Authors

Authors	Studies
Ramaprasad, A	1
Burda, PC	1
Calvani, E	1
Sait, AJ	1
Palma-Duran, SA	1
Withers-Martinez, C	1
Hackett, F	1
Macrae, J	1
Collinson, L	1
Gilberger, TW	1
Blackman, MJ	1
Duan, S	1
Wang, R	2
Tang, J	1
Xiao, X	1
Li, N	1
Guo, W	1
Yang, Q	1
Ren, G	1
Zhang, S	1
Abdel-Haleem, AM	1
Hefzi, H	1
Mineta, K	1
Gao, X	1
Gojobori, T	1
Palsson, BO	1
Lewis, NE	1
Jamshidi, N	1
Tritten, L	1
Keiser, J	1
Karwa, T	1
Utzinger, J	1
Holmes, E	1
Saric, J	1
WENT, F	1
Prabhu, P	1
Patravale, V	1
Peyrottes, S	1
Caldarelli, S	1
Wein, S	1
Périgaud, C	1
Pellet, A	1
Vial, H	1
Ancelin, ML	7
Vial, HJ	8
Calas, M	4
Giral, L	2
Piquet, G	2
Rubi, E	1
Thomas, A	1
Peters, W	1
Slomianny, C	1
Herrera, S	1
Elford, BC	3
Cowan, GM	1
Ferguson, DJ	1
Elabbadi, N	2
Gumila, C	1
Bonnet, H	1
Jeong, YH	1
Philippot, J	1
Portefaix, P	1
Staines, HM	1
Kirk, K	2
Eldin, P	1
Martin, D	1
Gannoun, L	1
Angelin, ML	1
Cordinas, G	1
Poli de Figueiredo, CE	1
Ellory, JC	2
Parant, M	1
Thuet, MJ	2
Philippot, JR	3
Pinches, RA	1
Newbold, CI	1

Studies

Ramaprasad, A

Burda, PC

Calvani, E

Sait, AJ

Palma-Duran, SA

Withers-Martinez, C

Hackett, F

Macrae, J

Collinson, L

Gilberger, TW

Blackman, MJ

Duan, S

Wang, R

Tang, J

Xiao, X

Li, N

Guo, W

Yang, Q

Ren, G

Zhang, S

Abdel-Haleem, AM

Hefzi, H

Mineta, K

Gao, X

Gojobori, T

Palsson, BO

Lewis, NE

Jamshidi, N

Tritten, L

Keiser, J

Karwa, T

Utzinger, J

Holmes, E

Saric, J

WENT, F

Prabhu, P

Patravale, V

Peyrottes, S

Caldarelli, S

Wein, S

Périgaud, C

Pellet, A

Vial, H

Ancelin, ML

Vial, HJ

Calas, M

Giral, L

Piquet, G

Rubi, E

Thomas, A

Peters, W

Slomianny, C

Herrera, S

Elford, BC

Cowan, GM

Ferguson, DJ

Elabbadi, N

Gumila, C

Bonnet, H

Jeong, YH

Philippot, J

Portefaix, P

Staines, HM

Kirk, K

Eldin, P

Martin, D

Gannoun, L

Angelin, ML

Cordinas, G

Poli de Figueiredo, CE

Ellory, JC

Parant, M

Thuet, MJ

Philippot, JR

Pinches, RA

Newbold, CI

Reviews

6 reviews available for choline and Malaria

Article	Year
Novel targets for malaria therapy. Current drug targets, 2011, Volume: 12, Issue:14 Topics: Animals; Antimalarials; Choline; Cyclin-Dependent Kinases; Erythrocytes; Glucose; Humans; Malaria; M	2011
Choline analogues in malaria chemotherapy. Current pharmaceutical design, 2012, Volume: 18, Issue:24 Topics: Animals; Antimalarials; Choline; Humans; Malaria; Plasmodium malariae	2012
Parasite-regulated membrane transport processes and metabolic control in malaria-infected erythrocytes. The Biochemical journal, 1995, Jun-01, Volume: 308 ( Pt 2) Topics: Adenosine Triphosphatases; Amino Acids; Animals; Chloroquine; Choline; Drug Resistance, Multiple; Er	1995
The design of original antimalarial drugs. An example of phospholipid metabolism. Parassitologia, 1993, Volume: 35 Suppl Topics: Animals; Antimalarials; Carrier Proteins; Choline; Dogs; Drug Design; Haplorhini; Malaria; Membrane	1993
Transport of phospholipid synthesis precursors and lipid trafficking into malaria-infected erythrocytes. Novartis Foundation symposium, 1999, Volume: 226 Topics: Animals; Biological Transport, Active; Choline; Erythrocytes; Humans; Lipid Metabolism; Malaria; Pho	1999
Basic biochemical investigations as rationale for the design of original antimalarial drugs. An example of phospholipid metabolism. Memorias do Instituto Oswaldo Cruz, 1992, Volume: 87 Suppl 3 Topics: Animals; Antimalarials; Carrier Proteins; Cell Line; Cholesterol; Choline; Drug Design; Drug Evaluat	1992

Article

Year

Novel targets for malaria therapy.

Current drug targets, 2011, Volume: 12, Issue:14

Topics: Animals; Antimalarials; Choline; Cyclin-Dependent Kinases; Erythrocytes; Glucose; Humans; Malaria; M

2011

Choline analogues in malaria chemotherapy.

Current pharmaceutical design, 2012, Volume: 18, Issue:24

Topics: Animals; Antimalarials; Choline; Humans; Malaria; Plasmodium malariae

2012

Parasite-regulated membrane transport processes and metabolic control in malaria-infected erythrocytes.

The Biochemical journal, 1995, Jun-01, Volume: 308 ( Pt 2)

Topics: Adenosine Triphosphatases; Amino Acids; Animals; Chloroquine; Choline; Drug Resistance, Multiple; Er

1995

The design of original antimalarial drugs. An example of phospholipid metabolism.

Parassitologia, 1993, Volume: 35 Suppl

Topics: Animals; Antimalarials; Carrier Proteins; Choline; Dogs; Drug Design; Haplorhini; Malaria; Membrane

1993

Transport of phospholipid synthesis precursors and lipid trafficking into malaria-infected erythrocytes.

Novartis Foundation symposium, 1999, Volume: 226

Topics: Animals; Biological Transport, Active; Choline; Erythrocytes; Humans; Lipid Metabolism; Malaria; Pho

1999

Basic biochemical investigations as rationale for the design of original antimalarial drugs. An example of phospholipid metabolism.

Memorias do Instituto Oswaldo Cruz, 1992, Volume: 87 Suppl 3

Topics: Animals; Antimalarials; Carrier Proteins; Cell Line; Cholesterol; Choline; Drug Design; Drug Evaluat

1992

Other Studies

13 other studies available for choline and Malaria

Article	Year
A choline-releasing glycerophosphodiesterase essential for phosphatidylcholine biosynthesis and blood stage development in the malaria parasite. eLife, 2022, 12-28, Volume: 11 Topics: Animals; Choline; Erythrocytes; Glycerylphosphorylcholine; Malaria; Malaria, Falciparum; Parasites;	2022
Parasitology, 2020, Volume: 147, Issue:1 Topics: Animals; Antimalarials; Artemisinins; Choline; Liposomes; Malaria; Mice; Mice, Inbred ICR; Plasmodiu	2020
Functional interrogation of Plasmodium genus metabolism identifies species- and stage-specific differences in nutrient essentiality and drug targeting. PLoS computational biology, 2018, Volume: 14, Issue:1 Topics: Animals; Choline; Culicidae; Disease Models, Animal; Food; Gene Deletion; Gene Expression Regulation	2018
Comparing systemic metabolic responses in mice to single or dual infection with Plasmodium berghei and Heligmosomoides bakeri. Molecular bioSystems, 2014, Jul-29, Volume: 10, Issue:9 Topics: Amino Acids; Animals; Brain; Choline; Citric Acid Cycle; Coinfection; Female; Glycolysis; Intestinal	2014
Blutcholin, acetylcholine and histamine for fever treatment and malaria attack. Wiener medizinische Wochenschrift (1946), 1946, May-01, Volume: 96, Issue:18-19 Topics: Acetylcholine; Blood; Choline; Fever; Histamine; Humans; Malaria	1946
Present development concerning antimalarial activity of phospholipid metabolism inhibitors with special reference to in vivo activity. Memorias do Instituto Oswaldo Cruz, 1994, Volume: 89 Suppl 2 Topics: Animals; Antimalarials; Choline; Drug Resistance; Host-Parasite Interactions; Humans; Lethal Dose 50	1994
Increased choline transport in erythrocytes from mice infected with the malaria parasite Plasmodium vinckei vinckei. The Biochemical journal, 1998, Sep-15, Volume: 334 ( Pt 3) Topics: Animals; Biological Transport, Active; Choline; Erythrocytes; Furosemide; Humans; In Vitro Technique	1998
Effect of cell age on erythrocyte choline transport: implications for the increased choline permeability of malaria-infected erythrocytes. The Biochemical journal, 1992, Apr-15, Volume: 283 ( Pt 2) Topics: Animals; Biological Transport; Cell Membrane Permeability; Choline; Erythrocyte Aging; Erythrocyte M	1992
Increased permeability to choline in simian erythrocytes after Plasmodium knowlesi infection. The Biochemical journal, 1991, Feb-01, Volume: 273 ( Pt 3) Topics: Animals; Biological Transport; Cell Membrane Permeability; Choline; Erythrocytes; Ethanolamine; Etha	1991
Heterogeneous and substrate-specific membrane transport pathways induced in malaria-infected erythrocytes. Blood cells, 1990, Volume: 16, Issue:2-3 Topics: Amino Acids; Animals; Biological Transport, Active; Choline; Diazooxonorleucine; Erythrocyte Membran	1990
Phospholipid metabolism in Plasmodium-infected erythrocytes: guidelines for further studies using radioactive precursor incorporation. Parasitology, 1989, Volume: 98 Pt 3 Topics: Animals; Choline; Erythrocytes; Fatty Acids; Glycerol; Kinetics; Macaca fascicularis; Malaria; Phosp	1989
Quaternary ammonium compounds efficiently inhibit Plasmodium falciparum growth in vitro by impairment of choline transport. Antimicrobial agents and chemotherapy, 1986, Volume: 29, Issue:5 Topics: Animals; Biological Transport, Active; Choline; Choline Kinase; Erythrocytes; In Vitro Techniques; M	1986
Inhibitors of choline transport into Plasmodium-infected erythrocytes are effective antiplasmodial compounds in vitro. Biochemical pharmacology, 1985, Nov-15, Volume: 34, Issue:22 Topics: Animals; Antimalarials; Biological Transport; Choline; Choline Kinase; Erythrocytes; In Vitro Techni	1985

Article

Year

A choline-releasing glycerophosphodiesterase essential for phosphatidylcholine biosynthesis and blood stage development in the malaria parasite.

eLife, 2022, 12-28, Volume: 11

Topics: Animals; Choline; Erythrocytes; Glycerylphosphorylcholine; Malaria; Malaria, Falciparum; Parasites;

2022

Parasitology, 2020, Volume: 147, Issue:1

Topics: Animals; Antimalarials; Artemisinins; Choline; Liposomes; Malaria; Mice; Mice, Inbred ICR; Plasmodiu

2020

Functional interrogation of Plasmodium genus metabolism identifies species- and stage-specific differences in nutrient essentiality and drug targeting.

PLoS computational biology, 2018, Volume: 14, Issue:1

Topics: Animals; Choline; Culicidae; Disease Models, Animal; Food; Gene Deletion; Gene Expression Regulation

2018

Comparing systemic metabolic responses in mice to single or dual infection with Plasmodium berghei and Heligmosomoides bakeri.

Molecular bioSystems, 2014, Jul-29, Volume: 10, Issue:9

Topics: Amino Acids; Animals; Brain; Choline; Citric Acid Cycle; Coinfection; Female; Glycolysis; Intestinal

2014

Blutcholin, acetylcholine and histamine for fever treatment and malaria attack.

Wiener medizinische Wochenschrift (1946), 1946, May-01, Volume: 96, Issue:18-19

Topics: Acetylcholine; Blood; Choline; Fever; Histamine; Humans; Malaria

1946

Present development concerning antimalarial activity of phospholipid metabolism inhibitors with special reference to in vivo activity.

Memorias do Instituto Oswaldo Cruz, 1994, Volume: 89 Suppl 2

Topics: Animals; Antimalarials; Choline; Drug Resistance; Host-Parasite Interactions; Humans; Lethal Dose 50

1994

Increased choline transport in erythrocytes from mice infected with the malaria parasite Plasmodium vinckei vinckei.

The Biochemical journal, 1998, Sep-15, Volume: 334 ( Pt 3)

Topics: Animals; Biological Transport, Active; Choline; Erythrocytes; Furosemide; Humans; In Vitro Technique

1998

Effect of cell age on erythrocyte choline transport: implications for the increased choline permeability of malaria-infected erythrocytes.

The Biochemical journal, 1992, Apr-15, Volume: 283 ( Pt 2)

Topics: Animals; Biological Transport; Cell Membrane Permeability; Choline; Erythrocyte Aging; Erythrocyte M

1992

Increased permeability to choline in simian erythrocytes after Plasmodium knowlesi infection.

The Biochemical journal, 1991, Feb-01, Volume: 273 ( Pt 3)

Topics: Animals; Biological Transport; Cell Membrane Permeability; Choline; Erythrocytes; Ethanolamine; Etha

1991

Heterogeneous and substrate-specific membrane transport pathways induced in malaria-infected erythrocytes.

Blood cells, 1990, Volume: 16, Issue:2-3

Topics: Amino Acids; Animals; Biological Transport, Active; Choline; Diazooxonorleucine; Erythrocyte Membran

1990

Phospholipid metabolism in Plasmodium-infected erythrocytes: guidelines for further studies using radioactive precursor incorporation.

Parasitology, 1989, Volume: 98 Pt 3

Topics: Animals; Choline; Erythrocytes; Fatty Acids; Glycerol; Kinetics; Macaca fascicularis; Malaria; Phosp

1989

Quaternary ammonium compounds efficiently inhibit Plasmodium falciparum growth in vitro by impairment of choline transport.

Antimicrobial agents and chemotherapy, 1986, Volume: 29, Issue:5

Topics: Animals; Biological Transport, Active; Choline; Choline Kinase; Erythrocytes; In Vitro Techniques; M

1986

Inhibitors of choline transport into Plasmodium-infected erythrocytes are effective antiplasmodial compounds in vitro.

Biochemical pharmacology, 1985, Nov-15, Volume: 34, Issue:22

Topics: Animals; Antimalarials; Biological Transport; Choline; Choline Kinase; Erythrocytes; In Vitro Techni

1985