Physiologically in the brain, cytokines such as tumor necrosis factor-alpha (TNalpha) are released by the immune system and can modulate neurological responses. Conversely, the central nervous system (CNS) is also able to modulate cytokine production. In the case of CNS disorders, cytokine release may be modified. Cerebral malaria (CM) is a complication of Plasmodium falciparum infection in humans and is characterized by a reversible encephalopathy with seizures and loss of consciousness. Central clinical signs are partly due to sequestration of parasitized red blood cells in the brain microvasculature due to interactions between parasite proteins and adhesion molecules. TNFalpha is produced and released by host cells following exposure to various malarial antigens. The increase of TNFalpha release is responsible for the overexpression of adhesion molecules. This article reviews the involvement of TNFalpha in cerebral malaria and the relation with all the processes involved in this pathology. It shows that (i). TNFalpha levels are increased in plasma and brain but with no clear correlation between TNFalpha levels and occurrence and severity of CM; (ii). TNFalpha is responsible for intercellular adhesion molecule-1 upregulation in CM, the relation being less clear for other adhesion molecules; (iii). TNFalpha receptors are upregulated in CM, with TNF receptor 2 (TNFR2) showing a higher upregulation than TNFR1 in vivo; (iv). in murine CM, low doses of TNFalpha seem to protect from CM, whereas excess TNFalpha induces CM and anti-TNFalpha therapies (antibodies, pentoxifylline) did not show any efficiency in protection from CM. Moreover, the involvement of lymphotoxin a, which shares with TNFalpha the same receptors with similar affinity, appears to be an interesting target for further investigation.
1 Mefloquine is a chiral neurotoxic antimalarial agent showing stereoselective brain uptake in humans and rats. It is a substrate and an inhibitor of the efflux protein P-glycoprotein. 2 We investigated the stereoselective uptake and efflux of mefloquine in mice, and the consequences of the combination with an efflux protein inhibitor, elacridar (GF120918) on its brain transport. 3 Racemic mefloquine (25 mg kg À1 ) was administered intraperitoneally with or without elacridar (10 mg kg À1 ). Six to seven mice were killed at each of 11 time-points between 30 min and 168 h after administration. Blood and brain concentrations of mefloquine enantiomers were determined using liquid chromatography. 4 A three-compartment model with zero-order absorption from the injection site was found to best represent the pharmacokinetics of both enantiomers in blood and brain. (À)Mefloquine had a lower blood and brain apparent volume of distribution and a lower efflux clearance from the brain, resulting in a larger brain/blood ratio compared to ( þ )mefloquine. Elacridar did not modify blood concentrations or the elimination rate from blood for either enantiomers. However, cerebral AUC inf of both enantiomers were increased, with a stronger effect on ( þ )mefloquine. The efflux clearance from the brain decreased for both enantiomers, with a larger decrease for ( þ )mefloquine. 5 After administration of racemic mefloquine in mice, blood and brain pharmacokinetics are stereoselective, ( þ )mefloquine being excreted from brain more rapidly than its antipode, showing that mefloquine is a substrate of efflux proteins and that mefloquine enantiomers undergo efflux in a stereoselective manner. Moreover, pretreatment with elacridar reduced the brain efflux clearances with a more pronounced effect on ( þ )mefloquine.
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