The electrophysiological study of red blood cells (RBCs), using the patch-clamp technique, has been going through a renaissance with the recent discovery of novel channel activity in the host plasma membrane of Plasmodium falciparum-infected human RBCs (S.A. Desai et al., Nature 406, 1001-1005, 2000; S.M. Huber et al., EMBO J. 21 (2002) 22-30; S. Egee et al., J. Physiol. 542 (2002) 795-801). This arose from the finding that malaria-infected RBCs have altered permeability characteristics due to the induction of new permeation pathways (NPPs) (H. Ginsburg, Novartis Foundation Symposium 226 (1999) 99-108; K. Kirk, Physiol. Rev. 81 (2001) 495-537), which are defined, using non-electrophysiological techniques, as having the general characteristics of anion channels (i.e. high anion permeability, linear concentration dependence, inability to distinguish between stereo-isomers of permeant solutes). Discovering potent and specific inhibitors of the NPPs is an important therapeutic challenge, but too many questions remain unanswered: do the NPPs correspond to a single path or multiple pathways? Are they parasite-derived proteins? Are they up-regulated or modified endogenous quiescent red blood cell proteins? This article concerns the identification of different types of anionic channels that are expressed in malaria-infected human RBCs. Implications regarding the presence of these different types of channels in infected RBCs and their functional significance are discussed.
Three types of spontaneously active anionic channels in malaria-infected human red blood cells
말라리아에 감염된 인간 적혈구에서 자발적으로 활성화되는 세 가지 유형의 음이온 채널
[Category] 말라리아,
[Article Type] journal-article
[Source] pubmed
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