生物
抗寄生虫的
抗药性
利什曼原虫
药物发现
细胞生物学
计算生物学
生物信息学
寄生虫寄主
微生物学
医学
病理
计算机科学
万维网
作者
Yash Gupta,Steven Goicoechea,Catherine M. Pearce,Raman Mathur,Jesús G. Romero,Samuel K. Kwofie,Matthew C. Weyenberg,Bharathi Daravath,Neha Sharma,Poonam Poonam,Hoseah M. Akala,Stefan M. Kanzok,Ravi Durvasula,Brijesh Rathi,Prakasha Kempaiah
摘要
Calcium channels (CCs), a group of ubiquitously expressed membrane proteins, are involved in many pathophysiological processes of protozoan parasites. Our understanding of CCs in cell signaling, organelle function, cellular homeostasis, and cell cycle control has led to improved insights into their structure and functions. In this article, we discuss CCs characteristics of five major protozoan parasites Plasmodium, Leishmania, Toxoplasma, Trypanosoma, and Cryptosporidium. We provide a comprehensive review of current antiparasitic drugs and the potential of using CCs as new therapeutic targets. Interestingly, previous studies have demonstrated that human CC modulators can kill or sensitize parasites to antiparasitic drugs. Still, none of the parasite CCs, pumps, or transporters has been validated as drug targets. Information for this review draws from extensive data mining of genome sequences, chemical library screenings, and drug design studies. Parasitic resistance to currently approved therapeutics is a serious and emerging threat to both disease control and management efforts. In this article, we suggest that the disruption of calcium homeostasis may be an effective approach to develop new anti-parasite drug candidates and reduce parasite resistance.
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