Ndao Momar, Nath-Chowdhury Milli, Sajid Mohammed, Marcus Victoria, Mashiyama Susan T, Sakanari Judy, Chow Eric, Mackey Zachary, Land Kirkwood M, Jacobson Matthew P, Kalyanaraman Chakrapani, McKerrow James H, Arrowood Michael J, Caffrey Conor R
National Reference Centre for Parasitology, Research Institute of the McGill University Health Center, Montreal, Canada.
Antimicrob Agents Chemother. 2013 Dec;57(12):6063-73. doi: 10.1128/AAC.00734-13. Epub 2013 Sep 23.
Cryptosporidiosis, caused by the protozoan parasite Cryptosporidium parvum, can stunt infant growth and can be lethal in immunocompromised individuals. The most widely used drugs for treating cryptosporidiosis are nitazoxanide and paromomycin, although both exhibit limited efficacy. To investigate an alternative approach to therapy, we demonstrate that the clan CA cysteine protease inhibitor N-methyl piperazine-Phe-homoPhe-vinylsulfone phenyl (K11777) inhibits C. parvum growth in mammalian cell lines in a concentration-dependent manner. Further, using the C57BL/6 gamma interferon receptor knockout (IFN-γR-KO) mouse model, which is highly susceptible to C. parvum, oral or intraperitoneal treatment with K11777 for 10 days rescued mice from otherwise lethal infections. Histologic examination of untreated mice showed intestinal inflammation, villous blunting, and abundant intracellular parasite stages. In contrast, K11777-treated mice (210 mg/kg of body weight/day) showed only minimal inflammation and no epithelial changes. Three putative protease targets (termed cryptopains 1 to 3, or CpaCATL-1, -2, and -3) were identified in the C. parvum genome, but only two are transcribed in infected mammals. A homology model predicted that K11777 would bind to cryptopain 1. Recombinant enzymatically active cryptopain 1 was successfully targeted by K11777 in a competition assay with a labeled active-site-directed probe. K11777 exhibited no toxicity in vitro and in vivo, and surviving animals remained free of parasites 3 weeks after treatment. The discovery that a cysteine protease inhibitor provides potent anticryptosporidial activity in an animal model of infection encourages the investigation and development of this biocide class as a new, and urgently needed, chemotherapy for cryptosporidiosis.
由原生动物寄生虫微小隐孢子虫引起的隐孢子虫病,会阻碍婴儿生长,对免疫功能低下的个体可能是致命的。治疗隐孢子虫病最广泛使用的药物是硝唑尼特和巴龙霉素,不过二者的疗效都有限。为了研究一种替代治疗方法,我们证明了半胱氨酸蛋白酶家族CA抑制剂N-甲基哌嗪-苯丙氨酸-高苯丙氨酸-乙烯砜苯基(K11777)以浓度依赖的方式抑制微小隐孢子虫在哺乳动物细胞系中的生长。此外,利用对微小隐孢子虫高度易感的C57BL/6γ干扰素受体敲除(IFN-γR-KO)小鼠模型,用K11777口服或腹腔注射治疗10天,可使小鼠免于原本致命的感染。未经治疗的小鼠的组织学检查显示肠道炎症、绒毛变钝以及大量细胞内寄生虫阶段。相比之下,用K11777治疗的小鼠(210毫克/千克体重/天)仅表现出轻微炎症,且无上皮变化。在微小隐孢子虫基因组中鉴定出三个假定的蛋白酶靶点(称为隐孢子虫蛋白酶1至3,或CpaCATL-1、-2和-3),但在受感染的哺乳动物中只有两个被转录。同源模型预测K11777会与隐孢子虫蛋白酶1结合。在与标记的活性位点导向探针的竞争试验中,重组的具有酶活性的隐孢子虫蛋白酶1被K11777成功靶向。K11777在体外和体内均无毒性,存活的动物在治疗后3周仍未感染寄生虫。在感染动物模型中发现一种半胱氨酸蛋白酶抑制剂具有强大的抗隐孢子虫活性,这鼓励了对这类杀生物剂作为一种新的、急需的隐孢子虫病化疗药物进行研究和开发。
