Huang Robert, Que Xuchu, Hirata Ken, Brinen Linda S, Lee Ji Hyun, Hansell Elizabeth, Engel Juan, Sajid Mohammed, Reed Sharon
Department of Medicine, University of California, San Diego, CA 92103, United States.
Mol Biochem Parasitol. 2009 Mar;164(1):86-94. doi: 10.1016/j.molbiopara.2008.11.012. Epub 2008 Dec 6.
Toxoplasma gondii is an obligate intracellular parasite of all vertebrates, including man. Successful invasion and replication requires the synchronized release of parasite proteins, many of which require proteolytic processing. Unlike most parasites, T. gondii has a limited number of Clan CA, family C1 cysteine proteinases with one cathepsin B (TgCPB), one cathepsin L (TgCPL) and three cathepsin Cs (TgCPC1, 2, 3). Previously, we characterized toxopain, the only cathepsin B enzyme, which localizes to the rhoptry organelle. Two cathepsin Cs are trafficked through dense granules to the parasitophorous vacuole where they degrade peptides. We now report the cloning, expression, and modeling of the sole cathepsin L gene and the identification of two new endogenous inhibitors. TgCPL differs from human cathepsin L with a pH optimum of 6.5 and its substrate preference for leucine (vs. phenylalanine) in the P2 position. This distinct preference is explained by homology modeling, which reveals a non-canonical aspartic acid (Asp 216) at the base of the predicted active site S2 pocket, which limits substrate access. To further our understanding of the regulation of cathepsins in T. gondii, we identified two genes encoding endogenous cysteine proteinase inhibitors (ICPs or toxostatins), which are active against both TgCPB and TgCPL in the nanomolar range. Over expression of toxostatin-1 significantly decreased overall cysteine proteinase activity in parasite lysates, but had no detectable effect on invasion or intracellular multiplication. These findings provide important insights into the proteolytic cascades of T. gondii and their endogenous control.
刚地弓形虫是包括人类在内的所有脊椎动物的专性细胞内寄生虫。成功入侵和复制需要同步释放寄生虫蛋白,其中许多蛋白需要蛋白水解加工。与大多数寄生虫不同,刚地弓形虫的半胱氨酸蛋白酶家族CA、C1家族数量有限,有一个组织蛋白酶B(TgCPB)、一个组织蛋白酶L(TgCPL)和三个组织蛋白酶C(TgCPC1、2、3)。此前,我们对唯一的组织蛋白酶B酶——弓形虫蛋白酶进行了表征,它定位于棒状体细胞器。两种组织蛋白酶C通过致密颗粒运输到寄生泡,在那里它们降解肽段。我们现在报告唯一的组织蛋白酶L基因的克隆、表达和建模以及两种新的内源性抑制剂的鉴定。TgCPL与人类组织蛋白酶L不同,其最适pH值为6.5,在P2位置对亮氨酸(相对于苯丙氨酸)有底物偏好。这种明显的偏好通过同源建模得到解释,该模型揭示了预测的活性位点S2口袋底部的一个非典型天冬氨酸(Asp 216),这限制了底物的进入。为了进一步了解刚地弓形虫中组织蛋白酶的调控,我们鉴定了两个编码内源性半胱氨酸蛋白酶抑制剂(ICPs或弓形虫抑素)的基因,它们在纳摩尔范围内对TgCPB和TgCPL均有活性。弓形虫抑素-1的过表达显著降低了寄生虫裂解物中的总半胱氨酸蛋白酶活性,但对入侵或细胞内增殖没有可检测到的影响。这些发现为刚地弓形虫的蛋白水解级联反应及其内源性控制提供了重要见解。