弓形虫线粒体中类固醇生成CYP450酶的功能和调节。

IF 6.7 1区 医学 Q1 Immunology and Microbiology
PLoS Pathogens Pub Date : 2023-08-31 eCollection Date: 2023-08-01 DOI:10.1371/journal.ppat.1011566
Beejan Asady, Vera Sampels, Julia D Romano, Jelena Levitskaya, Bao Lige, Pratik Khare, Anne Le, Isabelle Coppens
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引用次数: 0

摘要

弓形虫作为一种专性细胞内寄生虫,必须将宿主细胞的必需营养物质输入寄生液泡。我们之前报道过,这种寄生虫从宿主的内吞细胞器中清除胆固醇,将其结合到膜中,并以胆固醇酯的形式储存在脂滴中。在这项研究中,我们调查了弓形虫是否利用胆固醇作为合成代谢产物(如类固醇)的前体。在哺乳动物细胞中,类固醇生成发生在线粒体中,涉及膜结合的I型细胞色素P450氧化酶,这些酶通过与含有细胞色素b5结构域的血红素结合蛋白(如膜相关黄体酮受体(MAPR)家族成员)的相互作用而被激活。我们的LC-MS靶向脂质组学检测弓形虫中的激素类固醇的选择性类别,以抗炎羟基孕烯醇酮、脱氧皮质酮和脱氢表雄酮为主。弓形虫的基因组包含编码单个I型CYP450酶(我们称之为TgCYP450mt)和单个MAPR(我们称为TgMAPR)的同源物。我们发现TgMAPR是一种在血红素结合细胞色素b5结构域中具有保守残基的血蛋白。TgCYP450和TgMAPR都定位在线粒体上,并在原位邻近连接测定中显示出相互作用。弓形虫不耐受cyp450mt基因消融;因此,我们设计了一种条件敲除菌株,并表明iΔTgCYP450mt寄生虫在培养细胞中表现出生长障碍。可以产生缺乏mapr的寄生虫菌株;然而,ΔTgMAPR寄生虫的整体适应度较差,质膜完整性丧失,线粒体嵴异常,细胞周期中S期异常长。与野生型寄生虫相比,iΔTgCYP450mt和ΔTgMAPR在小鼠中失去了毒力,代谢组学研究表明,这两种突变体的类固醇水平都降低了。这些观察结果表明,原生动物线粒体中存在一种类固醇生成途径,该途径涉及进化保守的TgCYP450mt酶及其结合伴侣TgMAPR。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Function and regulation of a steroidogenic CYP450 enzyme in the mitochondrion of Toxoplasma gondii.

As an obligate intracellular parasite, Toxoplasma gondii must import essential nutrients from the host cell into the parasitophorous vacuole. We previously reported that the parasite scavenges cholesterol from host endocytic organelles for incorporation into membranes and storage as cholesteryl esters in lipid droplets. In this study, we have investigated whether Toxoplasma utilizes cholesterol as a precursor for the synthesis of metabolites, such as steroids. In mammalian cells, steroidogenesis occurs in mitochondria and involves membrane-bound type I cytochrome P450 oxidases that are activated through interaction with heme-binding proteins containing a cytochrome b5 domain, such as members of the membrane-associated progesterone receptor (MAPR) family. Our LC-MS targeted lipidomics detect selective classes of hormone steroids in Toxoplasma, with a predominance for anti-inflammatory hydroxypregnenolone species, deoxycorticosterone and dehydroepiandrosterone. The genome of Toxoplasma contains homologs encoding a single type I CYP450 enzyme (we named TgCYP450mt) and a single MAPR (we named TgMAPR). We showed that TgMAPR is a hemoprotein with conserved residues in a heme-binding cytochrome b5 domain. Both TgCYP450 and TgMAPR localize to the mitochondrion and show interactions in in situ proximity ligation assays. Genetic ablation of cyp450mt is not tolerated by Toxoplasma; we therefore engineered a conditional knockout strain and showed that iΔTgCYP450mt parasites exhibit growth impairment in cultured cells. Parasite strains deficient for mapr could be generated; however, ΔTgMAPR parasites suffer from poor global fitness, loss of plasma membrane integrity, aberrant mitochondrial cristae, and an abnormally long S-phase in their cell cycle. Compared to wild-type parasites, iΔTgCYP450mt and ΔTgMAPR lost virulence in mice and metabolomics studies reveal that both mutants have reduced levels of steroids. These observations point to a steroidogenic pathway operational in the mitochondrion of a protozoan that involves an evolutionary conserved TgCYP450mt enzyme and its binding partner TgMAPR.

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来源期刊
PLoS Pathogens
PLoS Pathogens 生物-病毒学
CiteScore
11.40
自引率
3.00%
发文量
598
审稿时长
2 months
期刊介绍: Bacteria, fungi, parasites, prions and viruses cause a plethora of diseases that have important medical, agricultural, and economic consequences. Moreover, the study of microbes continues to provide novel insights into such fundamental processes as the molecular basis of cellular and organismal function.
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