Martínez-García Marta, Campos-Salinas Jenny, Cabello-Donayre María, Pineda-Molina Estela, Gálvez Francisco J, Orrego Lina M, Sánchez-Cañete María P, Malagarie-Cazenave Sophie, Koeller David M, Pérez-Victoria José M
Instituto de Parasitología y Biomedicina "López-Neyra" (IPBLN), CSIC, PTS Granada, Granada, Spain.
Department of Molecular & Medical Genetics, Oregon Health & Science University, Portland, OR, USA.
Parasit Vectors. 2016 Jan 5;9:7. doi: 10.1186/s13071-015-1284-5.
Mitochondria play essential biological functions including the synthesis and trafficking of porphyrins and iron/sulfur clusters (ISC), processes that in mammals involve the mitochondrial ATP-Binding Cassette (ABC) transporters ABCB6 and ABCB7, respectively. The mitochondrion of pathogenic protozoan parasites such as Leishmania is a promising goal for new therapeutic approaches. Leishmania infects human macrophages producing the neglected tropical disease known as leishmaniasis. Like most trypanosomatid parasites, Leishmania is auxotrophous for heme and must acquire porphyrins from the host.
LmABCB3, a new Leishmania major protein with significant sequence similarity to human ABCB6/ABCB7, was identified and characterized using bioinformatic tools. Fluorescent microscopy was used to determine its cellular localization, and its level of expression was modulated by molecular genetic techniques. Intracellular in vitro assays were used to demonstrate its role in amastigotes replication, and an in vivo mouse model was used to analyze its role in virulence. Functional characterization of LmABCB3 was carried out in Leishmania promastigotes and Saccharomyces cerevisiae. Structural analysis of LmABCB3 was performed using molecular modeling software.
LmABCB3 is an atypical ABC half-transporter that has a unique N-terminal extension not found in any other known ABC protein. This extension is required to target LmABCB3 to the mitochondrion and includes a potential metal-binding domain. We have shown that LmABCB3 interacts with porphyrins and is required for the mitochondrial synthesis of heme from a host precursor. We also present data supporting a role for LmABCB3 in the biogenesis of cytosolic ISC, essential cofactors for cell viability in all three kingdoms of life. LmABCB3 fully complemented the severe growth defect shown in yeast lacking ATM1, an orthologue of human ABCB7 involved in exporting from the mitochondria a gluthatione-containing compound required for the generation of cytosolic ISC. Indeed, docking analyzes performed with a LmABCB3 structural model using trypanothione, the main thiol in this parasite, as a ligand showed how both, LmABCB3 and yeast ATM1, contain a similar thiol-binding pocket. Additionally, we show solid evidence suggesting that LmABCB3 is an essential gene as dominant negative inhibition of LmABCB3 is lethal for the parasite. Moreover, the abrogation of only one allele of the gene did not impede promastigote growth in axenic culture but prevented the replication of intracellular amastigotes and the virulence of the parasites in a mouse model of cutaneous leishmaniasis.
Altogether our results present the previously undescribed LmABCB3 as an unusual mitochondrial ABC transporter essential for Leishmania survival through its role in the generation of heme and cytosolic ISC. Hence, LmABCB3 could represent a novel target to combat leishmaniasis.
线粒体发挥着重要的生物学功能,包括卟啉和铁硫簇(ISC)的合成与运输,在哺乳动物中,这些过程分别涉及线粒体ATP结合盒(ABC)转运蛋白ABCB6和ABCB7。致病性原生动物寄生虫(如利什曼原虫)的线粒体是新治疗方法的一个有前景的目标。利什曼原虫感染人类巨噬细胞,引发被称为利什曼病的被忽视热带病。与大多数锥虫寄生虫一样,利什曼原虫是血红素营养缺陷型,必须从宿主获取卟啉。
利用生物信息学工具鉴定并表征了LmABCB3,这是一种与人类ABCB6/ABCB7具有显著序列相似性的新型利什曼原虫主要蛋白。使用荧光显微镜确定其细胞定位,并通过分子遗传学技术调节其表达水平。采用细胞内体外试验证明其在无鞭毛体复制中的作用,并使用体内小鼠模型分析其在毒力中的作用。在利什曼原虫前鞭毛体和酿酒酵母中对LmABCB3进行功能表征。使用分子建模软件对LmABCB3进行结构分析。
LmABCB3是一种非典型ABC半转运蛋白,具有在任何其他已知ABC蛋白中未发现的独特N端延伸。该延伸是将LmABCB3靶向线粒体所必需的,并且包括一个潜在的金属结合域。我们已经表明,LmABCB3与卟啉相互作用,并且是从宿主前体线粒体合成血红素所必需的。我们还提供了数据支持LmABCB3在胞质ISC生物合成中的作用,ISC是所有三个生命王国中细胞活力所必需的辅因子。LmABCB3完全弥补了缺乏ATM1的酵母中显示的严重生长缺陷,ATM1是人类ABCB7的直系同源物,参与从线粒体输出胞质ISC生成所需的含谷胱甘肽化合物。事实上,使用锥虫硫醇(该寄生虫中的主要硫醇)作为配体对LmABCB3结构模型进行的对接分析表明,LmABCB3和酵母ATM1都含有相似的硫醇结合口袋。此外,我们提供了确凿的证据表明LmABCB3是一个必需基因,因为对LmABCB3的显性负抑制对寄生虫是致命的。此外,仅缺失该基因的一个等位基因并不妨碍前鞭毛体在无细胞培养中的生长,但阻止了细胞内无鞭毛体的复制以及寄生虫在皮肤利什曼病小鼠模型中的毒力。
总之,我们的结果表明,以前未描述的LmABCB3是一种不寻常的线粒体ABC转运蛋白,通过其在血红素和胞质ISC生成中的作用对利什曼原虫的存活至关重要。因此,LmABCB3可能代表对抗利什曼病的新靶点。
