恶性疟原虫M1家族氨肽酶S1亚位点中的两个帽状残基促进了广泛的特异性并增强了催化作用。

Two cap residues in the S1 subsite of a Plasmodium falciparum M1-family aminopeptidase promote broad specificity and enhance catalysis.

作者信息

Rosati Matthew, Dalal Seema, Klemba Michael

机构信息

Department of Biochemistry, Virginia Tech, Blacksburg, VA 24061, USA.

出版信息

Mol Biochem Parasitol. 2017 Oct;217:7-12. doi: 10.1016/j.molbiopara.2017.08.001. Epub 2017 Aug 12.

DOI:10.1016/j.molbiopara.2017.08.001

PMID:28811124

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5633526/

Abstract

The aminopeptidase PfA-M1 is a key contributor to peptide catabolism in the human malaria parasite Plasmodium falciparum. PfA-M1 substrate specificity is shaped by the cylindrical S1 subsite, which accommodates the sidechain of the substrate P1 residue. At the top of the S1 subsite are two "cap" residues, E572 and M1034, that are positioned to influence S1 subsite specificity. In this study, we have mutated the cap residues, individually and together, and have evaluated the effects on PfA-M1 specificity and catalytic efficiency. When the P1 residue was too small to engage the cap residues, the mutations had no effect on catalysis. Hydrolysis of dipeptide substrates with a basic P1 residue was significantly impaired in the E572A mutant, most likely due to the loss of a stabilizing salt bridge between E572 and the P1 sidechain. With M1034A, a substantial reduction in catalytic efficiency was observed when the P1 sidechain was large and non-polar. The double E572A/M1034A exhibited significant decreases in catalytic efficiency for most substrates. This effect was not reversed with the polar substitutions E572N/M1034Q, which replaced the PfA-M1 cap residues with those of Escherichia coli aminopeptidase N. Both E572 and M1034 contributed to the binding of the competitive aminopeptidase inhibitor bestatin.

摘要

氨肽酶PfA-M1是人类疟原虫恶性疟原虫肽分解代谢的关键贡献者。PfA-M1的底物特异性由圆柱形的S1亚位点决定，该亚位点容纳底物P1残基的侧链。在S1亚位点的顶部有两个“帽”残基，E572和M1034，它们的位置会影响S1亚位点的特异性。在本研究中，我们分别或共同对这些帽残基进行了突变，并评估了其对PfA-M1特异性和催化效率的影响。当P1残基太小而无法与帽残基结合时，突变对催化作用没有影响。E572A突变体中，带有碱性P1残基的二肽底物的水解受到显著损害，这很可能是由于E572与P1侧链之间稳定盐桥的丧失。对于M1034A，当P1侧链大且非极性时，观察到催化效率大幅降低。双突变体E572A/M1034A对大多数底物的催化效率都显著降低。用极性替代物E572N/M1034Q（用大肠杆菌氨肽酶N的残基替代PfA-M1的帽残基）并没有逆转这种效应。E572和M1034都有助于竞争性氨肽酶抑制剂贝他汀的结合。

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