Heat shock protein (Hsp27)-ceramide synthase (Cers1) protein-protein interactions provide a new avenue for unexplored anti-cancer mechanism and therapy.

IF 2.6 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Musab Ali, Zhichao Zhang, Mahmoud A A Ibrahim, Mahmoud E S Soliman
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引用次数: 0

Abstract

Hsp27 is a member of the small heat-shock proteins (sHSPs) - the known cellular line of defence against abnormal protein folding behaviors. Nevertheless, its upregulation is linked to a variety of pathological disorders, including several types of cancers. The ceramide synthases (CerS) mediate the synthesis of ceramide, a critical structural and signaling lipid. Functionally, downstream ceramide metabolites are implicated in the apoptosis process and their abnormal functionality has been linked to anticancer resistance. Studies showed that CerS1 are possibly inhibited by Hsp27 leading to biochemical anticancer effects in vitro. Nevertheless, the nature of such protein-protein interaction (PPI) has not been considerably investigated in molecular terms, hence, we present the first description of the dynamics CerS1-Hsp27 interaction landscapes using molecular dynamics simulations. Time-scale molecular dynamics simulation analysis indicated a system-wide conformational events of decreased stability, increased flexibility, reduced compactness, and decreased folding of CerS1. Analysis of binding energy showed a favorable interaction entailing 56 residues at the interface and a total stabilizing energy of -158 KJ/mol. The CerS1 catalytic domain experienced an opposite trend compared to the protein backbone. Yet, these residues adopted a highly compact conformation as per DCCM and DSSP analysis. Furthermore, conserved residues (SER 212, ASP 213, ALA 240, GLY 243, ASP 319) comprising the substrate shuttling machinery showed notable rigidity implying a restrained ceramide precursor access and assembly; hence, a possible inhibitory mechanism. Findings from this report would streamline a better molecular understanding of CerS1-Hsp27 interactions and decipher its potential avenue toward unexplored anti-cancer mechanisms and therapy.

热休克蛋白(Hsp27)-甘油酰胺合成酶(Cers1)蛋白之间的相互作用为尚未探索的抗癌机制和疗法提供了一条新途径。
Hsp27 是小热休克蛋白(sHSPs)的一种,是已知的防止蛋白质折叠行为异常的细胞防线。然而,它的上调与包括几种癌症在内的多种病理紊乱有关。神经酰胺合成酶(CerS)介导神经酰胺的合成,神经酰胺是一种重要的结构脂质和信号脂质。从功能上讲,下游神经酰胺代谢产物与细胞凋亡过程有关,其功能异常与抗癌耐药性有关。研究表明,CerS1 可能会受到 Hsp27 的抑制,从而导致体外生化抗癌效应。因此,我们首次利用分子动力学模拟描述了 CerS1-Hsp27 的相互作用动态景观。时间尺度的分子动力学模拟分析表明,整个系统的构象事件包括 CerS1 的稳定性降低、灵活性增加、紧凑性降低和折叠性降低。结合能分析表明,界面上的 56 个残基产生了有利的相互作用,总稳定能为 -158 KJ/mol。与蛋白质骨架相比,CerS1 催化结构域出现了相反的趋势。然而,根据 DCCM 和 DSSP 分析,这些残基采用了高度紧凑的构象。此外,组成底物穿梭机制的保守残基(SER 212、ASP 213、ALA 240、GLY 243、ASP 319)显示出明显的刚性,这意味着神经酰胺前体的获取和组装受到限制;因此,这可能是一种抑制机制。本报告的研究结果将有助于更好地从分子角度理解 CerS1-Hsp27 的相互作用,并破译其潜在的抗癌机制和疗法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Receptors and Signal Transduction
Journal of Receptors and Signal Transduction 生物-生化与分子生物学
CiteScore
6.60
自引率
0.00%
发文量
19
审稿时长
>12 weeks
期刊介绍: Journal of Receptors and Signal Tranduction is included in the following abstracting and indexing services: BIOBASE; Biochemistry and Biophysics Citation Index; Biological Abstracts; BIOSIS Full Coverage Shared; BIOSIS Previews; Biotechnology Abstracts; Current Contents/Life Sciences; Derwent Chimera; Derwent Drug File; EMBASE; EMBIOLOGY; Journal Citation Reports/ Science Edition; PubMed/MedLine; Science Citation Index; SciSearch; SCOPUS; SIIC.
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