用于设计血吸虫病新型候选疫苗和小分子疗法的计算工作流程

Computational Workflow to Design Novel Vaccine Candidates and Small-Molecule Therapeutics for Schistosomiasis.

作者信息

Balogun Emmanuel Oluwadare, Joseph Gideon Ibrahim, Olabode Samuel Charles, Dayaso Naziru Abdulkadir, Danazumi Ammar Usman, Bashford-Rogers Rachael, Mckerrow James H, Jeelani Ghulam, Caffrey Conor R

机构信息

Department of Biochemistry, Ahmadu Bello University, Zaria 810001, Kaduna, Nigeria.

Africa Center of Excellence for Neglected Tropical Diseases and Forensic Biotechnology (ACENTDFB), Ahmadu Bello University, Zaria 810001, Kaduna, Nigeria.

出版信息

Pathogens. 2024 Sep 30;13(10):850. doi: 10.3390/pathogens13100850.

DOI:10.3390/pathogens13100850

PMID:39452722

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11509903/

Abstract

Human schistosomiasis, caused by the trematode, is a neglected parasitic disease affecting over 250 million people worldwide. There is no vaccine, and the single available drug is threatened by drug resistance. This study presents a computational approach to designing multiepitope vaccines (MEVs) targeting the cercarial (CMEV) and schistosomular (SMEV) stages of schistosomes, and identifies potential schistosomicidal compounds from the Medicine for Malaria Ventures (MMV) and SuperNatural Database (SND) libraries. The designed vaccines (CMEV and SMEV) are engineered to provoke robust immune responses by incorporating a blend of T- and B-cell epitopes. Structural and immunoinformatics evaluations predicted robust interactions of CMEV and SMEV with key immune receptors and prolonged immune responses. In addition, molecular docking identified several compounds from the MMV and SND libraries with strong binding affinities to vital cathepsin proteases, indicating their potential as schistosomicidal agents. Our findings contribute to the potential development of effective vaccines and drugs against schistosomiasis.

摘要

由吸虫引起的人类血吸虫病是一种被忽视的寄生虫病，全球有超过2.5亿人受其影响。目前尚无疫苗，且唯一可用药物正受到耐药性的威胁。本研究提出了一种计算方法，用于设计针对血吸虫尾蚴阶段（CMEV）和血吸虫幼虫阶段（SMEV）的多表位疫苗（MEV），并从疟疾药物事业（MMV）和超自然数据库（SND）库中鉴定出潜在的杀血吸虫化合物。所设计的疫苗（CMEV和SMEV）通过整合T细胞和B细胞表位的混合物来激发强大的免疫反应。结构和免疫信息学评估预测CMEV和SMEV与关键免疫受体之间有强大的相互作用以及持久的免疫反应。此外，分子对接从MMV和SND库中鉴定出几种与重要组织蛋白酶具有强结合亲和力的化合物，表明它们具有作为杀血吸虫剂的潜力。我们的研究结果有助于抗血吸虫病有效疫苗和药物的潜在开发。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b00/11509903/8df29dbbe499/pathogens-13-00850-g001.jpg

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用于设计血吸虫病新型候选疫苗和小分子疗法的计算工作流程

Computational Workflow to Design Novel Vaccine Candidates and Small-Molecule Therapeutics for Schistosomiasis.

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