The Core Human MicroRNAs Regulated by Toxoplasma gondii.

Neelam Antil, Mohammad Arefian, Mrudula Kinarulla Kandiyil, Kriti Awasthi, Thottethodi Subrahmanya Keshava Prasad, Rajesh Raju
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引用次数: 5

Abstract

Background: Toxoplasma gondii (T. gondii) is an intracellular zoonotic protozoan parasite known to effectively modulate the host system for its survival. A large number of microRNAs (miRNAs) regulated by different strains of T. gondii in diverse types of host cells/tissues/organs have been reported across multiple studies.

Objective: We aimed to decipher the complexity of T. gondii regulated spectrum of miRNAs to derive a set of core miRNAs central to different strains of T. gondii infection in diverse human cell lines.

Methods: We first assembled miRNAs hat are regulated by T. gondii altered across the various assortment of infections and time points of T. gondii infection in multiple cell types. For these assembled datasets, we employed specific criteria to filter the core miRNAs regulated by T. gondii. Subsequently, accounting for the spectrum of miRNA-mRNA target combinations, we applied a novel confidence criterion to extract their core experimentally-validated mRNA targets in human cell systems.

Results: This analysis resulted in the extraction of 74 core differentially regulated miRNAs and their 319 high-confidence mRNA targets. Based on these core miRNA-mRNA pairs, we derived the central biological processes perturbed by T. gondii in diverse human cell systems. Further, our analysis also resulted in the identification of novel autocrine/paracrine signalling factors that could be associated with host response modulated by T. gondii.

Conclusion: The current analysis derived a set of core miRNAs, their targets, and associated biological processes fine-tuned by T. gondii for its survival within the invaded cells.

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刚地弓形虫调控的核心人类microrna。
背景:刚地弓形虫(T. gondii)是一种细胞内人畜共患原生动物寄生虫,已知可有效调节宿主系统以维持其生存。多项研究报道了不同弓形虫菌株在不同类型的宿主细胞/组织/器官中调控的大量microRNAs (miRNAs)。目的:我们旨在破译弓形虫调节的miRNAs谱的复杂性,以获得一组核心miRNAs,这些miRNAs在不同的人类细胞系中对不同的弓形虫感染菌株至关重要。方法:我们首先组装了受弓形虫调控的miRNAs,这些miRNAs在多种细胞类型的弓形虫感染的不同分类和时间点上发生了改变。对于这些组装的数据集,我们采用特定的标准来筛选弓形虫调节的核心mirna。随后,考虑到miRNA-mRNA靶标组合的光谱,我们应用了一种新的置信度标准来提取它们在人类细胞系统中经过实验验证的核心mRNA靶标。结果:该分析结果提取了74个核心差异调节mirna及其319个高置信度mRNA靶点。基于这些核心miRNA-mRNA对,我们推导了弓形虫在不同人类细胞系统中扰动的中心生物学过程。此外,我们的分析还发现了新的自分泌/旁分泌信号因子,这些因子可能与弓形虫调节的宿主反应有关。结论:目前的分析得出了一组核心mirna、它们的靶点和相关的生物学过程,这些过程被弓形虫微调,以使其在入侵细胞内存活。
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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