Guangdong Provincial Key Laboratory of Tropical Disease Research, Department of Pathogen Biology, School of Public Health, Southern Medical University, Guangzhou, China.
Front Cell Infect Microbiol. 2020 Jan 22;9:460. doi: 10.3389/fcimb.2019.00460. eCollection 2019.
are obligate intracellular protoza, and due to their small genome and limited encoded proteins, they have to exploit host factors for entry, replication, and dissemination. Such host factors can be defined as host dependency factors (HDFs). Though HDFs are inessential for cell viability, they are critical for pathogen infection, and potential ideal targets for therapeutic intervention. However, information about these HDFs required by infection is highly deficient. In this study, the genes of human foreskin fibroblast (HFF) cells were comprehensively edited using the lentiviral CRISPR-Cas9-sgRNA library, and then the lentivirus-treated cells were infected with at multiplication of infection 1 (MOI = 1) for 10 days to identify HDFs essential for infection. The survival cells were harvested and sent for sgRNA sequencing. The sgRNA sequence matched genes or miRNAs were potential HDFs. Some cells in the lentivirus-treated group could survive longer than those in the untreated control group after infection. From a pool of 19,050 human genes and 1,864 human pri-miRNAs, 1,193 potential HDFs were identified, including 1,183 genes and 10 pri-miRNAs (corresponding with 17 mature miRNAs). Among them, seven genes and five mature miRNAs were validated with siRNAs, miRNA inhibitors, and mimics, respectively. Bioinformatics analysis revealed that, among the 1,183 genes, 53 potential HDFs were associated with regulation of host actin cytoskeleton and 23 potential HDFs coded immune negative regulators. This result indicated that actin dynamics were indispensable for infection, and some host immune negative regulators may be involved in disarming host defenses. Our findings contribute to the current limited knowledge about host factors required by infection and provide us with new targets for medication therapy and vaccine exploitation.
是专性细胞内原生动物,由于其基因组小且编码蛋白有限,因此它们必须利用宿主因子来进入、复制和传播。这些宿主因子可以定义为宿主依赖性因子(HDFs)。尽管 HDFs 对细胞活力不是必需的,但它们对病原体感染至关重要,并且是治疗干预的潜在理想靶点。然而,关于 感染所需的这些 HDFs 的信息非常缺乏。在这项研究中,使用慢病毒 CRISPR-Cas9-sgRNA 文库全面编辑人包皮成纤维细胞(HFF)的基因,然后用慢病毒处理的细胞以感染复数 1(MOI = 1)感染 10 天,以鉴定对 感染至关重要的 HDFs。收获存活的细胞并进行 sgRNA 测序。与 sgRNA 序列匹配的基因或 miRNA 是潜在的 HDFs。感染后,与未处理的对照组相比,一些慢病毒处理组的细胞能够存活更长时间。从 19050 个人类基因和 1864 个人类 pri-miRNAs 中,鉴定出 1193 个潜在的 HDFs,包括 1183 个基因和 10 个 pri-miRNAs(对应 17 个成熟 miRNA)。其中,用 siRNA、miRNA 抑制剂和 mimics 分别验证了七个基因和五个成熟 miRNA。生物信息学分析表明,在 1183 个基因中,53 个潜在的 HDFs 与宿主肌动蛋白细胞骨架的调节有关,23 个潜在的 HDFs 编码免疫负调节剂。这一结果表明肌动蛋白动力学对 感染是必不可少的,一些宿主免疫负调节剂可能参与解除宿主防御。我们的研究结果有助于当前对 感染所需宿主因子的有限认识,并为我们提供了药物治疗和疫苗开发的新靶点。
