Firestone K, Gopalakrishna K P, Rogers L M, Peters A, Gaddy J A, Nichols C, Hall M H, Varela H N, Carlin S M, Hillebrand G H, Giacobe E J, Aronoff D M, Hooven T A
Indiana University School of Medicine, Department of Medicine.
California Institute of Technology, Division of Chemistry and Chemical Engineering, Pasadena, CA, USA.
bioRxiv. 2024 Dec 7:2024.12.06.627252. doi: 10.1101/2024.12.06.627252.
Group B (GBS; ) is an important pathobiont capable of colonizing various host environments, contributing to severe perinatal infections. Surface proteins play critical roles in GBS-host interactions, yet comprehensive studies of these proteins' functions have been limited by genetic manipulation challenges. This study leveraged a CRISPR interference (CRISPRi) library to target genes encoding surface-trafficked proteins in GBS, identifying their roles in modulating macrophage cytokine responses. Bioinformatic analysis of 654 GBS genomes revealed 66 conserved surface protein genes. Using a GBS strain expressing chromosomally integrated dCas9, we generated and validated CRISPRi strains targeting these genes. THP-1 macrophage-like cells were exposed to ethanol-killed GBS variants, and pro-inflammatory cytokines TNF-α and IL-1β were measured. Notably, knockdown of the gene, encoding the Surface Immunogenic Protein (Sip), significantly increased IL-1β secretion, implicating Sip in caspase-1-dependent regulation. Further, Δ mutants demonstrated impaired biofilm formation, reduced adherence to human fetal membranes, and diminished uterine persistence in a mouse colonization model. These findings suggest Sip modulates GBS-host interactions critical for pathogenesis, underscoring its potential as a therapeutic target or vaccine component.
B组链球菌(GBS)是一种重要的病理共生菌,能够定殖于各种宿主环境,导致严重的围产期感染。表面蛋白在GBS与宿主的相互作用中起关键作用,但由于基因操作的挑战,对这些蛋白功能的全面研究受到限制。本研究利用CRISPR干扰(CRISPRi)文库靶向GBS中编码表面运输蛋白的基因,确定它们在调节巨噬细胞细胞因子反应中的作用。对654个GBS基因组的生物信息学分析揭示了66个保守的表面蛋白基因。我们使用一株表达染色体整合dCas9的GBS菌株,构建并验证了靶向这些基因的CRISPRi菌株。将THP-1巨噬细胞样细胞暴露于乙醇灭活的GBS变体中,并检测促炎细胞因子TNF-α和IL-1β。值得注意的是,编码表面免疫原性蛋白(Sip)的基因敲低显著增加了IL-1β的分泌,表明Sip参与了caspase-1依赖性调节。此外,Δ突变体在小鼠定殖模型中表现出生物膜形成受损、对人胎膜的粘附减少以及子宫内持久性降低。这些发现表明Sip调节了对发病机制至关重要的GBS与宿主的相互作用,突出了其作为治疗靶点或疫苗成分的潜力。
