[Occurence of pili genes in Corynebacterium diphtheriae strains].

Aleksandra Anna Zasada, Kamila Formińska, Magdalena Rzeczkowska
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Abstract

Introduction: Adhesion of pathogenic bacteria to host cells is a crucial step during infection. The presence of specific adhesion factors on the bacterial cell surface determines the tropism of the pathogen to the tissues expressing certain surface receptors. The adhesion is mediated primarily by filamentous structures called pili. Three distinct pilus structures can be produced by Corynebacterium diphtheriae: SpaA-, SpaD- and SpaH-type pili. Pilus genes encode a total of nine pilus proteins, named SpaA through SpaI, and six sortases, named SrtA through SrtF. All the pilus genes are located on pathogenicity islands and can be acquired and lost by different strains. The aim of presented studies was assessment of occurence of pili genes among C. diphtheriae strains isolated from different infections, including invasive infections, in Poland.

Methods: Thirty-one toxigenic and nontoxigenic C. diphtheriae strains isolated from wounds, blood, nose and pharynx were investigated for presence of 15 pili genes. The studies were conducted using PCR. Gene specific primers were designed on the basis of the complete genome sequence of C. diphtheriae NCTC 13129.

Result: All the nontoxigenic C. diphtheriae strains isolated from invasive infections possess every tested genes in contrast to toxigenic strains that revealed highly mosaic structure of pili gene clusters. Differences in gene content were detected in SpaA- and SpaH-type pili gene clusters. Complete set of genes in SpaD-type pili gene cluster was detected in all but two strains. The two strains did not possess any of SpaD-type pili genes.

Conclusions: Invasiveness of C. diphtheriae strains could be related to adhesive factors. Results of our studies suggest that ability to express all types of pili is indispensable for causing invasive infections by nontoxigenic C. diphtheriae. Whereas full set ofpili genes is not necessary for causing classical diphtheria.

白喉棒状杆菌菌毛基因的出现。
病原菌与宿主细胞的粘附是感染过程中的关键步骤。细菌细胞表面特定粘附因子的存在决定了病原体对表达某些表面受体的组织的趋向性。粘连主要是由称为毛的丝状结构介导的。白喉棒状杆菌可产生三种不同的菌毛结构:SpaA型、SpaD型和spah型菌毛。毛菌基因共编码9种毛菌蛋白,命名为SpaA至SpaI,以及6种排序酶,命名为SrtA至SrtF。所有菌毛基因均位于致病岛上,不同菌株可获得或丢失菌毛基因。提出的研究的目的是评估在波兰从不同感染分离的白喉菌株中毛基因的发生率,包括侵袭性感染。方法:对从伤口、血液、鼻、咽分离的31株产毒株和非产毒株进行毛毛基因检测。研究采用PCR进行。根据白喉白喉杆菌NCTC 13129全基因组序列设计基因特异性引物。结果:从侵入性感染中分离得到的非产毒株均具有所有检测基因,而产毒株的毛基因簇呈高度镶嵌结构。在SpaA型和spah型毛基因簇中检测到基因含量的差异。除2株菌株外,其余菌株均检出完整的spad型菌毛基因簇。两株菌均不含spad型菌毛基因。结论:白喉链球菌的侵袭性可能与黏附因子有关。我们的研究结果表明,表达所有类型毛的能力对于引起非产毒素白喉支原体的侵袭性感染是必不可少的。而全套毛菌基因并不是引起典型白喉的必要条件。
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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