Ke Wujian, Molini Barbara J, Lukehart Sheila A, Giacani Lorenzo
Department of Medicine, Division of Allergy and Infectious Diseases, University of Washington, Harborview Medical Center, Seattle, Washington, United States of America; Graduate School, Southern Medical University, Guangzhou, PR China; Division of STD, Guangdong Provincial Center for STI & Skin Diseases Control and Prevention, Guangzhou, PR China.
Department of Medicine, Division of Allergy and Infectious Diseases, University of Washington, Harborview Medical Center, Seattle, Washington, United States of America.
PLoS Negl Trop Dis. 2015 Mar 20;9(3):e0003662. doi: 10.1371/journal.pntd.0003662. eCollection 2015 Mar.
Adherence-mediated colonization plays an important role in pathogenesis of microbial infections, particularly those caused by extracellular pathogens responsible for systemic diseases, such as Treponema pallidum subsp. pallidum (T. pallidum), the agent of syphilis. Among T. pallidum adhesins, TP0136 is known to bind fibronectin (Fn), an important constituent of the host extracellular matrix. To deepen our understanding of the TP0136-Fn interaction dynamics, we used two naturally-occurring sequence variants of the TP0136 protein to investigate which region of the protein is responsible for Fn binding, and whether TP0136 would adhere to human cellular Fn in addition to plasma Fn and super Fn as previously reported. Fn binding assays were performed with recombinant proteins representing the two full-length TP0136 variants and their discrete regions. As a complementary approach, we tested inhibition of T. pallidum binding to Fn by recombinant full-length TP0136 proteins and fragments, as well as by anti-TP0136 immune sera. Our results show that TP0136 adheres more efficiently to cellular Fn than to plasma Fn, that the TP0136 NH2-terminal conserved region of the protein is primarily responsible for binding to plasma Fn but that binding sites for cellular Fn are also present in the protein's central and COOH-terminal regions. Additionally, message quantification studies show that tp0136 is highly transcribed during experimental infection, and that its message level increases in parallel to the host immune pressure on the pathogen, which suggests a possible role for this protein in T. pallidum persistence. In a time where syphilis incidence is high, our data will help in the quest to identify suitable targets for development of a much needed vaccine against this important disease.
黏附介导的定植在微生物感染的发病机制中起着重要作用,尤其是由导致全身性疾病的细胞外病原体引起的感染,如梅毒螺旋体苍白亚种(梅毒病原体)。在梅毒螺旋体黏附素中,已知TP0136可结合纤连蛋白(Fn),它是宿主细胞外基质的重要组成部分。为了深入了解TP0136-Fn相互作用动力学,我们使用TP0136蛋白的两种天然存在的序列变体来研究该蛋白的哪个区域负责Fn结合,以及TP0136是否除了血浆Fn和超Fn外还能如先前报道的那样黏附于人类细胞Fn。使用代表两种全长TP0136变体及其离散区域的重组蛋白进行Fn结合试验。作为一种补充方法,我们测试了重组全长TP0136蛋白和片段以及抗TP0136免疫血清对梅毒螺旋体与Fn结合的抑制作用。我们的结果表明,TP0136对细胞Fn的黏附比对血浆Fn更有效,该蛋白的TP0136 NH2末端保守区域主要负责与血浆Fn结合,但细胞Fn的结合位点也存在于该蛋白的中央和COOH末端区域。此外,信息定量研究表明,tp0136在实验感染期间高度转录,其信息水平与宿主对病原体的免疫压力平行增加,这表明该蛋白在梅毒螺旋体持续存在中可能发挥作用。在梅毒发病率较高的时期,我们的数据将有助于寻找合适的靶点,以开发针对这种重要疾病急需的疫苗。
