Department of Microbiology, The University of Alabama at Birmingham, Birmingham, Alabama, USA.
Infectious Diseases and Genomic Medicine Group, J Craig Venter Institute, Rockville, Maryland, USA.
mBio. 2021 May 4;12(3):e00673-21. doi: 10.1128/mBio.00673-21.
Pneumococcal surface protein A (PspA) and pneumococcal surface protein C (PspC, also called CbpA) are major virulence factors of (). These surface-exposed choline-binding proteins (CBPs) function independently to inhibit opsonization, neutralize antimicrobial factors, or serve as adhesins. PspA and PspC both carry a proline-rich domain (PRD) whose role, other than serving as a flexible connector between the N-terminal and C-terminal domains, was up to this point unknown. Herein, we demonstrate that PspA binds to lactate dehydrogenase (LDH) released from dying host cells during infection. Using recombinant versions of PspA and isogenic mutants lacking PspA or specific domains of PspA, this property was mapped to a conserved 22-amino-acid nonproline block (NPB) found within the PRD of most PspAs and PspCs. The NPB of PspA had specific affinity for LDH-A, which converts pyruvate to lactate. In a mouse model of pneumonia, preincubation of carrying NPB-bearing PspA with LDH-A resulted in increased bacterial titers in the lungs. In contrast, incubation of carrying a version of PspA lacking the NPB with LDH-A or incubation of wild-type with enzymatically inactive LDH-A did not enhance virulence. Preincubation of NPB-bearing with lactate alone enhanced virulence in a pneumonia model, indicating exogenous lactate production by -bound LDH-A had an important role in pneumococcal pathogenesis. Our observations show that lung LDH, released during the infection, is an important binding target for via PspA/PspC and that pneumococci utilize LDH-A derived lactate for their benefit () is the leading cause of community-acquired pneumonia. PspA and PspC are among its most important virulence factors, and these surface proteins carry the proline-rich domain (PRD), whose role was unknown until now. Herein, we show that a conserved 22-amino-acid nonproline block (NPB) found within most versions of the PRD binds to host-derived lactate dehydrogenase A (LDH-A), a metabolic enzyme which converts pyruvate to lactate. PspA-mediated binding of LDH-A increased titers in the lungs and this required LDH-A enzymatic activity. Enhanced virulence was also observed when was preincubated with lactate, suggesting LDH-A-derived lactate is a vital food source. Our findings define a role for the NPB of the PRD and show that co-opts host enzymes for its benefit. They advance our understanding of pneumococcal pathogenesis and have key implications on the susceptibility of individuals with preexisting airway damage that results in LDH-A release.
肺炎球菌表面蛋白 A (PspA) 和肺炎球菌表面蛋白 C (PspC,也称为 CbpA) 是肺炎球菌的主要毒力因子。这些表面暴露的胆碱结合蛋白 (CBPs) 独立发挥作用,抑制调理作用、中和抗菌因子或作为黏附素。PspA 和 PspC 都携带富含脯氨酸的结构域 (PRD),其作用除了作为 N 端和 C 端结构域之间的柔性连接外,目前尚不清楚。在此,我们证明 PspA 与感染过程中宿主细胞死亡时释放的乳酸脱氢酶 (LDH) 结合。使用重组 PspA 及其缺乏 PspA 或 PspA 特定结构域的同工型突变体,该特性被映射到大多数 PspAs 和 PspCs 的 PRD 中发现的保守 22 个氨基酸非脯氨酸块 (NPB)。PspA 的 NPB 对 LDH-A 具有特异性亲和力,LDH-A 将丙酮酸转化为乳酸。在肺炎的小鼠模型中,用携带 NPB 的 预先孵育 LDH-A 导致肺部细菌滴度增加。相比之下,用缺乏 NPB 的 PspA 变体或用酶失活的 LDH-A 孵育野生型 并不增强毒力。携带 NPB 的 仅与乳酸一起预孵育即可在肺炎模型中增强毒力,表明结合 LDH-A 的外源性乳酸对肺炎球菌发病机制具有重要作用。我们的观察结果表明,感染期间释放的肺 LDH 是 通过 PspA/PspC 的重要结合靶标,并且肺炎球菌利用 LDH-A 衍生的乳酸为其自身获益。肺炎球菌是社区获得性肺炎的主要病因。PspA 和 PspC 是其最重要的毒力因子之一,这些表面蛋白携带富含脯氨酸的结构域 (PRD),其作用直到现在才为人所知。在此,我们发现 PRD 中大多数版本内的保守 22 个氨基酸非脯氨酸块 (NPB) 与宿主来源的乳酸脱氢酶 A (LDH-A) 结合,LDH-A 是一种将丙酮酸转化为乳酸的代谢酶。PspA 介导的 LDH-A 结合增加了肺部的 滴度,这需要 LDH-A 的酶活性。当 预先用乳酸孵育时,也观察到增强的毒力,这表明 LDH-A 衍生的乳酸是一种重要的食物来源。我们的发现定义了 PRD 的 NPB 的作用,并表明 利用宿主酶为其自身获益。它们增进了我们对肺炎球菌发病机制的理解,并对气道损伤导致 LDH-A 释放的个体的易感性具有关键意义。
