一种用于协调肽聚糖周转、激活鲍曼不动杆菌细胞分裂酰胺酶的保守枢纽蛋白

Brent W Simpson, Amanda B McLean, M. Stephen Trent
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引用次数: 0

摘要

革兰氏阴性细菌产生多层细胞包膜,其肽聚糖夹在两层膜之间,一层是由甘油磷脂组成的内膜,另一层是不对称的外膜,内叶为甘油磷脂,外叶为脂多糖(LPS)。鲍曼不动杆菌外膜含有脂寡糖(LOS),这是一种缺乏 O 抗原的 LPS 变体。LPS/LOS 通常是必不可少的,但鲍曼不动杆菌在没有 LOS 的情况下也能存活。此前,我们发现肽聚糖生物生成蛋白 NlpD 在 LOS 缺乏时变得至关重要。NlpD 通常是冗余的,它是细胞的酰胺酶激活剂之一,用于调节肽聚糖降解,这是细胞分裂的关键过程。我们发现 NlpD 在这些条件下是必不可少的,因为第二个假定的酰胺酶激活剂 WthA(细胞壁周转枢纽蛋白 A)在 LOS 缺乏的细胞中不再起作用。缺乏 WthA 的突变体有严重的细胞分裂缺陷,并且由于 NlpD 的缺失而出现合成疾病。研究发现,WthA 和 NlpD 都能激活 Oxa51(一种染色体编码的 beta-内酰胺酶)的酰胺酶活性。此外,WthA 与假单胞菌的 LbcA 同源,而 LbcA 会影响另外两类肽聚糖降解酶,即内肽酶和溶解性转糖基酶。WthA/LbcA的同源物在变形菌群、类杆菌群和氯生物群中都被发现,表明它们属于参与调节肽聚糖周转的保守家族。虽然不动杆菌 WthA 可能与假单胞菌 LbcA 具有相同的功能,但我们没有发现 LbcA 是酰胺酶激活剂的证据。总之,我们发现了肽聚糖生物发生过程中一个缺失的角色,它是一个保守的中枢蛋白,可调控多种肽聚糖周转酶,包括细胞分裂酰胺酶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A conserved hub protein for coordinating peptidoglycan turnover that activates cell division amidases in Acinetobacter baumannii
Gram-negative bacteria produce a multilayered cell envelope in which their peptidoglycan is sandwiched between two membranes, an inner membrane made of glycerophospholipids and an asymmetric outer membrane with glycerophospholipids in the inner leaflet and lipopolysaccharide (LPS) in the outer leaflet. The Acinetobacter baumannii outer membrane contains lipooligosaccharide (LOS), a variant of LPS lacking O-antigen. LPS/LOS is typically essential, but A. baumannii can survive without LOS. Previously, we found that the peptidoglycan biogenesis protein NlpD becomes essential during LOS-deficiency. NlpD is typically redundant and is one of the cell's amidase activators for regulating peptidoglycan degradation, a process critical for cell division. We found that NlpD is essential under these conditions because a second putative amidase activator, termed WthA (cell wall turnover hub protein A), no longer functions in LOS-deficient cells. Mutants lacking WthA had severe cell division defects and were synthetically sick with loss of NlpD. Both Acinetobacter WthA and NlpD were found to activate an amidase activity of Oxa51, a chromosomally encoded beta-lactamase. Further, WthA is homologous to Pseudomonas LbcA that impacts two other classes of peptidoglycan degradation enzymes, endopeptidases and lytic transglycosylases. WthA/LbcA homologs were identified across Proteobacteria, Bacteroidota, and Chlorobiota, suggesting they belong to a conserved family involved in regulation of peptidoglycan turnover. While Acinetobacter WthA may share functions of Pseudomonas LbcA, we found no evidence that LbcA is an amidase activator. Altogether, we have identified a missing player in Acinetobacter peptidoglycan biogenesis, a conserved hub protein that regulates multiple peptidoglycan turnover enzymes including cell division amidases.
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