肽聚糖
单元格信封
生物发生
细胞生物学
酰胺酶
生物
生物化学
周质间隙
细菌细胞结构
溶解循环
细胞分裂
内膜
赖氨酸
rpoN公司
突变体
脂质Ⅱ
细菌外膜
细胞壁
细胞器生物发生
激活剂(遗传学)
膜蛋白
细胞膜
自溶素
胞浆
调节器
金融时报
新月形茎杆菌
α蛋白细菌
鞭毛
蛋白质结构
转运蛋白
作者
Brent W. Simpson,Amanda B. McLean,M. Stephen Trent
标识
DOI:10.1073/pnas.2529815122
摘要
Gram-negative bacteria build a multilayered cell envelope in which the peptidoglycan layer is sandwiched between an inner membrane of glycerophospholipids and an asymmetric outer membrane composed of glycerophospholipids and lipopolysaccharide (LPS). Acinetobacter baumannii , however, synthesize lipooligosaccharide (LOS), an LPS variant lacking O-antigen. Although LPS/LOS is typically essential, A. baumannii can survive without LOS, offering the opportunity to examine how the Gram-negative envelope remains stable in the absence of this major glycolipid. We previously found that the peptidoglycan biogenesis protein NlpD, an activator of peptidoglycan degradation by cell division amidases, is critical for fitness during LOS deficiency. Here, we show that NlpD is required under these conditions because a second putative amidase activator, WthA (cell wall turnover hub protein A), no longer functions in LOS-deficient cells. Mutants lacking WthA exhibited severe cell-division defects and were synthetically sick with loss of NlpD. Acinetobacter lack canonical periplasmic amidases, raising the question of which enzymes partner with NlpD and WthA. Previous work showed that overexpression of an Acinetobacter β-lactamase increased denuded peptidoglycan, a product of amidase activity. Guided by this finding, we examined the chromosomally encoded β-lactamase Oxa51 and found that its coexpression with WthA or NlpD enhanced release of amidase products, suggesting that Oxa51 participates in peptidoglycan degradation and that WthA is an amidase activator. Further, WthA influenced peptidoglycan endopeptidases and lytic transglycosylases through a network of protein interactions. Altogether, these findings identify WthA as a missing regulator in Acinetobacter peptidoglycan biogenesis and a hub that coordinates peptidoglycan turnover and cell division.
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