肽聚糖修复使牙周病原体连翘单宁菌在口腔微生物群落中存活。

Pub Date : 2021-01-01 Epub Date: 2021-06-09 DOI:10.1159/000516751
Isabel Hottmann, Marina Borisova, Christina Schäffer, Christoph Mayer
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引用次数: 7

摘要

连翘Tannerella forsythia是一种无氧梭形革兰氏阴性口腔病原体,与牙周炎密切相关,牙周炎是一种多细菌炎症性疾病,可导致牙齿支撑组织的破坏,最终导致牙齿脱落。为了在口腔栖息地生存,连翘依靠共生细菌提供营养。对于实验室条件下的无菌生长,它特别依赖于n -乙酰氨基酸(MurNAc)的外部供应,这是细菌细胞壁肽聚糖(PGN)的基本成分。连翘含有典型的革兰氏阴性PGN;然而,正如基因组序列分析所证明的那样,生物体缺乏重新合成PGN前体所需的共同酶,这使其MurNAc缺陷性萎缩合理化。直到最近,人们才了解到连翘如何在其口腔栖息地获得MurNAc,从而能够合成自己的PGN细胞壁。本文总结了连翘在口腔生境中通过PGN回收途径生存的策略,包括外源的MurNAc和PGN来源的片段,以及聚合的PGN,这些途径都是通过细胞壁的更新或细胞的腐烂而获得的。聚合物PGN的回收可能需要通过一种未知的酰胺酶去除PGN上的肽,同时将聚合物转移到外膜上。最近发现的两种外溶n -乙酰基酶(Tf_NamZ1和Tf_NamZ2)特异性地切割外周质中不含肽的外源性(营养源)PGN,并分别为转运体Tf_MurT和Tf_AmpG释放MurNAc和双糖底物,而含有肽的内源性(自身细胞壁)PGN保持不附着。本文还概述了连连花如何合成PGN前体UDP-MurNAc和udp - n -乙酰氨基葡萄糖(UDP-GlcNAc),它们分别涉及假单胞菌再生酶AmgK/MurU和单功能尿苷基转移酶(Tf_GlmU*)的同源物。
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Peptidoglycan Salvage Enables the Periodontal Pathogen Tannerella forsythia to Survive within the Oral Microbial Community.

Tannerella forsythia is an anaerobic, fusiform Gram-negative oral pathogen strongly associated with periodontitis, a multibacterial inflammatory disease that leads to the destruction of the teeth-supporting tissue, ultimately causing tooth loss. To survive in the oral habitat, T. forsythia depends on cohabiting bacteria for the provision of nutrients. For axenic growth under laboratory conditions, it specifically relies on the external supply of N-acetylmuramic acid (MurNAc), which is an essential constituent of the peptidoglycan (PGN) of bacterial cell walls. T. forsythia comprises a typical Gram-negative PGN; however, as evidenced by genome sequence analysis, the organism lacks common enzymes required for the de novo synthesis of precursors of PGN, which rationalizes its MurNAc auxotrophy. Only recently insights were obtained into how T. forsythia gains access to MurNAc in its oral habitat, enabling synthesis of the own PGN cell wall. This report summarizes T. forsythia's strategies to survive in the oral habitat by means of PGN salvage pathways, including recovery of exogenous MurNAc and PGN-derived fragments but also polymeric PGN, which are all derived from cohabiting bacteria either via cell wall turnover or decay of cells. Salvage of polymeric PGN presumably requires the removal of peptides from PGN by an unknown amidase, concomitantly with the translocation of the polymer across the outer membrane. Two recently identified exo-lytic N-acetylmuramidases (Tf_NamZ1 and Tf_NamZ2) specifically cleave the peptide-free, exogenous (nutrition source) PGN in the periplasm and release the MurNAc and disaccharide substrates for the transporters Tf_MurT and Tf_AmpG, respectively, whereas the peptide-containing, endogenous (the self-cell wall) PGN stays unattached. This review also outlines how T. forsythia synthesises the PGN precursors UDP-MurNAc and UDP-N-acetylglucosamine (UDP-GlcNAc), involving homologs of the Pseudomonas sp. recycling enzymes AmgK/MurU and a monofunctional uridylyl transferase (named Tf_GlmU*), respectively.

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