肽聚糖骨架的修饰有助于细菌建立感染。
Modifications to the peptidoglycan backbone help bacteria to establish infection.
机构信息
Department of Microbiology, University of Pennsylvania School of Medicine, 3610 Hamilton Walk, Philadelphia, PA 19104-6076, USA.
出版信息
Infect Immun. 2011 Feb;79(2):562-70. doi: 10.1128/IAI.00651-10. Epub 2010 Nov 1.
Abstract
Bacterial pathogens that colonize mucosal surfaces have acquired resistance to antimicrobials that are abundant at these sites. One of the main antimicrobials present on mucosal surfaces is lysozyme, a muramidase that hydrolyzes the peptidoglycan backbone of bacteria. Cleavage of the peptidoglycan backbone leads to bacterial cell death and lysis, which releases bacterial fragments, including peptidoglycan, at the site of infection. Peptidoglycan fragments can be recognized by host receptors and initiate an immune response that will aid in clearing infection. Many mucosal pathogens modify the peptidoglycan residues surrounding the cleavage site for lysozyme to avoid peptidoglycan degradation and the release of these proinflammatory fragments. This review will focus specifically on peptidoglycan modifications, their role in lysozyme resistance, and downstream effects on the host immune response to infection.
摘要
定植于黏膜表面的细菌病原体已获得对这些部位丰富存在的抗生素的耐药性。存在于黏膜表面的主要抗生素之一是溶菌酶,一种能水解细菌肽聚糖骨架的胞壁质酶。肽聚糖骨架的裂解导致细菌细胞死亡和裂解,从而在感染部位释放包括肽聚糖在内的细菌片段。肽聚糖片段可被宿主受体识别,并引发免疫反应,有助于清除感染。许多黏膜病原体修饰溶菌酶裂解位点周围的肽聚糖残基,以避免肽聚糖降解和这些促炎片段的释放。本综述将专门讨论肽聚糖修饰、其在溶菌酶耐药性中的作用以及对宿主感染免疫反应的下游影响。
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