鉴定一种针对 g 型溶菌酶的细菌抑制剂。
Identification of a bacterial inhibitor against g-type lysozyme.
机构信息
Laboratory of Food Microbiology and Leuven Food Science and Nutrition Research Centre, Katholieke Universiteit Leuven, Belgium.
出版信息
Cell Mol Life Sci. 2011 Mar;68(6):1053-64. doi: 10.1007/s00018-010-0507-3. Epub 2010 Aug 25.
Abstract
Lysozymes are antibacterial effectors of the innate immune system in animals that hydrolyze peptidoglycan. Bacteria have evolved protective mechanisms that contribute to lysozyme tolerance such as the production of lysozyme inhibitors, but only inhibitors of chicken (c-) and invertebrate (i-) type lysozyme have been identified. We here report the discovery of a novel Escherichia coli inhibitor specific for goose (g-) type lysozymes, which we designate PliG (periplasmic lysozyme inhibitor of g-type lysozyme). Although it does not inhibit c- or i-type lysozymes, PliG shares a structural sequence motif with the previously described PliI and MliC/PliC lysozyme inhibitor families, suggesting a common ancestry and mode of action. Deletion of pliG increased the sensitivity of E. coli to g-type lysozyme. The existence of inhibitors against all major types of animal lysozyme and their contribution to lysozyme tolerance suggest that lysozyme inhibitors may play a role in bacterial interactions with animal hosts.
摘要
溶菌酶是动物先天免疫系统中的抗菌效应物,能够水解肽聚糖。细菌已经进化出了多种保护机制,有助于其耐受溶菌酶,比如产生溶菌酶抑制剂,但目前只鉴定出了鸡(c-)和无脊椎动物(i-)型溶菌酶的抑制剂。我们在此报告了一种新型大肠杆菌抑制剂的发现,该抑制剂特异性针对鹅(g-)型溶菌酶,我们将其命名为 PliG(g-型溶菌酶的周质溶菌酶抑制剂)。尽管 PliG 不能抑制 c-或 i-型溶菌酶,但它与先前描述的 PliI 和 MliC/PliC 溶菌酶抑制剂家族共享一个结构序列基序,表明它们具有共同的进化起源和作用模式。缺失 pliG 会增加大肠杆菌对 g-型溶菌酶的敏感性。所有主要类型动物溶菌酶的抑制剂的存在及其对溶菌酶耐受的贡献表明,溶菌酶抑制剂可能在细菌与动物宿主的相互作用中发挥作用。
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