c-二- gmp在铜绿假单胞菌中的多重活性。

Stephen Lory, Massimo Merighi, Mamoru Hyodo
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引用次数: 34

摘要

包括铜绿假单胞菌在内的许多细菌病原体的生存策略与它们形成称为生物膜的表面相关群落的能力有关。生物膜的生活方式使这些生物能够在各种组织中持续存在,避免了先天宿主防御的清除,并显著增强了它们对抗生素的抵抗力。各种生物膜成分的形成,包括胞外多糖基质的合成,在转录和翻译水平上也受到小分子第二信使双-(3',5')-环二胍单磷酸(c-di-GMP)的控制。铜绿假单胞菌GTP合成c-二gmp及其降解受二胍酸环化酶(DGCs)和磷酸二酯酶(PDEs)控制,由30多个基因编码。我们已经证明,细胞内c-di-GMP水平的增加有利于生物膜的形成,因为它作为几种细胞外多糖合成的辅助因子,包括PEL和海藻酸盐,这是囊性纤维化患者感染过程中铜绿假单胞菌的两个关键毒力因子。在PEL和海藻酸盐的生物合成过程中,c-二gmp分别与特异性受体PelD和Alg44结合。我们最近也证明了DGCs具有松弛特异性,并且可以环化GTP以外的其他核苷酸。这些非典型环二核苷酸以高亲和力结合c-二gmp受体,表明这组第二信使对细胞内各种生物功能的调节可能比以前认识的更复杂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiple activities of c-di-GMP in Pseudomonas aeruginosa.

Survival strategies of many bacterial pathogens, including Pseudomonas aeruginosa, are linked to their ability to form surface associated communities called biofilms. The biofilm life style allows these organisms to persist in various tissues, avoid clearance by innate host defences and significantly enhanced their resistance to antibiotics. Formation of various biofilm components, including the synthesis of the extracellular polysaccharide matrix, is controlled at the transcriptional and translational levels and also by a small molecule second messenger bis-(3',5')-cyclic-di-guanidine monophosphate (c-di-GMP). The synthesis of c-di-GMP from GTP and its degradation is controlled by diguanylate cyclases (DGCs) and phosphodiesterases (PDEs), encoded by over thirty genes in the P. aeruginosa genome. We have shown that an increase in the intracellular c-di-GMP levels favors biofilm formation due to its role as a cofactor for the synthesis of several types of extracellular polysaccharides, including PEL and alginate, the two key virulence factors of P. aeruginosa during infection of patients with cystic fibrosis. During biosynthesis of PEL and alginate, c-di-GMP binds to specific receptors, PelD and Alg44, respectively. We have also recently demonstrated that DGCs have a relaxed specificity and can cyclize other nucleotides besides GTP. These atypical cyclic dinucleotides bind c-di-GMP receptors with high affinity, suggesting that intracellular regulation of various biological functions by this group of second messengers may be more complex than previously recognized.

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