趋化素衍生肽 p4 的抗菌活性需要氧化条件。
The antimicrobial activity of chemerin-derived peptide p4 requires oxidative conditions.
机构信息
Departments of Immunology, 30-387 Kraków, Poland.
Department of Cell Biology and Imaging, Institute of Zoology and Biomedical Research, Jagiellonian University, 30-387 Kraków, Poland.
出版信息
J Biol Chem. 2019 Jan 25;294(4):1267-1278. doi: 10.1074/jbc.RA118.005495. Epub 2018 Nov 30.
Abstract
Chemerin is a leukocyte attractant, adipokine, and antimicrobial protein abundantly produced in the skin epidermis. Despite the fact that most of the bactericidal activity present in human skin exudates is chemerin-dependent, just how chemerin shapes skin defenses remains obscure. Here we demonstrate that p4, a potent antimicrobial human chemerin peptide derivative, displays killing activity against pathogenic methicillin-resistant strains and suppresses microbial growth in a topical skin infection model. Mechanistically, we show that p4 homodimerization is required for maximal bactericidal activity and that an oxidative environment, such as at the skin surface, facilitates p4 disulfide bridge formation, required for the dimerization. p4 led to rapid damage of the bacterial internal membrane and inhibited the interaction between the membranous cytochrome complex and its redox partner, cytochrome These results suggest that a chemerin p4-based defense strategy combats bacterial challenges at the skin surface.
摘要
Chemerin 是一种白细胞趋化因子、脂肪因子和抗菌蛋白,在皮肤表皮中大量产生。尽管人体皮肤渗出物中存在的大多数杀菌活性依赖于 Chemerin,但 Chemerin 如何塑造皮肤防御机制尚不清楚。在这里,我们证明 p4,一种有效的抗菌人 Chemerin 肽衍生物,对致病性耐甲氧西林菌株具有杀伤活性,并抑制局部皮肤感染模型中的微生物生长。从机制上讲,我们表明 p4 同源二聚化对于最大杀菌活性是必需的,并且氧化环境(如在皮肤表面)有利于 p4 二硫键形成,这是二聚化所必需的。p4 导致细菌内膜迅速受损,并抑制膜细胞色素复合物与其氧化还原伙伴细胞色素 c 的相互作用。这些结果表明,基于 Chemerin p4 的防御策略可在皮肤表面抵御细菌的挑战。
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