冈比亚按蚊溶菌酶c-1的表达、活性表征及其在抗菌免疫中的作用
Characterization of expression, activity and role in antibacterial immunity of Anopheles gambiae lysozyme c-1.
作者信息
Kajla Mayur K, Andreeva Olga, Gilbreath Thomas M, Paskewitz Susan M
机构信息
Department of Entomology, University of Wisconsin, Madison, Wisconsin, USA.
出版信息
Comp Biochem Physiol B Biochem Mol Biol. 2010 Feb;155(2):201-9. doi: 10.1016/j.cbpb.2009.11.012.
Abstract
There are eight lysozyme genes in the Anopheles gambiae genome. Transcripts of one of these genes, LYSC-1, increased in Anopheles gambiae cell line 4a3B by 24 h after exposure to heat-killed Micrococcus luteus. Lysozyme activity was also identified in conditioned media from the cell line from which the protein was purified to homogeneity using ion exchange and gel filtration. Mass spectrometric analysis of the purified protein showed 100% identity to lysozyme c-1. Purified lysozyme c-1 was tested against non-mosquito-derived as well as culturable bacteria isolated from mosquito midguts. Lysozyme c-1 had negligible effects on the growth of most mosquito-derived bacteria in vitro but did inhibit the growth of M. luteus. Although Lys c-1 did not directly kill most bacteria, knockdown of LYSC-1 resulted in significant mortality in mosquitoes subjected to hemocoelic infections with Escherichia coli but not M. luteus thus suggesting that this protein plays an important role in antibacterial defense against selected bacteria.
摘要
冈比亚按蚊基因组中有八个溶菌酶基因。其中一个基因LYSC-1的转录本,在冈比亚按蚊细胞系4a3B中,暴露于热灭活的藤黄微球菌后24小时增加。在该细胞系的条件培养基中也鉴定出溶菌酶活性,使用离子交换和凝胶过滤将蛋白质纯化至同质。对纯化蛋白质的质谱分析显示与溶菌酶c-1有100%的同一性。针对从蚊子中肠分离的非蚊子来源以及可培养细菌测试纯化的溶菌酶c-1。溶菌酶c-1对大多数蚊子来源细菌的体外生长影响可忽略不计,但确实抑制了藤黄微球菌的生长。虽然溶菌酶c-1没有直接杀死大多数细菌,但敲低LYSC-1导致经大肠杆菌血腔感染的蚊子出现显著死亡率,而藤黄微球菌感染则不然,因此表明该蛋白质在针对特定细菌的抗菌防御中起重要作用。
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