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致病性奈瑟菌感染上皮细胞会降低多种溶酶体成分的水平。

Infection of epithelial cells by pathogenic neisseriae reduces the levels of multiple lysosomal constituents.

作者信息

Ayala P, Lin L, Hopper S, Fukuda M, So M

机构信息

Department of Molecular Microbiology and Immunology, Oregon Health Sciences University, Portland, Oregon 97201-3098, USA.

出版信息

Infect Immun. 1998 Oct;66(10):5001-7. doi: 10.1128/IAI.66.10.5001-5007.1998.

DOI:10.1128/IAI.66.10.5001-5007.1998
PMID:9746610
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC108621/
Abstract

Members of our group reported recently that neisseria infection of human epithelial cells results in accelerated degradation of the major lysosomal integral membrane protein LAMP1 and that this is due to hydrolysis of this glycoprotein at its immunoglobulin A1 (IgA1)-like hinge by the neisseria type 2 IgA1 protease (L. Lin et al., Mol. Microbiol. 24:1083-1094, 1997). We also reported that the IgA1 protease plays a major role in the ability of the pathogenic neisseriae to survive within epithelial cells and hypothesized that this is due to alteration of lysosomes as a result of protease-mediated LAMP1 degradation. In this study, we tested the hypothesis that neisseria infection leads to multiple changes in lysosomes. Here, we report that neisseria infection also reduces the levels of three other lysosomal markers: LAMP2, lysosomal acid phosphatase (LAP), and CD63. In contrast, neither the epidermal growth factor receptor level nor the beta-tubulin level is affected. A detailed examination of LAMP2 indicated that the reduced LAMP2 levels are not the result of an altered biosynthetic rate or of cleavage by the IgA1 protease. Nevertheless, the protease plays a role in reducing LAMP2 and LAP activity levels, as these are partially restored in cells infected with an iga mutant. We conclude that neisseria infection results in multiple changes to the lysosomes of infected epithelial cells and that these changes are likely an indirect result of IgA1 protease-mediated cleavage of LAMP1.

摘要

我们小组的成员最近报告称,人类上皮细胞的奈瑟菌感染会导致主要溶酶体整合膜蛋白LAMP1加速降解,这是由于奈瑟菌2型IgA1蛋白酶在其免疫球蛋白A1(IgA1)样铰链处对该糖蛋白进行水解所致(L. Lin等人,《分子微生物学》24:1083 - 1094,1997)。我们还报告称,IgA1蛋白酶在致病性奈瑟菌在上皮细胞内存活的能力中起主要作用,并推测这是由于蛋白酶介导的LAMP1降解导致溶酶体改变所致。在本研究中,我们检验了奈瑟菌感染导致溶酶体发生多种变化的假设。在此,我们报告奈瑟菌感染还会降低其他三种溶酶体标志物的水平:LAMP2、溶酶体酸性磷酸酶(LAP)和CD63。相比之下,表皮生长因子受体水平和β - 微管蛋白水平均未受影响。对LAMP2的详细检查表明,LAMP2水平降低并非生物合成速率改变或IgA1蛋白酶切割的结果。然而,该蛋白酶在降低LAMP2和LAP活性水平方面发挥作用,因为在感染iga突变体的细胞中这些水平会部分恢复。我们得出结论,奈瑟菌感染会导致被感染上皮细胞的溶酶体发生多种变化,并且这些变化可能是IgA1蛋白酶介导的LAMP1切割的间接结果。

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