热休克蛋白 X（HspX）介导的致病性分枝杆菌生存途径。

HspX-mediated survival pathways of pathogenic mycobacteria.

机构信息

From the Prince Sultan Military Medical City, Riyadh, Kingdom of Saudi Arabia.

出版信息

Saudi Med J. 2021 Jul;42(7):721-727. doi: 10.15537/smj.2021.42.7.20200582.

DOI:10.15537/smj.2021.42.7.20200582

PMID:34187915

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9195537/

Abstract

OBJECTIVES

To optimize an enzyme-linked immunosorbent assay (ELISA) for measuring the HspX protein (α-crystallin) levels and then evaluate its correlation with the accumulation of lipid bodies in ( during hypoxia and exposure to nitric oxide.

METHODS

This study was conducted at Prince Sultan Military Medical City, Riyadh, Saudi Arabia between 2016 and 2017. We first optimized ELISA conditions for the detection of HspX. The optimization protocol focused on minimizing concentrations of the capture antibody, detection antibody, and conjugated secondary antibody, and determining the minimum detection limit of the antigen, HspX. Bacteria were grown either in shaking culture or in stationary flasks mimicking hypoxic environments. A standard Bradford assay was used to determine the total protein and HspX was detected using the optimized ELISA protocol. The effect of hypoxic environment and nitric oxide on the levels of HspX and lipid bodies, detected by staining with Nile red, was also evaluated.

RESULTS

An optimized ELISA protocol was established for the detection of HspX from . Exposure to nitric oxide and hypoxic conditions led to an increase in the levels of HspX protein. The increase in HspX associated with nitric oxide treatment and hypoxic conditions correlated with higher levels of lipid bodies mainly found in pathogenic mycobacteria.

CONCLUSIONS

The optimized ELISA protocol in this study can detect HspX protein levels in growing in normal and hypoxic environments. Importantly, hypoxia led to enhanced expression of HspX protein, which correlated with the enhanced production of lipid bodies. Lipid body production is a survival strategy of pathogenic mycobacteria.

摘要

目的

优化酶联免疫吸附测定（ELISA）以测量 HspX 蛋白（α-晶体蛋白）水平，然后评估其与脂质体在缺氧和暴露于一氧化氮时积累的相关性。

方法

本研究于 2016 年至 2017 年在沙特阿拉伯利雅得的苏丹亲王军事医学城进行。我们首先优化了用于检测 HspX 的 ELISA 条件。优化方案侧重于最小化捕获抗体、检测抗体和共轭二级抗体的浓度，并确定抗原 HspX 的最小检测限。细菌在摇瓶培养或模拟缺氧环境的静止瓶中生长。使用标准 Bradford 测定法测定总蛋白，并用优化的 ELISA 方案检测 HspX。还评估了缺氧环境和一氧化氮对 HspX 水平和用尼罗红染色检测到的脂质体的影响。

结果

建立了一种优化的 ELISA 方案，用于检测来自的 HspX。暴露于一氧化氮和缺氧条件会导致 HspX 蛋白水平升高。与一氧化氮处理和缺氧条件相关的 HspX 增加与主要在致病性分枝杆菌中发现的更高水平的脂质体相关。

结论

本研究中优化的 ELISA 方案可检测正常和缺氧环境中生长的 HspX 蛋白水平。重要的是，缺氧导致 HspX 蛋白表达增强，这与脂质体的产生增强相关。脂质体的产生是致病性分枝杆菌的一种生存策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/12a2/9195537/c25d406d27e3/SaudiMedJ-42-7-721_page_4_1.jpg

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热休克蛋白 X（HspX）介导的致病性分枝杆菌生存途径。

HspX-mediated survival pathways of pathogenic mycobacteria.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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