Mycobacterium manipulate glutaminase 1 mediated glutaminolysis to regulate macrophage autophagy for bacteria intracellular survival

IF 4.4 2区生物学 Q2 CELL BIOLOGY

Cellular signalling Pub Date : 2024-09-20 DOI:10.1016/j.cellsig.2024.111422

Jialin Yu , Na Yan , Zhaoqian Gong , Qinmei Ma , Jing Liu , Xiaoling Wu , Guangcun Deng

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Abstract

Autophagy plays a vital role in eliminating intracellular mycobacterium. It is regulated by multiple metabolic processes including glutaminolysis. Glutaminase 1 (GLS1) is the rate-limiting enzyme of glutaminolysis and has been reported to control intracellular Gln content. However, its function on regulating autophagy in mycobacterium infected macrophage is still obscure. Hence, the current study hired mycobacterium virulent strain H37Rv or attenuated strain BCG to infect macrophage and detected the changes in cell glutaminolysis. The function of GLS1 on regulating autophagy in mycobacterium infected macrophages was further investigated. The results showed that BCG infection promoted macrophage autophagy, enhanced glutaminolysis, reduced intracellular Gln content, accompanied with the up-regulation of GLS1. Conversely, H37Rv infection resulted in completely opposite effects. Meanwhile, knockdown of GLS1 increased Gln content and attenuated autophagy in BCG infected macrophages. In addition, the deprivation of Gln not only promoted the autophagy of H37Rv infected macrophages, but also abolished the effect of knockdown GLS1 on regulating BCG infection-induced mTOR activation or autophagy. To sum up, our study suggested that different virulent strains of mycobacterium infection have totally opposite effects on glutaminolysis and the expression of GLS1. Specifically, mycobacterium virulent strain reduced GLS1 expression and decreased Gln content but mycobacterium attenuated strain promoted GLS1 expression and enhanced Gln content. Furthermore, GLS1 inhibits the activation of the mTOR signaling pathway and promotes autophagy by decreasing Gln content.

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分枝杆菌操纵谷氨酰胺酶 1 介导的谷氨酰胺溶解来调节巨噬细胞的自噬，从而使细菌在细胞内存活。

自噬在消除细胞内分枝杆菌方面发挥着重要作用。它受到包括谷氨酰胺分解在内的多种代谢过程的调控。谷氨酰胺酶 1（GLS1）是谷氨酰胺分解的限速酶，有报道称它能控制细胞内 Gln 的含量。然而，它在分枝杆菌感染的巨噬细胞中调节自噬的功能仍不明确。因此，本研究采用分枝杆菌毒株H37Rv或减毒株卡介苗感染巨噬细胞，并检测细胞谷氨酰胺溶解的变化。研究还进一步探讨了GLS1在分枝杆菌感染巨噬细胞中调控自噬的功能。结果表明，卡介苗感染促进巨噬细胞自噬，增强谷氨酰胺溶解，减少细胞内Gln含量，同时伴随着GLS1的上调。相反，H37Rv感染则产生了完全相反的效果。同时，在卡介苗感染的巨噬细胞中，敲除 GLS1 会增加 Gln 含量并减弱自噬作用。此外，Gln的缺失不仅促进了H37Rv感染巨噬细胞的自噬，而且还取消了敲除GLS1对卡介苗感染诱导的mTOR激活或自噬的调节作用。综上所述，我们的研究表明，分枝杆菌感染的不同毒株对谷氨酰胺溶解和GLS1的表达具有完全相反的影响。具体来说，分枝杆菌毒株降低了 GLS1 的表达，减少了 Gln 的含量，而分枝杆菌减毒株则促进了 GLS1 的表达，提高了 Gln 的含量。此外，GLS1 还能抑制 mTOR 信号通路的激活，并通过降低 Gln 含量促进自噬。

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来源期刊

Cellular signalling 生物-细胞生物学

CiteScore

8.40

自引率

0.00%

发文量

250

审稿时长

27 days

期刊介绍： Cellular Signalling publishes original research describing fundamental and clinical findings on the mechanisms, actions and structural components of cellular signalling systems in vitro and in vivo. Cellular Signalling aims at full length research papers defining signalling systems ranging from microorganisms to cells, tissues and higher organisms.