ZNFX1 promotes AMPK-mediated autophagy against Mycobacterium tuberculosis by stabilizing mRNA

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  • 作者:Honglin Liu, Zhenyu Han, Liru Chen, Jing Zhang, Zhanqing Zhang, Yaoxin Chen, Feichang Liu, Ke Wang, Jieyu Liu, Na Sai, Xinying Zhou, Chaoying Zhou, Shengfeng Hu, Qian Wen, Li Ma
  • 期刊:JCI Insight
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Tuberculosis, a chronic infectious disease caused by a single pathogen, holds the highest mortality rate worldwide. RNA-binding proteins (RBPs) are involved in autophagy — a key defense mechanism against Mycobacterium tuberculosis (Mtb) infection — by modulating RNA stability and forming intricate regulatory networks. However, the functions of host RBPs during Mtb infection remain relatively unexplored. ZNFX1, a conserved RBP critically involved in immune deficiency diseases and mycobacterial infections, is significantly upregulated in Mtb-infected macrophages. Here, we aimed to explore the immune regulatory functions of ZNFX1 during Mtb infection. We observed that Znfx1 knockout markedly compromised the multifaceted immune responses mediated by macrophages. This compromise resulted in reduced phagocytosis, suppressed macrophage activation, increased Mtb burden, progressive lung tissue injury, and chronic inflammation in Mtb-infected mice. Mechanistic investigations revealed that the absence of ZNFX1 inhibited autophagy, consequently mediating immune suppression. ZNFX1 critically maintained AMPK-regulated autophagic flux by stabilizing Prkaa2 mRNA, which encodes a key catalytic α subunit of AMPK, through its zinc finger region. This process contributed to Mtb growth suppression. These findings reveal a function of ZNFX1 in establishing anti-Mtb immune responses, enhancing our understanding of the roles of RBPs in tuberculosis immunity and providing a promising approach to bolster anti-tuberculosis immunotherapy.

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