TBK1-SCFFBXO3-TMEM192-TAX1BP1轴：一个新的Lysophagy调控机制。

Autophagy Pub Date : 2025-03-24 DOI:10.1080/15548627.2025.2479669

Na Yeon Park, Dong-Hyung Cho

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引用次数: 0

摘要

溶噬是对受损溶酶体的选择性巨噬/自噬清除，是维持细胞稳态的关键机制。我们最近的研究发现了一个涉及TBK1、SCFFBXO3、TMEM192和TAX1BP1的新的调控轴，它协调溶酶体损伤后的溶噬通量。我们证明了tbk1依赖性的FBXO3磷酸化促进了它与TMEM192的相互作用，促进其泛素化并随后被自噬受体TAX1BP1识别。干扰这一途径可显著减少溶噬通量，并导致受损溶酶体的积累。这些发现在泛素化、受体募集和溶酶体降解之间建立了以前未被认识的机制联系，拓宽了我们对溶酶体质量控制的理解。

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The TBK1-SCF^FBXO3-TMEM192-TAX1BP1 axis: a novel regulatory mechanism for lysophagy.

Lysophagy, the selective macroautophagic/autophagic clearance of damaged lysosomes, is a critical mechanism for maintaining cellular homeostasis. Our recent study identified a novel regulatory axis involving TBK1, SCF^FBXO3, TMEM192, and TAX1BP1 that orchestrates lysophagic flux following lysosomal damage. We demonstrated that TBK1-dependent phosphorylation of FBXO3 facilitates its interaction with TMEM192, promoting its ubiquitination and subsequent recognition by the autophagy receptor TAX1BP1. Perturbing this pathway significantly reduces lysophagic flux and results in accumulation of damaged lysosomes. These findings establish a previously unrecognized mechanistic link between ubiquitination, receptor recruitment, and lysophagic degradation, broadening our understanding of lysosomal quality control.

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Autophagy

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