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The research aims to uncover the regulatory mechanisms involved in lysosomal regeneration and their implications for various physiological processes and diseases.

April 15, 2026Open Access

Lysosomal dynamics in cellular remodeling and disease

Key Points

The research aims to uncover the regulatory mechanisms involved in lysosomal regeneration and their implications for various physiological processes and diseases.
Analyzed lysosomal dynamics in response to metabolic and developmental signals.
Investigated the role of phospholipids in lysosomal morphology changes.
Examined the functions of molecular machinery involved in lysosomal regulation.
Lysosomes show significant heterogeneity and form dynamic structures for regeneration.
Phospholipid composition critically regulates lysosomal shape changes.
Dysfunction in lysosomal dynamics is associated with various diseases.

Abstract

溶酶体是细胞的代谢与降解中心。细胞通过不同途径将物质运输至溶酶体，并通过溶酶体水解酶降解底物。溶酶体的消耗损失需要通过新生和再生维持溶酶体数量和功能。机体在响应不同的代谢和发育信号过程中，溶酶体的功能被激活。同时，溶酶体的形态呈高度异质性，形成动态变化的囊泡和管状结构，以促进溶酶体再生。溶酶体再生通过溶酶体出芽、延伸和分裂过程，产生功能成熟的溶酶体以维持溶酶体数量。溶酶体膜中的不同磷脂是溶酶体形变的核心调节原件。溶酶体动态调控的分子机器包括部分磷脂代谢酶、磷脂互作蛋白和细胞骨架等，其功能异常与人体疾病密切相关。因此，揭示溶酶体再生的调节机制对我们理解特定生理过程和疾病致病机制研究有重要意义。

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Authors

Hongsheng Tan

Xiaomeng Yin

Ruoxi Wang

Journals

Scientia Sinica Vitae

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Institutions

Southern University of Science and Technology

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Lysosomal dynamics in cellular remodeling and disease

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Abstract

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