Modulating lysosomal pH: a molecular and nanoscale materials design perspective.

Jialiu Zeng, Orian S Shirihai, Mark W Grinstaff
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Abstract

Lysosomes, membrane-bound organelles, play important roles in cellular processes including endocytosis, phagocytosis, and autophagy. Lysosomes maintain cellular homeostasis by generating a highly acidic environment of pH 4.5 - 5.0 and by housing hydrolytic enzymes that degrade engulfed biomolecules. Impairment of lysosomal function, especially in its acidification, is a driving force in the pathogenesis of diseases including neurodegeneration, cancer, metabolic disorders, and infectious diseases. Therefore, lysosomal pH is an attractive and targetable site for therapeutic intervention. Currently, there is a dearth of strategies or materials available to specifically modulate lysosomal acidification. This review focuses on the key aspects of how lysosomal pH is implicated in various diseases and discusses design strategies and molecular or nanoscale agents for lysosomal pH modulation, with the ultimate goal of developing novel therapeutic solutions.

调节溶酶体 pH 值:分子和纳米级材料设计视角。
溶酶体是一种膜结合细胞器,在内吞、吞噬和自噬等细胞过程中发挥着重要作用。溶酶体通过产生 pH 值为 4.5 - 5.0 的高酸性环境和容纳降解被吞噬生物大分子的水解酶来维持细胞的平衡。溶酶体功能受损,特别是其酸化,是神经变性、癌症、代谢紊乱和传染病等疾病发病机制的驱动力。因此,溶酶体 pH 值是一个具有吸引力的治疗干预靶点。目前,还缺乏专门调节溶酶体酸化的策略或材料。本综述将重点介绍溶酶体 pH 与各种疾病的关系,并讨论溶酶体 pH 调节的设计策略和分子或纳米级制剂,最终目标是开发新型治疗方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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