Drosophila TMEM63 and mouse TMEM63A are lysosomal mechanosensory ion channels.
Kai LiYanmeng GuoYayu WangRuijun ZhuWei ChenTong ChengXiaofan ZhangYinjun JiaTing LiuWei ZhangLily Yeh JanYuh Nung JanPublished in: Nature cell biology (2024)
Cells sense physical forces and convert them into electrical or chemical signals, a process known as mechanotransduction. Whereas extensive studies focus on mechanotransduction at the plasma membrane, little is known about whether and how intracellular organelles sense mechanical force and the physiological functions of organellar mechanosensing. Here we identify the Drosophila TMEM63 (DmTMEM63) ion channel as an intrinsic mechanosensor of the lysosome, a major degradative organelle. Endogenous DmTMEM63 proteins localize to lysosomes, mediate lysosomal mechanosensitivity and modulate lysosomal morphology and function. Tmem63 mutant flies exhibit impaired lysosomal degradation, synaptic loss, progressive motor deficits and early death, with some of these mutant phenotypes recapitulating symptoms of TMEM63-associated human diseases. Importantly, mouse TMEM63A mediates lysosomal mechanosensitivity in Neuro-2a cells, indicative of functional conservation in mammals. Our findings reveal DmTMEM63 channel function in lysosomes and its physiological roles in vivo and provide a molecular basis to explore the mechanosensitive process in subcellular organelles.
Keyphrases
- induced apoptosis
- cell cycle arrest
- endothelial cells
- multiple sclerosis
- traumatic brain injury
- endoplasmic reticulum stress
- mental health
- oxidative stress
- single molecule
- cell death
- wild type
- depressive symptoms
- single cell
- signaling pathway
- dna methylation
- cell proliferation
- sleep quality
- living cells
- pluripotent stem cells
- drosophila melanogaster