Novel Na+-Selective Channels In The Lysosome

Lysosomes, traditionally believed to be the terminal “recycle center” for biological “garbage”, are now known to play indispensable roles in membrane trafficking and intracellular signaling pathways. The multiple functions require the establishment of lysosomal acidic lumen, and this pH regulation has been shown to be tightly coupled with ionic (H+, Ca2+, Mg2+, Na+, K+, and Cl−) flux/homeostasis of the lysosome. Moreover, recent studies have suggested that the ion fluxes may directly regulate lysosomal dynamics. PI(3,5)P2 is an endolysosome-specific phosphoinositide that regulates ion homeostasis and membrane trafficking of endolysosomes via poorly understood mechanisms; human mutations of PI(3,5)P2-metabolizing enzymes cause muscle and neurodegenerative diseases. Here we measure that sodium is the predominant cation in the lysosome using atomic absorption, indicating a large Na+ concentration gradient is present across the lysosomal membrane. By the lysosome patch-clamp technique, we report that PI(3,5)P2 specifically activates two novel Na+-selective channels in the lysosome. Their identification provides insight into divalent cation selectivity, as well as to the mechanisms used by membranous lipids to directly regulate ion flux resulting in rapid changes in membrane potential and the fusogenic potential of intracellular organelles. We are currently investigating their physiological functions in detail.