Ion Channel Regulation in Caveolae and Its Pathological Implications.

Caveolae are distinctive, flask-shaped structures within the cell membrane that play critical roles in cellular signal transduction, ion homeostasis, and mechanosensation. These structures are composed of the caveolin protein family and are enriched in cholesterol and sphingolipids, creating a unique lipid microdomain. Caveolae contribute to the functional regulation of various ion channels through both physical interactions and involvement in complex signaling networks. Ion channels localized within caveolae are involved in critical cellular processes such as the generation and propagation of action potentials, cellular responses to mechanical forces, and regulation of metabolism. Dysregulation of caveolae function has been linked to the development of various diseases, including cardiovascular disorders, neurodegenerative diseases, metabolic syndrome, and cancer. This review summarizes the ion channel function and regulation in caveolae, and their pathological implications, offering new insights into their potential as therapeutic targets for ion channel-related diseases.