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Cell Volume Regulation in Immune Cell Function, Activation and Survival

Matthew ComoPennsylvania State University, State College, PA, USABhavesh Reddy KoppalaDepartment of Neurology and Pittsburgh Institute for Neurodegenerative Diseases, University of Pittsburgh, Pittsburgh, PA, USAMd Nabiul HasanDepartment of Neurology and Pittsburgh Institute for Neurodegenerative Diseases, University of Pittsburgh, Pittsburgh, PA, USAV. HanShady Side Academy, Pittsburgh, PA, USAIshika AroraShady Side Academy, Pittsburgh, PA, USADandan SunDepartment of Neurology and Pittsburgh Institute for Neurodegenerative Diseases, University of Pittsburgh, Pittsburgh, PA, USA
2021en
ABI

Аннотация

The regulation of cell volume is an essential cellular process in nearly every living organism. The importance of volume regulation in immune cells cannot be understated, as it ensures proper cellular function and effective immune response. These cells utilize ion channels and transporters to maintain volume homeostasis through rapid ion transport across the cell membrane. Immune cells express mechanisms controlling regulatory volume decrease (RVD), regulatory volume increase (RVI), proliferative RVD, and apoptotic volume decrease (AVD). In this review, we summarize recent studies examining the importance of several ion channels, particularly potassium and chloride channels in regulating ion transport during osmotic stress, and in immune cell function, activation, proliferation, and death. We also review the key mechanisms functioning in immune cell proliferation and apoptosis. They serve a crucial role in maintaining adequate ionic concentrations, mediating immune cell activation, and generating proliferative pathways. These regulatory mechanisms play key roles in the function and survival of immune cells, as impaired volume regulation contributes to the pathophysiology of various disorders. A complete understanding of immune cell volume regulatory mechanisms may be a starting point for the development of therapeutic agents targeting these ion channels to treat inflammatory diseases.

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