The role of Aquaporin-4 in T cell activation

Abstract

Abstract Aquaporins (AQPs) are membrane channels that mediate a variety of biological processes via water and other small molecule movement. Several aquaglyceroporins have been shown to regulate key immune functions. However, the role of AQP4 in immune cells is poorly characterized. We recently reported that AQP4 is expressed by both naïve and memory CD4 and CD8 T cells. Furthermore, AQP4 blockade with a small molecule inhibitor, AER-270, reduced T cell activation and proliferation leading to a significant prolongation of fully MHC-mismatched murine heart allograft survival. The goal of this study was to determine the mechanisms by which AQP4 facilitates T cell activation and TCR signaling. Wild-type (WT) but not AQP4−/− T cells treated with AER-270 were protected from lysis in a hypoosmotic shock assay demonstrating AQP4 requirement for water transport in T cells. Following αCD3/αCD28 stimulation, AQP4−/− T cells demonstrated inferior activation compared to WT T cells. Similar decreased activation was observed after treatment of WT T cells with AER-270. Consistent with reduced T cell activation, AQP4 inhibition diminished Ca2+flux in WT but not AQP4−/− T cells in response to TCR crosslinking. AQP4 inhibition also resulted in altered pattern of protein tyrosine phosphorylation at 2 min following TCR crosslinking. These results indicate that despite T cell expression of several water channels, AQP4 function is critical for optimal T cell activation and functions. Our study identifies a novel role of water channels in T cell biology and suggests AQP4 inhibition as a promising strategy to modulate T cell alloresponses following transplantation.