Abstract
TRPM2 is a Ca(2+)-permeable channel that is activated by oxidative stress and confers susceptibility to cell death. Here, an isoform of TRPM2 was identified in normal human bone marrow that consists of the TRPM2 N terminus and the first two predicted transmembrane domains. Because of alternative splicing, a stop codon (TAG) is located at the splice junction between exons 16 and 17, resulting in deletion of the four C-terminal transmembrane domains, the putative calcium-permeable pore region, and the entire C terminus. This splice variant was found in other hematopoietic cells including human burst forming unit-erythroid-derived erythroblasts and TF-1 erythroleukemia cells. Endogenous expression of both the short form of TRPM2 (TRPM2-S) and the full length (TRPM2-L) was determined by reverse transcriptase-PCR, and localization of endogenous TRPM2 to the plasma membrane was demonstrated by confocal microscopy. Heterologous expression of TRPM2-S in HEK 293T cells demonstrated similar membrane localization as TRPM2-L, and coexpression of TRPM2-S did not alter the subcellular localization of TRPM2-L. The direct interaction of TRPM2-S with TRPM2-L was demonstrated with immunoprecipitation. H(2)O(2) induced calcium influx through TRPM2-L expressed in 293T cells. Coexpression of TRPM2-S suppressed H(2)O(2)-induced calcium influx through TRPM2-L. Furthermore, expression of TRPM2-S inhibited susceptibility to cell death and onset of apoptosis induced by H(2)O(2) in cells expressing TRPM2-L. These data demonstrate that TRPM2-S is an important physiologic isoform of TRPM2 and modulates channel activity and induction of cell death by oxidative stress through TRPM2-L.
Highlights
Regulation of the intracellular calcium concentration [Ca2ϩ]i is of critical importance in determination of cell fate
No TRPM2 bands were observed when PCR was performed without the reverse transcriptase step, demonstrating that these products did not result from contaminating DNA
We demonstrated that expression of TRPM2-S inhibits calcium influx, enhances cell viability, and reduces apoptosis and cell death, which occur following exposure of full-length TRPM2expressing cells to H2O2
Summary
Suppression of endogenous TRPM2 expression in rat insulinoma RIN-5F or monocyte U937 cells resulted in significantly diminished Ca2ϩ influx and cell death induced by H2O2 or tumor necrosis factor ␣ [3]. These data strongly support the physiologic role of TRPM2 as an endogenous H2O2-activated calcium-permeable channel that mediates cell death following oxidative stress. The short form of TRPM2 inhibited susceptibility to cell death induced by H2O2 through full-length TRPM2 These data suggest that the interaction between TRPM2-S and TRPM2-L is an important mechanism for regulating channel activity as well as the cellular response to oxidative stress
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