The rat pancreatic β-cell expresses two splice variants of the Na+/Ca2+ exchanger 1 (NCX1) and six splice variants of the plasma membrane Ca2+-ATPase (PMCA). In the β-cell, Na +/Ca2+ exchange displays a high capacity, contributes to both Ca2+ outflow and influx and participates to the control of insulin release. Gain of function studies show that overexpression of NCX1 or PMCA2 leads to endoplasmic reticulum (ER) Ca2+ depletion with subsequent ER stress, decrease in β-cell proliferation and β-cell death by apoptosis. Interestingly, chronic exposure to cytokines or high free fatty acids concentration also induces ER Ca2+ depletion and β-cell death in diabetes. Loss of function studies shows, on the contrary, that heterozygous inactivation of NCX1 (Ncx1 +/- ) leads to an increase in β-cell function (insulin production and release) and a fivefold increase in both β-cell mass and proliferation. The mutation also increases β-cell resistance to hypoxia, and Ncx1 +/- islets show a four to seven times higher rate of diabetes cure than Ncx1 +/+ islets when transplanted in diabetic animals. Thus, downregulation of the Na+/Ca2+ exchanger leads to various changes in β-cell function that are opposite to the major abnormalities seen in diabetes. In addition, the β-cell, which is an excitable cell, includes the mutually exclusive exon B in the alternative splicing region of NCX1, which confers a high sensitivity of its NCX splice variants (NCX1.3 & 1.7) to the inhibitory action of compounds like KB-R7943. This provides a unique model for the prevention and treatment of β-cell dysfunction in diabetes and following islet transplantation. © Springer Science+Business Media New York 2013.
CITATION STYLE
Herchuelz, A., Nguidjoe, E., Jiang, L., & Pachera, N. (2013). Na+/Ca2+ exchange and the plasma membrane Ca 2+-ATPase in β-cell function and diabetes. In Advances in Experimental Medicine and Biology (Vol. 961, pp. 385–394). Springer Science and Business Media, LLC. https://doi.org/10.1007/978-1-4614-4756-6_33
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