Parathyroid hormone increases sodium/calcium exchange activity in renal cells and the blunting of the response in aging.

Abstract

Na+-dependent Ca2+ efflux was demonstrated in cells isolated from the rat renal cortex, suggestive of the presence of a Na+/Ca2+ exchange carrier in the cells. Parathyroid hormone, when incubated with the cells in vitro, increased Na+-dependent Ca2+ efflux about 60%. The effect of the hormone was specific for biologically active parathyroid hormone analogs and could be mimicked by cyclic nucleotides and forskolin. The effects of parathyroid hormone concentration on Ca2+ efflux and cyclic AMP formation were similar. These findings would be consistent with the view that the cyclic nucleotide might act as the intracellular messenger to increase Na+/Ca2+ exchange activity. Cells isolated from parathyroidectomized rats had decreased Na+-dependent Ca2+ efflux. When these cells were treated in vitro with parathyroid hormone, Na+-dependent Ca2+ efflux was enhanced to the same rate as found with cells from sham-operated animals. Parathyroid hormone-sensitive Na+/Ca2+ exchange activity was markedly blunted in cells from senescent (24 months) rats. Basal Na+-dependent Ca2+ efflux and Na+-independent Ca2+ efflux were not altered in the aged animal. Parathyroid-stimulated adenylate cyclase was also decreased in aging. In contrast, forskolin-stimulated Na+-dependent Ca2+ efflux and adenylate cyclase did not change with senescence. These findings would be compatible with a mechanism of desensitization that occurred at the level of the receptor or hormone-receptor coupling to adenylate cyclase. These results may be of physiological significance in understanding calcium homeostasis and the imbalances in mineral metabolism associated with old age.