| Abstract: | The parotid gland of the aged rat provides an example of an altered alpha 1-adrenergic physiologic response (K+ efflux) resulting from a postreceptor perturbation in signal transduction mechanisms (Ito, H., Baum, B. J., Uchida, T., Hoopes, M. T., Bodner, L. & Roth, G. S. (1982) J. Biol. Chem. 257, 9532-9538). This alteration in gland function can be completely circumvented by eliciting K+ efflux via the Ca2+-ionophore, A23187, at several Ca2+ concentrations (ibid.). Since Ca2+ is purported to mediate other secretory events in the rat parotid, we have probed neurotransmitter regulated Ca2+ mobilization and secretory mechanisms in this tissue by employing an aging paradigm. The responses studied were alpha-adrenergic- and muscarinic-cholinergic-mediated K+ efflux, 45Ca2+ release, and amylase secretion. No differences were detected between young (3 months) and old (24 months) cell preparations for any muscarinic-cholinergic agonist-induced response studied. Following alpha-adrenergic stimulation, K+ efflux and 45Ca2+ release from old cell preparations were reduced markedly, while no changes were found for the amylase secretion response. These results suggest that 1) alpha-adrenergic and cholinergic signal transduction mechanisms for K+ efflux and 45Ca2+ release are dissociated in cells of the rat parotid gland, and 2) following alpha 1-adrenergic stimulation, signal transduction likely proceeds by at least two pathways, one which is apparently involved in protein excytosis (intact in cells from old rats) and the other which is apparently involved in K+ efflux and 45Ca2+ release (perturbed in old cells). |
