Somatostatin-dependent adenylyl cyclase activity in nonactivated and mitogen-activated human T cells: evidence for uncoupling of sst3 receptor from adenylyl cyclase.

Neuropeptide somatostatin (SRIF) has been shown to modulate interleukin-2 (IL-2) secretion by mitogen-activated T cells. In this study, we further analyzed the transduction pathways underlying SRIF actions on human Jurkat T cells and compared SRIF signaling between nonactivated and mitogen-activated cells. SRIF effects on adenylyl cyclase activity in the absence and presence of mitogens were addressed by using three different analogs: SRIF14, SRIF28, and SMS 201-995. In semipurified membrane preparations obtained from nonactivated cells, all analogs inhibited adenylyl cyclase. However, in membrane preparations obtained from mitogen-activated cells, the maximal inhibition of adenylyl cyclase mediated by SRIF14 and SRIF28 equaled only one third of that measured in the absence of mitogens, whereas SMS 201-995 was completely inactive. To assess the relevant mechanisms associated with different effects of SRIF on adenylyl cyclase activity in nonactivated and mitogen-activated T cells, we performed binding assays by using iodinated SRIF as a radioligand. These experiments suggested that both the number of receptors and their affinities were almost identical in either nonactivated or activated cells. RT-PCR analysis of the pattern of SRIF receptor expression showed that nonactivated as well as activated Jurkat cells expressed only mRNA corresponding to the sst3 receptor subtype. Altogether, these data point to a functional activation-associated uncoupling of sst3 receptors from adenylyl cyclase in human T cells, indicating a T-cell activation-induced alteration in the sst3 receptor transduction pathway.

Somatostatin increases mitogen-induced IL-2 secretion and proliferation of human Jurkat T cells via sst3 receptor isotype.

The neuropeptide somatostatin (SRIF) modulates normal and leukemia T cell proliferation. However, neither molecular isotypes of receptors nor mechanisms involved in these somatostatin actions have been elucidated as yet. Here we show by using RT-PCR approach that mitogen-activated leukemia T cells (Jurkat) express mRNA for a single somatostatin receptor, sst3. This mRNA is apparently translated into protein since specific somatostatin binding sites (K11 = 78 +/- 3 pM) were detected in semipurified plasma membrane preparations by using 125I-Tyr1-SRIF14 as a radioligand. Moreover, somatostatin inhibits adenylyl cyclase activity with similar efficiency (IC50 = 23 +/- 4 pM) thus strongly suggesting a functional coupling of sst3 receptor to this transduction pathway. The involvement of sst3 receptor in immuno-modulatory actions of somatostatin was assessed by analysis of neuropeptide effects on IL-2 secretion and on proliferation of mitogen-activated Jurkat cells. Our data show that in the concentrations comprised between 10 pM and 10 nM, somatostatin potentiates IL-2 secretion. This effect is correlated with somatostatin-dependent increase of Jurkat cell proliferation since the EC50 concentrations for both actions were almost identical (EC50 = 22 +/- 9 pM and EC50 = 12 +/- 1 pM for IL-2 secretion and proliferation, respectively). Altogether, these data strongly suggest that in mitogen-activated Jurkat cells, somatostatin increases cell proliferation through the increase of IL-2 secretion via a functional sst3 receptor negatively coupled to the adenylyl cyclase pathway.