TCR-mediated hyper-responsiveness of autoimmune Galphai2(-/-) mice is an intrinsic naïve CD4(+) T cell disorder selective for the Galphai2 subunit.

Heterotrimeric Gi signaling regulates immune homeostasis, since autoimmunity occurs upon disruption of this pathway. However, the role of the lymphocyte-expressed Galphai subunits (Galphai2 and 3) on T cell activation and cytokine production is poorly understood. To examine this role, we studied T lymphocytes from mice deficient in the Galphai2 or Galphai3 subunits. Galphai2(-/-) but not Galphai3(-/-) splenocytes were hyper-responsive for IFN-gamma and IL-4 production following activation through the TCR. Galphai2(-/-) T cells had a relaxed costimulatory requirement for IL-2 secretion and proliferation compared to wild-type cells. Purified naïve Galphai2(-/-) T cells produced more IL-2 than naïve wild-type T cells following TCR activation, indicating that the hyper-responsive cytokine profile was not due to the expanded Galphai2(-/-) memory T cells, but involved an intrinsic T cell alteration. Cytokine hyper-responsiveness was not seen when purified Galphai2(-/-) T cells were stimulated with phorbol myristic acetate/ionomycin, localizing the alteration to a proximal TCR-specific signaling pathway. Galphai2(-/-) CD4(+) T cells were distinguished from wild-type or Galphai3(-/-) T cells by a globally augmented TCR-induced calcium response. These findings indicate that Galphai2(-/-) mice have an intrinsic CD4(+) T cell abnormality in TCR signaling which may be one cause of augmented T cell effector function and Galphai2(-/-) autoimmune susceptibility.

Receptor subtypes: species variations in secretin affect potency for pancreatic but not gastric secretion.

INTRODUCTION: Receptor subtypes can be distinguished by different actions of agonists on physiologic responses. In this study, we compared effects of four species variants of secretin (rat, porcine, canine, and human) on pancreatic secretion and gastrin-induced acid secretion in urethane-anesthetized rats. These secretins differ by one to three residues in position 14, 15, or 16 and were used to probe for the presence of different secretin receptor subtypes in the rat. METHODOLOGY: Pancreatic responses were measured in a two-point parallel line bioassay with porcine secretin (3 and 30 pmol/kg IV bolus) as standard. Inhibition of gastric acid secretion by each secretin (100 pmol/[kg x h]) was quantitated against a threshold dosage of gastrin-17 (200 pmol/[kg x h]), and percent inhibition of incremental acid responses was determined. RESULTS: Rat secretin was significantly more potent than other secretins for pancreatic secretion, in the order of rat > porcine > canine > human. The four secretins significantly inhibited gastrin-induced acid secretion by 37% to 49%, with no statistically significant differences among the forms. CONCLUSIONS: Stimulation of pancreatic secretion was influenced by species variations in secretin structure, but inhibition of gastric acid secretion was not. This finding suggests that secretin receptor subtypes with different recognition patterns mediate these responses.