TY - JOUR T1 - The Catecholamine Release-Inhibitory “Catestatin” Fragment of Chromogranin A: Naturally Occurring Human Variants with Different Potencies for Multiple Chromaffin Cell Nicotinic Cholinergic Responses JF - Molecular Pharmacology JO - Mol Pharmacol SP - 1180 LP - 1191 DO - 10.1124/mol.104.002139 VL - 66 IS - 5 AU - Sushil K. Mahata AU - Manjula Mahata AU - Gen Wen AU - William B. Wong AU - Nitish R. Mahapatra AU - Bruce A. Hamilton AU - Daniel T. O'Connor Y1 - 2004/11/01 UR - http://molpharm.aspetjournals.org/content/66/5/1180.abstract N2 - The catestatin fragment of chromogranin A is an endogenous inhibitor of nicotinic cholinergic transmission, functioning in negative feedback control of catecholamine secretion. We explored naturally occurring polymorphisms in the amino acid sequence of catestatin. Three human variants were identified: Gly364Ser, Pro370Leu, and Arg374Gln. Variants were tested for ability to inhibit four nicotinic processes. The rank order of potency for inhibition of catecholamine secretion was Pro370Leu > wild type > Gly364Ser > Arg374Gln. Decrease in potency was paralleled by decline in Hill slope, suggesting that negative cooperativity at ascending dose might underlie loss of potency. Several lines of evidence indicated that each variant acted as a nicotinic antagonist: potency to inhibit secretion paralleled inhibition of agonist-triggered 22Na+ uptake (r = 0.986); variants inhibited secretion with similar potency when triggered by several nicotinic agonists, though not by agents using other secretory pathways or bypassing the nicotinic receptor; and blockade of secretion was noncompetitive with agonist. Variants also inhibited desensitization of secretion after prior agonist exposure and stimulation of secretory protein biosynthesis by agonist. Rank order of variant inhibitory potency for all four nicotinic processes was identical (Pro370Leu > wild type > Gly364Ser > Arg374Gln), suggesting mediation by similar combinations of receptor α/β subunits and that crucial catestatin residues are likely to be identical across the four processes. When catestatin variants were mixed in likely heterozygotic (1:1 M ratio) combinations, the inhibitory curve was left-shifted onto that of the more potent variant in the combination, suggesting phenotypic dominance. The results have quantitative implications for interindividual variations in human nicotinic signaling. ER -