RESUMO
Agonist-triggered downregulation of ß-adrenergic receptors (ARs) constitutes vital negative feedback to prevent cellular overexcitation. Here, we report a novel downregulation of ß2AR signaling highly specific for Cav1.2. We find that ß2-AR binding to Cav1.2 residues 1923-1942 is required for ß-adrenergic regulation of Cav1.2. Despite the prominence of PKA-mediated phosphorylation of Cav1.2 S1928 within the newly identified ß2AR binding site, its physiological function has so far escaped identification. We show that phosphorylation of S1928 displaces the ß2AR from Cav1.2 upon ß-adrenergic stimulation rendering Cav1.2 refractory for several minutes from further ß-adrenergic stimulation. This effect is lost in S1928A knock-in mice. Although AMPARs are clustered at postsynaptic sites like Cav1.2, ß2AR association with and regulation of AMPARs do not show such dissociation. Accordingly, displacement of the ß2AR from Cav1.2 is a uniquely specific desensitization mechanism of Cav1.2 regulation by highly localized ß2AR/cAMP/PKA/S1928 signaling. The physiological implications of this mechanism are underscored by our finding that LTP induced by prolonged theta tetanus (PTT-LTP) depends on Cav1.2 and its regulation by channel-associated ß2AR.
Assuntos
Canais de Cálcio Tipo L/metabolismo , Processamento de Proteína Pós-Traducional , Receptores Adrenérgicos beta 2/metabolismo , Animais , Camundongos , FosforilaçãoRESUMO
A 35-mer polypeptide isolated from the hemolymph of desert locust Schistocerca gregaria (SG) proved to be a canonical inhibitor of bovine trypsin (K(i) = 0.2 microM). Despite having a trypsin-specific arginine at the primary specificity P(1) site, it inhibits bovine chymotrypsin almost as well (K(i) = 2 microM). Furthermore, while the latter reactivity improves 10(4)-fold by the single replacement of P(1) Arg by Leu, changing P(1)' from Lys to Met only moderately improves trypsin affinity (K(i) = 30 nM). The apparent low compatibility to trypsin, however, is not observed vs two arthropodal trypsins: SG peptides with P(1) Arg inhibit crayfish and shrimp trypsins with K(i) values in the picomolar range. This unprecedented high discrimination between orthologous enzymes is postulated to derive from flexibility differences in the protein-protein interaction. The more than four orders of magnitude phylum selectivity makes these peptides prospective candidates for agricultural use.