ß2-Adrenergic Stimulation Compartmentalizes ß1 Signaling Into Nanoscale Local Domains by Targeting the C-Terminus of ß1-Adrenoceptors.

RATIONALE: ßARs (ß-adrenergic receptors) are prototypical GPCRs (G protein-coupled receptors) that play a pivotal role in sympathetic regulation. In heart cells, ß1AR signaling mediates a global response, including both l-type Ca2+ channels in the sarcolemma/T tubules and RyRs (ryanodine receptors) in the SR (sarcoplasmic reticulum). In contrast, ß2AR mediates local signaling with little effect on the function of SR proteins. OBJECTIVE: To investigate the signaling relationship between ß1ARs and ß2ARs. METHOD AND RESULTS: Using whole-cell patch-clamp analyses combined with confocal Ca2+ imaging, we found that the activation of compartmentalized ß2AR signaling was able to convert the ß1AR signaling from global to local mode, preventing ß1ARs from phosphorylating RyRs that were only nanometers away from sarcolemma/T tubules. This offside compartmentalization was eliminated by selective inhibition of ß2AR, GRK2 (GPCR kinase-2), ßarr1 (ß-arrestin-1), and phosphodiesterase-4. A knockin rat model harboring mutations of the last 3 serine residues of the ß1AR C terminus, a component of the putative ßarr1 binding site and GRK2 phosphorylation site, eliminated the offside compartmentalization conferred by ß2AR activation. CONCLUSIONS: ß2AR stimulation compartmentalizes ß1AR signaling into nanoscale local domains in a phosphodiesterase-4-dependent manner by targeting the C terminus of ß1ARs. This finding reveals a fundamental negative feed-forward mechanism that serves to avoid the cytotoxicity of circulating catecholamine and to sharpen the transient ß1AR response of sympathetic excitation.