
Beta1-Adrenergic Receptor Cleavage by Trypsin
Fanell Nguema
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<p class="MsoNoSpacing" style="margin:0in 0in 0pt;"> Impactful findings with reverberating consequences – this is what AJP-Heart and Circ Rapid Reports are here for. Listen as Associate Editor Dr. Jonathan Kirk (Loyola University Chicago Stritch School of Medicine) interviews lead author Dr. Susan Steinberg (Columbia University) and expert Dr. Michael Kapiloff (Stanford University) about this novel work by Zhu and Steinberg. More than 20 years ago, Steinberg and collaborators used immunoblot analysis to implicate compartmentalization as a mechanism that imparts beta-adrenergic receptor subtype signaling specificity. Of note, these studies also provided the unexpected observation that the beta1-adrenergic receptor subtype accumulates as both full-length and N-terminally truncated species; in contrast, beta2-adrenergic receptors are expressed exclusively as a single full-length species. The Steinberg laboratory went on to identify the molecular mechanisms that control the maturational processing of the full-length receptor to an N-terminally truncated form (including the role of a member of the matrix metalloproteinase family of enzymes) and the functional importance of this finding. They showed that full-length and N-terminally truncated beta1-adenergic receptors differ in their signaling phenotype; the N-terminally truncated beta1-adenergic receptor plays a unique role to constitutively activate an AKT signaling pathway that is cardioprotective. </p> <p class="MsoNoSpacing" style="margin:0in 0in 0pt;"> </p> <p class="MsoNoSpacing" style="margin:0in 0in 0pt;">This Rapid Report expands upon the previous studies by showing that the beta1-adrenergic receptor is also cleaved by trypsin, an enzyme used in protocols to isolate cardiomyocytes from ventricular tissue. This finding suggests that studies on cardiomyocytes isolated in this manner should be interpreted with caution. In the broader context, the cleavage mechanism that regulates beta1-adrenergic receptor signaling uncovered by Zhu and Steinberg has important cl
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Beta1-Adrenergic Receptor Cleavage by Trypsin
Fanell Nguema