Protein kinase A catalytic-? and catalytic-? proteins have nonredundant regulatory functions.
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ABSTRACT: Vasopressin regulates osmotic water transport in the renal collecting duct by protein kinase A (PKA)-mediated control of the water channel aquaporin-2 (AQP2). Collecting duct principal cells express two seemingly redundant PKA catalytic subunits, PKA catalytic ? (PKA-C?) and PKA catalytic ? (PKA-C?). To identify the roles of these two protein kinases, we carried out deep phosphoproteomic analysis in cultured mpkCCD cells in which either PKA-C? or PKA-C? was deleted using CRISPR-Cas9-based genome editing. Controls were cells carried through the genome editing procedure but without deletion of PKA. TMT mass tagging was used for protein mass spectrometric quantification. Of the 4,635 phosphopeptides that were quantified, 67 phosphopeptides were significantly altered in abundance with PKA-C? deletion, whereas 21 phosphopeptides were significantly altered in abundance with PKA-C? deletion. However, only four sites were changed in both. The target proteins identified in PKA-C?-null cells were largely associated with cell membranes and membrane vesicles, whereas target proteins in PKA-C?-null cells were largely associated with the actin cytoskeleton and cell junctions. In contrast, in vitro incubation of mpkCCD proteins with recombinant PKA-C? and PKA-C? resulted in virtually identical phosphorylation changes. In addition, analysis of total protein abundances in in vivo samples showed that PKA-C? deletion resulted in a near disappearance of AQP2 protein, whereas PKA-C? deletion did not decrease AQP2 abundance. We conclude that PKA-C? and PKA-C? serve substantially different regulatory functions in renal collecting duct cells and that differences in phosphorylation targets may be due to differences in protein interactions, e.g., mediated by A-kinase anchor proteins, C-kinase anchoring proteins, or PDZ binding.
SUBMITTER: Raghuram V
PROVIDER: S-EPMC7789987 | biostudies-literature | 2020 Nov
REPOSITORIES: biostudies-literature
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