The Journal of biological chemistry
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Downstream regulation of the cAMP-dependent protein kinase (PKA) pathway is mediated by anchoring proteins (AKAPs) that sequester PKA to specific subcellular locations through binding to PKA regulatory subunits (RI or RII). The RII-binding domain of all AKAPs forms an amphipathic alpha-helix with similar secondary structure. However, the importance of sequence differences in the RII-binding domains of different AKAPs is unknown, and mechanisms that regulate AKAP-PKA affinity are not clearly defined. ⋯ Furthermore, RII autophosphorylation may provide additional localized regulation of kinase anchoring. In cardiac myocytes, disruption of RII-AKAP interaction decreased PKA phosphorylation of the PKA substrate, myosin-binding protein C. Thus, these mechanisms may be involved in adding additional specificity in intracellular signaling in diverse cell types and under conditions of cAMP/PKA activation.
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Renal microsomal cytochrome P-450 monooxygenase-dependent metabolism of arachidonic acid generates a series of regioisomeric epoxyeicosatrienoic acids that can be further metabolized by soluble epoxide hydrolase to the corresponding dihydroxyeicosatrienoic acids. Evidence exists that these metabolites affect renal function and, in particular, blood pressure regulation. To examine this possibility, blood pressure and renal arachidonic acid metabolism were examined in mice with a targeted disruption of the soluble epoxide hydrolase gene. ⋯ Renal formation of epoxyeicosatrienoic and dihydroxyeicosatrienoic acids was markedly lower for soluble epoxide hydrolase-null versus wild-type mice of both sexes. Although disruption of soluble epoxide hydrolase in female mice had minimal effects on blood pressure, deletion of this gene feminized male mice by lowering systolic blood pressure and altering arachidonic acid metabolism. These data provide the first direct evidence for a role for soluble epoxide hydrolase in blood pressure regulation and identify this enzyme as a novel and attractive target for therapeutic intervention in hypertension.
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The TonE/TonEBP pathway mediates tonicity-responsive regulation of UT-A urea transporter expression.
The rat renal urea transporter UT-A includes four isoforms. UT-A1, UT-A3, and UT-A4 are transcribed from a single initiation site at the 5'-end of the gene; a distinct internal initiation site is used for UT-A2 transcription. We cloned 1.3 kilobases (kb) of the 5'-flanking region upstream of the transcription start site of UT-A1, UT-A3, and UT-A4. ⋯ A supershift in the mobility of the DNA-protein complex was observed with antiserum targeted to the TonE-binding protein (TonEBP). Co-transfection with dominant-negative TonEBP abolished the luciferase activity induced by the UT-A 1.3-kb construct under hypertonic and isotonic conditions. These data suggest that the TonE/TonEBP pathway mediates tonicity-responsive transcriptional regulation of UT-A1, UT-A3, and UT-A4 expression.