Activation of protein kinase Cα increases phosphorylation of the UT-A1 urea transporter at serine 494 in the inner medullary collecting duct

Blount, Mitsi A.; Cipriani, Penelope; Redd, Sara K.; Ordas, Ronald J.; Black, Lauren N.; Gumina, Diane L.; Hoban, C. A.; Klein, Janet D.; Sands, Jeff M.

doi:10.1152/ajpcell.00171.2014

Cited by 10 publications

(11 citation statements)

References 34 publications

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“…PKC‐α knockout mice have defective urine concentration. [ 41 ] The mechanisms of action of PKC‐α in enhancing urine concentration include: 1) PKC‐α regulates urea permeability, [ 42–44 ] 2) PKC‐α upregulates AQP2 through phosphorylating cyclic adenosine binding protein, which is a transcriptional factor of AQP2, [ 21,22 ] 3) PKC‐α promotes vasopressin‐stimulated AQP2 trafficking via altering microtubule assembly, [ 23 ] 4) PKC decreases phosphorylation of AQP2 at Ser261, [ 24 ] which inversely regulates AQP2 trafficking, [ 45,46 ] and 5) PKC‐α increases phosphorylation of UT‐A1 at Ser494 [ 47 ] and enhances UT‐A1 cell surface expression. [ 25 ] In the present study, both GT and BT infusions increased renal PKC‐α and renal membrane PKC‐α in db/db mice.…”

Section: Discussionmentioning

confidence: 99%

Tea Drinking Alleviates Diabetic Symptoms via Upregulating Renal Water Reabsorption Proteins and Downregulating Renal Gluconeogenic Enzymes in db/db Mice

Zhao

Wang

et al. 2020

Molecular Nutrition Food Res

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Scope: Tea, made from the plant Camellia sinensis, is known to have anti‐diabetes effects and different mechanisms of action are proposed. Kidney is a vital organ in managing water reabsorption and glucose metabolism, and is greatly influenced by diabetes. The present study investigates the effects of tea administration on water reabsorption and gluconeogenesis in the kidney of diabetic mice. Methods and results: Db/db mice are given tea infusion as drinking fluid when they begin to exhibit hyperglycemia. It is found that green tea or black tea infusion potently elevates renal proteins vital for water reabsorption, including protein kinase C‐α, aquaporin 2, and urea transporter‐A1, as well as increases trafficking of these proteins to apical plasma membrane where they exert water reabsorption function. The treatment also downregulates renal gluconeogenic enzymes, including glucose‐6‐phosphatase‐α and phosphoenolpyruvate carboxykinase. Associated with these biochemical changes are the rectified polyuria, polydipsia, polyphagia, and hyperglycemia, all symptoms of diabetes. Conclusions: For the first time, the present study demonstrates that tea has robust effects in enhancing kidney water reabsorption proteins and downregulating gluconeogenic enzymes in db/db mice. It remains to be investigated whether such beneficial effects of tea occur in humans.

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Section: Discussionmentioning

confidence: 99%

Tea Drinking Alleviates Diabetic Symptoms via Upregulating Renal Water Reabsorption Proteins and Downregulating Renal Gluconeogenic Enzymes in db/db Mice

Zhao

Wang

et al. 2020

Molecular Nutrition Food Res

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“…Interestingly, while PKA phosphorylation sites on UT-A1 have been mapped to S486, S499, and S84 (56,89,455), the phosphorylation sites regulated by EPAC appear to be different and are not currently mapped (420). A PKC-dependent, hypertonicity-stimulated UT-A1 phosphorylation at site S494 was recently identified (88). Phosphorylation of S494 was independent of the cAMP pathway as activation of PKA and EPAC was without effect on UT-A1 phosphorylation at S494.…”

Section: Epac and Urea Transporter Ut-a1mentioning

confidence: 99%

Intracellular cAMP Sensor EPAC: Physiology, Pathophysiology, and Therapeutics Development

Robichaux

Cheng

2018

Physiological Reviews

160

226

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This review focuses on one family of the known cAMP receptors, the exchange proteins directly activated by cAMP (EPACs), also known as the cAMP-regulated guanine nucleotide exchange factors (cAMP-GEFs). Although EPAC proteins are fairly new additions to the growing list of cAMP effectors, and relatively "young" in the cAMP discovery timeline, the significance of an EPAC presence in different cell systems is extraordinary. The study of EPACs has considerably expanded the diversity and adaptive nature of cAMP signaling associated with numerous physiological and pathophysiological responses. This review comprehensively covers EPAC protein functions at the molecular, cellular, physiological, and pathophysiological levels; and in turn, the applications of employing EPAC-based biosensors as detection tools for dissecting cAMP signaling and the implications for targeting EPAC proteins for therapeutic development are also discussed.

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“…A recent study used mutagenesis to identify S494 as the PKC phosphorylation site (23) (Figure 2). A polyclonal antibody to phospho-S494-UT-A1 was generated and used to show that activators of PKC, phorbol dibutyrate and hypertonicity, increased UT-A1 phosphorylation at S494 while activators of either PKA or Epac did not (23). Activation of both PKA and PKC, but not PKC alone, increased the apical plasma membrane accumulation of UT-A1 (23).…”

Section: Ut-amentioning

confidence: 99%

“…A polyclonal antibody to phospho-S494-UT-A1 was generated and used to show that activators of PKC, phorbol dibutyrate and hypertonicity, increased UT-A1 phosphorylation at S494 while activators of either PKA or Epac did not (23). Activation of both PKA and PKC, but not PKC alone, increased the apical plasma membrane accumulation of UT-A1 (23). These findings suggest UT-A1 phosphorylation at S494 by PKC may increase vasopressin-stimulated urea transport by enhancing UT-A1 retention in the apical plasma membrane (23).…”

Section: Ut-amentioning

confidence: 99%

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Urea transport and clinical potential of urearetics

Klein

Sands

2016

Current Opinion in Nephrology and Hypertension

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Purpose of review Urea is transported by urea transporter proteins in kidney, erythrocytes, and other tissues. Mice in which different urea transporters have been knocked-out have urine concentrating defects, which has led to the development and testing of UT-A and UT-B inhibitors as urearetics. This review summarizes the knowledge gained during the past year on urea transporter regulation and investigations into the clinical potential of urearetics. Recent findings UT-A1 undergoes several post-translational modifications that increase its function by increasing UT-A1 accumulation in the apical plasma membrane. UT-A1 is phosphorylated by PKA, Epac, PKCα, and AMPK, all at different serine residues. UT-A1 is also regulated by 14-3-3, which contributes to UT-A1 removal from the membrane. UT-A1 is glycosylated with various glycan moieties in animal models of diabetes mellitus. Transgenic expression of UT-A1 into UT-A1/UT-A3 knock-out mice restores urine concentrating ability. UT-B is present in descending vasa recta and urinary bladder, and is linked to bladder cancer. Inhibitors of UT-A and UT-B have been developed that result in diuresis with fewer abnormalities in serum electrolytes than conventional diuretics. Summary Urea transporters play critical roles in the urine concentrating mechanism. Urea transport inhibitors are a promising new class of diuretic agents.

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Activation of protein kinase Cα increases phosphorylation of the UT-A1 urea transporter at serine 494 in the inner medullary collecting duct

Cited by 10 publications

References 34 publications

Tea Drinking Alleviates Diabetic Symptoms via Upregulating Renal Water Reabsorption Proteins and Downregulating Renal Gluconeogenic Enzymes in db/db Mice

Tea Drinking Alleviates Diabetic Symptoms via Upregulating Renal Water Reabsorption Proteins and Downregulating Renal Gluconeogenic Enzymes in db/db Mice

Intracellular cAMP Sensor EPAC: Physiology, Pathophysiology, and Therapeutics Development

Urea transport and clinical potential of urearetics

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