
Abstract ATP is an important paracrine regulator of renal tubular water and urea transport. The activity of P2Y 2 , the predominant P2Y receptor of the medullary collecting duct, is mediated by ATP, and modulates urinary concentration. To investigate the role of purinergic signaling in the absence of urea transport in the collecting duct, we housed wild-type (WT) and UT-A1/A3 null (UT-A1/A3 KO) mice in metabolic cages to monitor urine output, and collected tissue samples for analysis. We confirmed that UT-A1/A3 KO mice are polyuric, and concurrently observed lower levels of urinary cAMP as compared to WT, despite elevated serum vasopressin (AVP) levels. Because P2Y 2 inhibits AVP-stimulated transport by dampening cAMP synthesis, we suspected that, similar to other models of AVP-resistant polyuria, purinergic signaling is increased in UT-A1/A3 KO mice. In fact, we observed that both urinary ATP and purinergic-mediated prostanoid (PGE 2 ) levels were elevated. Tissue analysis shows that P2Y 2 mRNA levels remain unchanged, while P2Y 2 protein levels are elevated in KO mice. Collectively, our data suggest that the reduction of medullary osmolality due to the lack of UT-A1 and UT-A3 induces an AVP-resistant polyuria that is possibly exacerbated by, or at least correlated with, enhanced purinergic signaling. Summary statement Physiological analyses suggest that mice lacking urea transporters have increased renal purinergic signaling, perhaps contributing to previously observed vasopressin-resistant polyurias.
Male, Mice, Knockout, Kidney Medulla, Osmolar Concentration, Membrane Transport Proteins, Mice, Inbred C57BL, Receptors, Purinergic P2Y2, Urea Transporters, Disease Models, Animal, Mice, Animals, Urea, Kidney Tubules, Collecting, Original Research, Signal Transduction
Male, Mice, Knockout, Kidney Medulla, Osmolar Concentration, Membrane Transport Proteins, Mice, Inbred C57BL, Receptors, Purinergic P2Y2, Urea Transporters, Disease Models, Animal, Mice, Animals, Urea, Kidney Tubules, Collecting, Original Research, Signal Transduction
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