Targetable purinergic receptors P2Y12 and A2b antagonistically regulate bladder function
Yuan Hao, Lu Wang, Huan Chen, Warren G. Hill, Simon C. Robson, Mark L. Zeidel, Weiqun Yu
Yuan Hao, Lu Wang, Huan Chen, Warren G. Hill, Simon C. Robson, Mark L. Zeidel, Weiqun Yu
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Research Article Aging Muscle biology

Targetable purinergic receptors P2Y12 and A2b antagonistically regulate bladder function

Abstract

Abnormalities in purine availability or purinergic receptor density are commonly seen in patients with lower urinary tract symptoms (LUTS), but the underlying mechanisms relating altered receptor function to LUTS are unknown. Here we provide extensive evidence for the reciprocal interplay of multiple receptors responding to ATP, ADP (adenosine diphosphate), and adenosine, agonists that regulate bladder function significantly. ADP stimulated P2Y12 receptors, causing bladder smooth muscle (BSM) contraction, whereas adenosine signaling through potentially newly defined A2b receptors, actively inhibited BSM purinergic contractility. The modulation of adenylyl cyclase-cAMP signaling via A2b and P2Y12 interaction actively regulated bladder contractility by modulating intracellular calcium levels. KO mice lacking the receptors display diametrically opposed bladder phenotypes, with P2Y12-KO mice exhibiting an underactive bladder (UAB) phenotype with increased bladder capacity and reduced voiding frequency, whereas A2b-KO mice have an overactive bladder (OAB), with decreased capacity and increased voiding frequency. The opposing phenotypes in P2Y12-KO and A2b-KO mice not only resulted from dysregulated BSM contractility, but also from abnormal BSM cell growth. Finally, we demonstrate that i.p. administration of drugs targeting P2Y12 or A2b receptor rescues these abnormal phenotypes in both KO mice. These findings strongly indicate that P2Y12 and A2b receptors are attractive therapeutic targets for human patients with LUTS.

Authors

Yuan Hao, Lu Wang, Huan Chen, Warren G. Hill, Simon C. Robson, Mark L. Zeidel, Weiqun Yu

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Figure 1

Activation of adenosine receptor inhibits bladder smooth muscle purinergic contraction.

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Activation of adenosine receptor inhibits bladder smooth muscle purinerg...
Bladder smooth muscle (BSM) strips were stimulated by electrical field stimulation (EFS) at indicated frequencies in increasing order (D: x-axis). (A) Representative traces of BSM contraction in response to EFS stimulation, which is partially inhibited by 10 minutes NECA pretreatment (n = 10). The EFS frequencies used are shown on the x-axis in D. (B) Pretreatment with atropine inhibits muscarinic contraction, and the remaining purinergic contraction (or atropine resistant) is fully inhibited by NECA (n = 8). (C) When ATP-mediated purinergic contraction is inhibited by α,β-meATP desensitization, the remaining muscarinic contraction is not sensitive to NECA activation of adenosine receptor (n = 8). Force changes were normalized to control and shown as percentages. (D) Quantitation of data shown in B. (E) Nonlinear regression of A, B, and C, which shows the dose response under 20-Hz EFS stimulation, and the corresponding IC50. (F) Representative traces of BSM contraction in response to ADPβS (n = 7), which is dose-dependently inhibited by NECA pretreatment. Quantitation shown in G. Data are shown as mean ± SD, dose response was analyzed by 1-way ANOVA, P < 0.05