Elucidation of the mechanism whereby prostanoid TP receptor stimulation enhances urinary bladder smooth muscle contractions induced by parasympathetic neurotransmitters

A schematic summary of this study. Prostanoid TP receptor stimulation enhances ACh- and ATP-induced urinary bladder smooth muscle (UBSM) contractions through the following possible mechanisms shown as dotted arrow lines. Regarding ATP, TP receptor stimulation could enhance the contractions through 1) PKC-mediated VDCC and purinoceptor (P2X1 receptor) activation, 2) VDCC activation by inhibition of BK channel negative regulation of VDCC, and 3) ROCK-mediated purinoceptor (P2X1 receptor) activation. Regarding ACh, TP receptor stimulation could enhance the contractions through 1) BK channel inhibition-mediated VDCC activation and 2) increase of Ca²⁺ release from the sarcoplasmic reticulum (SR), although involvement of PKC is apparently negligible. This is because TP receptor stimulation could cause PKC-mediated activation of VDCC while it could also cause PKC-mediated suppression of muscarinic receptor (M₃ receptor) function; the latter suppressing effect may counteract the former potentiating effect. Solid red/blue lines show the potentiating/suppressing effects when M₃ receptor or P2X1 receptor is stimulated. Dotted red/blue lines show the potentiating/suppressing effects produced by TP receptor stimulation. TXA₂, thromboxane A2; ACh, acetylcholine; PKC, protein kinase C; VDCC, voltage-dependent Ca²⁺ channel; BK channel, big conductance calcium-activated potassium channel; ROCK, Rho-associated protein kinase.