Pharmacology Research & Perspectives (Feb 2024)
Inhibition of PDE‐4 isoenzyme attenuates frequency and overall contractility of agonist‐evoked ureteral phasic contractions
Abstract
Abstract The aim of this study was to investigate the functional role of phosphodiesterase enzymes (PDE) in the isolated porcine ureter. Distal ureteral strips were mounted in organ baths and pre‐contracted with 5‐HT (100 μM). Upon generation of stable phasic contractions, PDE‐4 and PDE‐5 inhibitors were added cumulatively to separate tissues. PDE‐4 inhibitors, such as rolipram (10 nM and greater) and roflumilast (100 nM and greater), resulted in significant attenuation of ureteral contractile responses, while a higher concentration of piclamilast (1 μM and greater) was required to induce a significant depressant effect. The attenuation effect by rolipram was abolished by SQ22536 (100 μM). PDE‐5 inhibitors, such as sildenafil and tadalafil, were not nearly as effective and were only able to suppress the 5‐HT‐induced contractions at higher concentrations of 1 μM. Rolipram significantly enhanced the depressant effect of forskolin, while sodium nitroprusside‐induced attenuation of contractile responses remained unchanged in the presence of tadalafil. In summary, our study demonstrates that PDE‐4 inhibitors are effective in attenuating 5‐HT‐induced contractility in porcine distal ureteral tissues, while PDE‐5 inhibitors are less effective. These findings suggest that PDE‐4 inhibitors, such as rolipram, may hold promise as potential therapeutic agents for the treatment of ureteral disorders attributable to increased intra‐ureteral pressure.
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