Mechanisms in Tridax procumbens leaf extract reversal of paroxetine-induced erectile dysfunction in corpus cavernosum of male Wistar rats

Abstract

Introduction: Aqueous leave extract of Tridax procumbens (AETPL) is reported to improve erectile functions; however, the mechanism is unclear. This study investigates the mechanism involved in the contractile activity of the corpus cavernosum after AETPL treatment of paroxetine-induced erectile dysfunctional adult male Wistar rats. Methods: A total of 20 male Wistar rats were categorized into four groups of five and treated orally for four weeks: Group 1 (distilled water), Group 2 (paroxetine 10 mg/kg), Group 3 (paroxetine + AETPL 100 mg/kg), and Group 4 (paroxetine + Viagra 0.5 mg/kg). Contractile responses of excised corpus cavernosum strips (CS) were determined in response to acetylcholine (ACh), phenylephrine (PHE), potassium chloride (KCl), and calcium chloride (CaCl2), and after incubation in L-NAME, indomethacin, nifedipine, adenosine, caffeine, nicorandil, and acetovanillone. Results: The relaxation response (%) of CS to ACh was significantly inhibited in the paroxetine group compared to the AETPL- and the Viagra-co-treated group. Pre-incubation in L-NAME considerably enhanced the percentage relaxation in groups co-treated with AETPL and Viagra. Groups co-treated with AETPL and Viagra significantly inhibited contraction in response to cumulative doses of CaCl2. Contractile responses of CS to cumulative doses of PHE after incubation in caffeine and adenosine were considerably inhibited in groups co-treated with AETPL and Viagra. Similarly, nicorandil (10-4 M) enhanced the percentage relaxation to cumulative doses of ACh (10-9 — 10-5 M) in groups co-treated with AETPL and Viagra. The pre-incubation of CS with acetovanillone (10-4 M) enhanced the percentage relaxation to ACh across groups. Conclusion: Erectile dysfunction was reversed by AETPL-induced antioxidant/NADPH oxidase inhibitor activity, reduced calcium sensitivity, activation of ATP-sensitive K+ channel, and endothelial Nitric Oxide (NO) release.