Antidiabetic and profertility mechanisms of aqueous extract of Basella alba in male Wistar rats

Abstract

The use of medicinal plants in the management of various health problems date back to the ancient times. However, only in recent years, researchers are starting to focus on the use of natural plant products as alternative treatment in disease control. Basella alba (Ba), commonly called Ceylon or Indian spinach is one of such medicinal plants, wildly cultivated and consumed mostly as vegetable. Studies have established many beneficial effects of Ba, including androgenic effects as well as antidiabetic effects which have been described in rats following oral administration of the leave extract. However, the actual mechanisms underlying the antihyperglyceamic effect of Ba have not been reported in any study and little or no research details are yet available on the potential beneficial effects of Ba in reproductive dysfunction resulting from diabetes mellitus. This study was aimed at investigating the mechanisms underlying the antidiabetic effect of Ba and the possibility of a role for the plant in correcting diabetic-induced reproductive dysfunctions in male Wistar rats. The first part of the study involved comparing of three different solvent extracts of Ba leaves namely ethyl acetate, methanolic and aqueous extracts for their antioxidant potentials, after which the aqueous extract was selected for further use in the experiments. Animal experimentation involved male rats (n=40) aged 8-10 weeks, randomly divided into four equal groups as follows: Healthy Control, Diabetic Control, Healthy Treatment and Diabetic Treatment. Diabetes was induced via a single intraperitoneal injection of streptozotocin (55mg/kg) and all animals subsequently received treatment via gavage (Rats in Control groups received 0.5ml/100g normal saline daily and treatment groups received 200mg/kg plant extract daily) for a period of four weeks. Fasting blood sugar and body weights were recorded weekly throughout the study. Animals were sacrificed upon completion of the treatment and blood samples and tissues collected for further analysis which included computer aided sperm analysis, Luminex® technology and enzyme-linked immunosorbent hormonal assays, inflammatory cytokine assays, analysis of oxidative stress markers and Histopathological analysis. The single intraperitoneal injection of a high streptozotocin dose resulted in hyperglycaemia, weight loss, subnormal sperm parameters, negative balance of inflammatory cytokines and endogenous antioxidants and degenerative changes in the pancreas, testes and epididymis as observed in the diabetic control rats. Oral administration with the aqueous extract of Ba for four weeks in diabetic treatment rats led to a significant reduction in blood sugar and improvement of sperm parameters by modulating the production of gonadal hormones, in vivo antioxidants and inflammatory cytokines. There was also significant recovery of normal islet histology and reduction in testicular and epididymal degeneration in the diabetic treatment rats when compared to their diabetic control counterparts. It was concluded from the findings of this study that the antidiabetic and profertility effects of Ba are largely dependent on the modulation of in vivo production of antioxidants, gonadal hormones and inflammatory cytokines, probably stimulated by one or more phytochemical component(s) that can be isolated in the aqueous extract of the plant