Browsing by Author "Olajide O.J."

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    Alterations of Kiss 1 receptor, GnRH receptor and nuclear receptors of the hypothalamopituitary-ovarian axis following low dose bisphenol-A exposure in Wistar rats
    (Korean Association of Anatomists, 2021) Kadir R.E.; Imam A.; Olajide O.J.; Ajao M.S.
    Bisphenol A is a chemical used primarily as a monomer in the production of polycarbonate plastics and epoxy resins. It is a synthetic chemical compound that is produced in billions of pounds annually, and tagged as an endocrine disruptor. Bisphenol A is a high production synthetic chemical compound that is used in the production of many consumables and equipments of daily consumption and use by man. Growing interest in possible health threats posed by endocrine disrupting chemicals (bisphenol-A inclusive), as these substances are in our environment, food, and many consumer products. Therefore, this study aims to determine bisphenol-A effects on the hypothalamo-pituitary-ovarian axis, and role of melatonin in this regard. Forty-two Wistar rats were bred, grouped into 7, with each group consisting of 6 rats. Experimental groups were administered low and high doses of bisphenol-A and melatonin, starting from day 19, and was continued for 7 weeks orally. They were left to develop into full adults and were sacrificed on day 120±4 days. Blood samples, hypothalamus, pituitary and ovarian tissues were excised for biochemical and tissue antioxidants assays as well as genetic studies. Results show elevated gonadotropin and androgen levels. There was disruption of reactive oxygen species in the ovarian tissues, as well as alterations in the expression of genes that regulate reproduction at the hypothalamus and pituitary levels. Conclusion of early exposure to bisphenol-A is associated with prolonged duration of disruption of reproductive functions in female Wistar rats, which persist long after cessation of the exposure. Melatonin antioxidant effects give some promising outturns against bisphenol-A induced toxicities.
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    Restorative effects of melatonin on bisphenol A-induced interference of gene expression in hypothalamic pituitary axis following early exposure
    (International Journal of Health Sciences, 2024) Kadir E.R.; Yakub A.D.; Imam A.; Olajide O.J.; Lawal I.A.; Oyewole A.L.; Hussein M.O.; Ojulari L.S.; Ajao M.S.
    Background: Bisphenol-A is a standard monomer used industrially in manufacturing plastics and epoxy resins, and it is widely used in food preservation and packaging. There is a global increase in its use due to increased demand and the growth in world population. Bisphenol A is an endocrine-disrupting chemical miming the endogenous estradiol hormone. However, due to its exposure to the environment, food and other consumables, its effects on reproductive health have been a growing area of interest. Melatonin regulates sleep-wake cycles and plays essential physiological roles in the body through its antioxidative, anti-cancer and neuroprotective properties. This research aims to ascertain the impact of Bisphenol A on the hypothalamic-pituitary-ovarian axis and determine melatonin's function on possible BPA-induced effects. Methods: Six adult male Wistar rats and 12 adult female Wistar rats of proven fertility were bred and organized into groups. Litters were divided into seven groups, each comprising six rats. These animals were subjected to subcutaneous injections of high and low doses of bisphenol A from postnatal days 0-3, then oral melatonin. The rats were allowed to mature into full-grown adults and euthanized at 120 ±4 days. The serum and hypothalamic-pituitary-ovarian tissues were collected for various assays, histology and genetic studies. Results: Compared to the control groups, groups administered varying doses of bisphenol A showed significant overexpression of estrogen and androgen receptors. Administration of Melatonin showed some reversal and reparative effects on BPA-induced damage of the hypothalamic pituitary ovarian axis. Conclusion: Elevated estrogen receptor levels induced by Bisphenol A altered receptor function, ultimately impairing hormonal cascades that regulate reproductive functions. Melatonin showed some promising reparative effects.