Suppression of PCSK9/NF-kB-dependent pathways by acetate ameliorates cardiac inflammation in a rat model of polycystic ovarian syndrome.

AIM

Endocrinometabolic disorders in women of reproductive age, including polycystic ovarian syndrome (PCOS) has contributed to increased prevalence of cardiovascular disease (CVD) risk and its attendant complications. Acetate, the most abundant endogenously produced short chain fatty acid has been linked to metabolic health. However, the impact of acetate on CVD-driven pathologies in PCOS is unknown. The present study therefore investigated the effects of acetate on cardiometabolic abnormalities associated with PCOS in rat model, and the possible involvement of PCSK9/NF-kB-dependent pathways.

MATERIALS AND METHODS

Eight-week-old female Wistar rats were allotted into four groups (n = 6) and the groups received vehicle, acetate (200 mg/kg), letrozole (1 mg/kg) and letrozole plus acetate respectively. The administrations were done once daily by oral gavage and lasted for 21 days.

KEY FINDINGS

In letrozole-induced PCOS rats characterized with insulin resistance, glucose dysregulation, elevated plasma testosterone and decreased 17-β estradiol as well as degenerated ovarian follicles, there was a significant increase in plasma and cardiac lipid/lipoproteins, lipid peroxidation, inflammatory mediators (NF-kB and TNF-α), γ-glutamyl transferase/lactate dehydrogenase and lactate content, PCSK9 and reduction in plasma and cardiac antioxidants (glutathione peroxidase and reduced glutathione) and plasma nitric oxide synthesis (eNOS and NO) compared with the control rats. In addition, immunohistochemical assessment of cardiac tissue showed severe expression of inflammasome in letrozole-induced PCOS rats compared with the control rats. Nevertheless, supplementation with acetate significantly attenuated these alterations.

SIGNIFICANCE

The present results suggest that acetate protects against cardiac inflammation in a rat model of PCOS by suppression of PCSK9 and NF-kB-dependent mechanisms.