Obesity Promotes Renal Inflammation and Fibrosis Independent of Sex in SS Leptin Receptor Mutant (SSLepR) Rats.
Karim M Saad, Mohamed S Gad, Jocelyn Tang, Kim Capehart, Rafik Abdelsayed, Jan M Williams, Ahmed A Elmarakby
Abstract
Open AccessBackground: Obesity is a major contributor to chronic kidney disease (CKD) through mechanisms involving inflammation and metabolic dysregulation. Premenopausal female rats are known to be protected from cardiovascular disorders vs. age matched male rats. The current study investigates if there are sex differences in obesity-induced renal inflammation in SS leptin receptor mutant (SSLepR mutant) rats as a model of metabolic syndrome. Method: Male and female lean and obese SSLepR mutant rats were used in the current study to assess changes in metabolic parameters and markers of renal inflammation. Results: Obese SSLepR rats showed significant increases in body weight, hemoglobin A1c (HbA1c), and cholesterol vs. lean control, although their blood glucose levels remained comparable to lean rats. Plasma leptin, insulin, and TNF-α converting enzyme (TACE) levels were significantly elevated in obese SSLepR rats vs. lean control rats, with no apparent sex differences. Obesity was associated with an elevation in renal injury since protein and albumin excretion levels were significantly elevated in obese SSLepR rats vs. lean control rats, with no apparent sex differences. The elevation in renal injury was associated with increased renal fibrosis as evidenced by increased collagen deposition and TGF-β expression in the kidney of obese SSLepR rats vs. lean control rats. Increased renal fibrosis also coincided with increased renal inflammation and apoptosis as evidenced by increased macrophage infiltration and IL-6 expression in the kidneys of obese SSLepR rats vs. lean control rats. Conclusion: These findings indicate that obesity triggers renal inflammation and fibrosis independent of hyperglycemia in SSLepR rats, and these changes may override sex-based protective effects seen in females in other experimental rodent models of cardiovascular diseases.