Introduction: Increased body mass index and the metabolic syndrome are associated with decreased renal function and the development of end-stage kidney disease.
Objective: To evaluate the effect of the overlap between an experimental model of obesity and genetic hypertension on the blood pressure, body weight and metabolic and kidney parameters of rats.
Methods: We studied male rats of the Wistar (WST) and spontaneously hypertensive rats (SHR) strains. Monosodium glutamate (MSG) was administered in the neonatal period to both strains, to make up two groups: WST + MSG and SHR + MSG. Animals in the control groups (WST and SHR) received saline. After completing three months of life, a 12-week follow-up period ensued, during which bi-weekly measurements of body weight (BW) and tail-cuff blood pressure (TCBP) were obtained. Microalbuminuria was analyzed at weeks 0, 4, 8 and 12. At the end of the follow-up period, blood was obtained for fasting glucose, plasma creatinine, and lipid profile determinations. The kidneys were removed, stained, and the glomerular sclerosis index was calculated.
Results: The administration of MSG produced higher percentage body weight gain, higher fasting blood glucose and a higher degree of glomerular injury in WST-MSG and MSG-SHR rats, compared to their controls. Greater urinary albumin excretion was observed in SHR + MSG rats, when compared to SHR. There was no statistical difference in the TCBP, creatinine, and lipid profile.
Conclusions: The association of neuroendocrine obesity and arterial hypertension promoted morphological and functional changes in the glomerulus. These changes were more severe than those observed in hypertensive-only rats.