Abstract
Poor nutrition and metabolic dysfunction are becoming more prevalent among children, as evident by increasing childhood obesity in recent years. The kidney sodium-glucose cotransporter 2 (SGLT2) is a contributor to overall metabolic homeostasis, with inhibition of SGLT2 significantly reducing circulating glucose and lipids. The study objective was to determine if diet influences the expression of renal glucose transporters in young rats. Weanling male Wistar Kyoto rats received 1) standard laboratory chow, 2) AIN-93G diet, or 3) a high-fat diet (60% kcal, HFD). Each dietary group was then further subdivided to receive either filtered water or 5% (w/v) sucrose solution ad libitum . Four weeks later, animals were euthanized and kidneys were collected and processed. mRNA expression of Sglt1 , Sglt2 , Sqstm1 , and Nlrp3 was determined using gene specific primers and RT-PCR. Renal SGLT2 protein expression was visualized using immunohistochemistry and quantified using Imagej software. Diet significantly influenced the renal expression of both Sglt1 ( P =0.005) and Sglt2 (P=0.046), while beverage did not have a significant effect on either ( P =0.7 and P =0.4, respectively). Rats fed the HFD had more than 30% reduction in Sglt1 mRNA expression as compared to rats fed chow, and ~20% reduction in Sglt2 as compared to rats fed AIN. Preliminary data suggest that diet and beverage significantly altered renal protein expression of SGLT2, with rats fed chow having the lowest renal expression that was slightly increased with sugar consumption (1.5% versus 2.7%, respectively). Rats fed AIN had the greatest expression, but was drastically reduced in rats consuming sugar (4% versus 1.2%, respectively). To determine if autophagy and inflammasome activation is involved, the expression of Sqstm1 and Nlrp3 was measured by RT-PCR. Similarly, rats fed HFD had the lowest expression of both Sqstm1 ( P<0.001) and Nlrp3 ( P=0.03). Sqstm1 and Nlrp3 mRNA expression was decreased with sugar consumption in rats fed chow and AIN, whereas Sqstm1 ( P =0.01) and Nlrp3 ( P <0.001) mRNA expression was increased in rats fed HFD with sugar beverage. Our data suggest that diet significantly influences renal glucose transporter expression in juvenile rats in a way that may be mediated by autophagic impairment. The modulatory effect of sugar consumption on SGLT2 protein, Sqstm1, and Nlrp3 was diet-dependent, highlighting the importance of nutrition to renal physiology within weeks after weaning.
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