Combined inhibition of aromatase activity and dihydrotestosterone supplementation attenuates renal injury in male streptozotocin (STZ)-induced diabetic rats.

Our previous studies showed that streptozotocin (STZ)-induced diabetic male rats have increased estradiol and decreased testosterone levels that correlate with renal injury (Xu Q, Wells CC, Garman GH, Asico L, Escano CS, Maric C. Hypertension 51: 1218-1224, 2008). We further showed that either supplementing dihydrotestosterone (DHT) or inhibiting estradiol biosynthesis in these diabetic rats was only partially renoprotective (Manigrasso MB, Sawyer RT, Marbury DC, Flynn ER, Maric C. Am J Physiol Renal Physiol 301: F634-F640, 2011; Xu Q, Prabhu A, Xu S, Manigrassso MB, Maric C. Am J Physiol 297: F307-F315, 2009). The aim of this study was to test the hypothesis that the combined therapy of DHT supplementation and inhibition of estradiol synthesis would afford better renoprotection than either treatment alone. The study was performed in 12-wk-old male nondiabetic (ND), STZ-induced diabetic (D), and STZ-induced diabetic rats that received the combined therapy of 0.75 mg/day of DHT along with 0.15 mg · kg(-1) · day(-1) of an aromatase inhibitor, anastrozole (Dta), for 12 wk. Treatment with the combined therapy resulted in attenuation of albuminuria by 84%, glomerulosclerosis by 55%, and tubulointerstitial fibrosis by 62%. In addition, the combined treatment decreased the density of renal cortical CD68-positive cells by 70% and decreased protein expression of transforming growth factor-ß protein expression by 60%, collagen type IV by 65%, TNF-α by 55%, and IL-6 by 60%. We conclude that the combined treatment of DHT and blocking aromatase activity in diabetic male STZ-induced diabetic rats provides superior treatment than either treatment alone in the prevention of diabetic renal disease.

Renoprotective effects of C-peptide in the Dahl salt-sensitive rat.

Previous studies have demonstrated that renoprotective effects of C-peptide in experimental models of diabetes-induced renal disease may be mediated via lowering blood glucose. The present study examined the renoprotective effects of C-peptide in a model of nondiabetic renal disease, the Dahl salt-sensitive (SS/jr) rat. SS/jr rats were placed on a 2% NaCl diet for 2 wk (HS2, resulting in mild to moderate renal injury) or 4 wk (HS4, resulting in advanced renal injury) and then received either vehicle (veh) or C-peptide (Cpep) for additional 4 wk. Urine albumin (UAE) and protein (UPE) excretion rates were measured at baseline (i.e., before initiation of veh or Cpep treatment) and 4 wk later (i.e., at the time of death). Glomerular permeability, indexes of glomerulosclerosis and tubulointerstitial fibrosis, the presence of inflammatory cells, and protein expression of transforming growth factor-ß (TGF-ß) and podocin were measured at the time of death. In HS2 + veh rats, UAE and UPE increased by 74 and 92%, respectively, from baseline and the time of death. While HS2 + Cpep attenuated this increase in UAE and UPE, HS4 + Cpep had no effect on these parameters. Similarly, HS2 + Cpep reduced glomerular permeability, tubulointerstitial fibrosis, renal inflammation, TGF-ß, and podocin protein expression, while HS4 + Cpep had no effect. These studies indicate that C-peptide is renoprotective in nondiabetic experimental models with mild to moderate renal injury.

Inhibition of estradiol synthesis attenuates renal injury in male streptozotocin-induced diabetic rats.

We previously showed that the male streptozotocin (STZ)-induced diabetic rat exhibits decreased circulating testosterone and increased estradiol levels. While supplementation with dihydrotestosterone is partially renoprotective, the aim of the present study was to examine whether inhibition of estradiol synthesis, by blocking the aromatization of testosterone to estradiol using an aromatase inhibitor, can also prevent diabetes-associated renal injury. The study was performed on male Sprague-Dawley nondiabetic, STZ-induced diabetic, and STZ-induced diabetic rats treated with 0.15 mg/kg of anastrozole, an aromatase inhibitor (Da) for 12 wk. Treatment with anastrozole reduced diabetes-associated increases in plasma estradiol by 39% and increased plasma testosterone levels by 187%. Anastrozole treatment also attenuated urine albumin excretion by 42%, glomerulosclerosis by 30%, tubulointerstitial fibrosis by 32%, along with a decrease in the density of renal cortical CD68-positive cells by 50%, and protein expression of transforming growth factor-ß by 20%, collagen type IV by 29%, tumor necrosis factor-α by 28%, and interleukin-6 by 25%. Anastrozole also increased podocin protein expression by 18%. We conclude that blocking estradiol synthesis in male STZ-induced diabetic rats is renoprotective.

Amlodipine Reduces Inflammation despite Promoting Albuminuria in the Streptozotocin-Induced Diabetic Rat.

Amlodipine reduces blood pressure; however, its effect in the diabetic kidney irrespective of its blood pressure-lowering effects is unclear. This study examined the effects of amlodipine (0, 5, 10 and 20 mg/kg; D(A0), D(A5), D(A10) and D(A20), respectively) for 12 weeks on renal functional and structural changes in the streptozotocin-induced diabetic rat, a nonhypertensive model of diabetes-associated hyperfiltration. Compared with nondiabetic rats, diabetes (D) was associated with increased urine albumin excretion (UAE, 12.6 ± 3.40 vs. 3.73 ± 1.14 mg/day), glomerular filtration rate (2.17 ± 0.09 vs. 1.64 ± 0.12 ml/min/g kidney weight), glomerulosclerosis (0.21 ± 0.03 vs. 0.05 ± 0.01 AU) and infiltration of inflammatory cells (18.5 ± 2.78 vs. 6.92 ± 0.70 cells/cm(2)), but did not affect mean arterial pressure (MAP, 110 ± 4.70 vs. 109 ± 5.33 mm Hg). While D(A20) abolished glomerular hyperfiltration (1.49 ± 0.05 ml/min/g kidney weight) and inflammatory cell abundance (6.0 ± 0.79 cells/cm(2)), it exacerbated UAE (43.5 ± 8.49 mg/day) and increased MAP (132 ± 3.76 mm Hg), but had no effect on renal pathology. These data suggest that amlodipine reduces renal inflammation and abolished glomerular hyperfiltration, but increases blood pressure and exacerbates albuminuria in the rat model of normotensive diabetic kidney disease. We conclude that amlodipine may have limited renoprotective effects in the face of hyperfiltration and absence of elevated blood pressure.