SGLT2 inhibitor empagliflozin reduces renal growth and albuminuria in proportion to hyperglycemia and prevents glomerular hyperfiltration in diabetic Akita mice

SGLT2 inhibitor empagliflozin reduces renal growth and albuminuria in proportion to hyperglycemia and prevents glomerular hyperfiltration in diabetic Akita mice

Our previous work has shown that gene knockout of the sodium-glucose cotransporter SGLT2 modestly lowered blood glucose in streptozotocin-diabetic mice (BG; from 470 to 300 mg/dl) and prevented glomerular hyperfiltration but did not attenuate albuminuria or renal growth and inflammation. Here we det...

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Bibliographic Details
Published in:American journal of physiology. Renal physiology Vol. 306; no. 2; p. F194
Main Authors: Vallon, Volker, Gerasimova, Maria, Rose, Michael A, Masuda, Takahiro, Satriano, Joseph, Mayoux, Eric, Koepsell, Hermann, Thomson, Scott C, Rieg, Timo
Format: Journal Article
Language:English
Published: United States 15-01-2014
Subjects:
Adipocytes - drug effects
Adipocytes - ultrastructure
Albuminuria - drug therapy
Animals
Benzhydryl Compounds - pharmacology
Biomarkers - metabolism
Blood Glucose - metabolism
Blood Pressure - physiology
Blotting, Western
Diabetes Mellitus - genetics
Diabetic Nephropathies - metabolism
Diabetic Nephropathies - prevention & control
Drinking - physiology
Eating - physiology
Glomerular Filtration Rate - drug effects
Glucosides - pharmacology
Heart Rate - physiology
Hyperglycemia - complications
Hyperglycemia - metabolism
Inflammation - metabolism
Kidney - drug effects
Kidney - growth & development
Kidney - pathology
Kidney Glomerulus - growth & development
Kidney Glomerulus - metabolism
Mice
Mice, Inbred Strains
Real-Time Polymerase Chain Reaction
Sodium-Glucose Transporter 1 - biosynthesis
Sodium-Glucose Transporter 1 - genetics
Sodium-Glucose Transporter 2 - antagonists & inhibitors
inflammation
renal growth
phosphoenolpyruvate carboxykinase
proximal tubule
diabetes
gluconeogenesis
diabetic nephropathy
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Summary:Our previous work has shown that gene knockout of the sodium-glucose cotransporter SGLT2 modestly lowered blood glucose in streptozotocin-diabetic mice (BG; from 470 to 300 mg/dl) and prevented glomerular hyperfiltration but did not attenuate albuminuria or renal growth and inflammation. Here we determined effects of the SGLT2 inhibitor empagliflozin (300 mg/kg of diet for 15 wk; corresponding to 60-80 mg·kg(-1)·day(-1)) in type 1 diabetic Akita mice that, opposite to streptozotocin-diabetes, upregulate renal SGLT2 expression. Akita diabetes, empagliflozin, and Akita + empagliflozin similarly increased renal membrane SGLT2 expression (by 38-56%) and reduced the expression of SGLT1 (by 33-37%) vs. vehicle-treated wild-type controls (WT). The diabetes-induced changes in SGLT2/SGLT1 protein expression are expected to enhance the BG-lowering potential of SGLT2 inhibition, and empagliflozin strongly lowered BG in Akita (means of 187-237 vs. 517-535 mg/dl in vehicle group; 100-140 mg/dl in WT). Empagliflozin modestly reduced GFR in WT (250 vs. 306 μl/min) and completely prevented the diabetes-induced increase in glomerular filtration rate (GFR) (255 vs. 397 μl/min). Empagliflozin attenuated increases in kidney weight and urinary albumin/creatinine ratio in Akita in proportion to hyperglycemia. Empagliflozin did not increase urinary glucose/creatinine ratios in Akita, indicating the reduction in filtered glucose balanced the inhibition of glucose reabsorption. Empagliflozin attenuated/prevented the increase in systolic blood pressure, glomerular size, and molecular markers of kidney growth, inflammation, and gluconeogenesis in Akita. We propose that SGLT2 inhibition can lower GFR independent of reducing BG (consistent with the tubular hypothesis of diabetic glomerular hyperfiltration), while attenuation of albuminuria, kidney growth, and inflammation in the early diabetic kidney may mostly be secondary to lower BG.
ISSN:1522-1466
DOI:10.1152/ajprenal.00520.2013