Lithium reduces blood glucose levels, but aggravates albuminuria in BTBR-ob/ob mice.

Theun De Groot,Mohammad Alsady,Lars Damen,Rosalinda Doty,Johan Van Der Vlag,Ron Korstanje,Ruben Baumgarten,Peter M T Deen,Susan Sheehan,Leanne Kosse

doi:10.1371/journal.pone.0189485

Theun De Groot, Mohammad Alsady + Show 8 more

Open Access

https://doi.org/10.1371/journal.pone.0189485

Copy DOI

Abstract

Glycogen synthase kinase 3 (GSK3) plays an important role in the development of diabetes mellitus and renal injury. GSK3 inhibition increases glucose uptake in insulin-insensitive muscle and adipose tissue, while it reduces albuminuria and glomerulosclerosis in acute kidney injury. The effect of chronic GSK3 inhibition in diabetic nephropathy is not known. We tested the effect of lithium, the only clinical GSK3 inhibitor, on the development of diabetes mellitus and kidney injury in a mouse model of diabetic nephropathy. Twelve-week old female BTBR-ob/ob mice were treated for 12 weeks with 0, 10 and 40 mmol LiCl/kg after which the development of diabetes and diabetic nephropathy were analysed. In comparison to BTBR-WT mice, ob/ob mice demonstrated elevated bodyweight, increased blood glucose/insulin levels, urinary albumin and immunoglobulin G levels, glomerulosclerosis, reduced nephrin abundance and a damaged proximal tubule brush border. The lithium-10 and -40 diets did not affect body weight and resulted in blood lithium levels of respectively <0.25 mM and 0.48 mM. The Li-40 diet fully rescued the elevated non-fasting blood glucose levels. Importantly, glomerular filtration rate was not affected by lithium, while urine albumin and immunoglobulin G content were further elevated. While lithium did not worsen the glomerulosclerosis, proximal tubule function seemed affected by lithium, as urinary NGAL levels were significantly increased. These results demonstrate that lithium attenuates non-fasting blood glucose levels in diabetic mice, but aggravates urinary albumin and immunoglobulin G content, possibly resulting from proximal tubule dysfunction.

Highlights

Diabetes mellitus (DM) often leads to diabetic nephropathy, a progressive decline in kidney function
Semi-quantification demonstrated that total Glycogen synthase kinase 3 (GSK3) abundance was not different between both groups, but that the pGSK3/GSK3 ratio was significantly decreased in BTBR-ob/ob mice, suggesting that diabetes caused GSK3 overactivity in the kidneys of these mice (Fig 1C)
To determine whether the GSK3 inhibitor lithium might constitute a treatment for diabetic nephropathy, we wanted to test the effect of lithium at a point in which early signs of diabetic nephropathy were already observed

Summary

Introduction

Diabetes mellitus (DM) often leads to diabetic nephropathy, a progressive decline in kidney function. Diabetic nephropathy starts with hypertrophy of renal proximal tubules and hyperfiltration.[1] Release of growth factors, cytokines and pro-inflammatory markers leads to oxidative stress, manifesting as tubular atrophy and interstitial fibrosis.[2,3,4] A silent phase follows, as the glomerular filtration rate (GFR) turns back to normal.[5] After this.

Methods

Results

Conclusion