Insulin-like growth factors (IGFs) circulate attached to binding proteins (IGFBPs). Only the unbound form of IGF is suggested to be biological active. The main source of circulating IGF-I and IGFBP-1 is considered to be the liver, but that of circulating IGFBP-3 is not known. IGF-I and IGFBP-3 are GH dependent, whereas IGFBP-1 is insulin regulated. The aim of the present study was to examine the effect of insulin on the hepatic secretion of IGFBP-1, IGFBP-3, and IGF-I. Seven insulin-dependent diabetic patients in whom insulin was withheld for 12 h were studied in the overnight fasted state. Blood was sampled simultaneously from the hepatic vein, a peripheral vein, and an artery before and during insulin infusion for 3 h. The basal IGFBP-1 levels in the peripheral vein were several-fold elevated (249 +/- 44 micrograms/L) compared to those in healthy subjects (37 +/- 2 micrograms/L). Fasting IGFBP-1 concentrations were inversely correlated to the insulin levels (r = -0.918; P < 0.001). The mean IGF-I concentration (175 +/- 17 micrograms/L; -1.62 +/- 0.38 SD score) was decreased compared with that in age-matched healthy subjects. The basal IGFBP-3 levels in the peripheral vein (4.50 +/- 0.33 mg/L) were within the normal range. There was a significant correlation in the hepatic vein between fasting IGF-I and IGFBP-3 levels (r = 0.928; P < 0.001). Basal splanchnic IGFBP-1 production was 18 +/- 7 micrograms/min, whereas no basal net exchanges of IGF-I or IGFBP-3 were observed across the splanchnic area. Insulin inhibited splanchnic IGFBP-1 production within 120 min and glucose output within 20 min. Serum IGF-I, but not IGFBP-3, concentrations increased significantly during the insulin infusion. In summary, this study demonstrates the existence of considerable IGFBP-1 production from the liver during insulinopenia and the complete blocking of splanchnic IGFBP-1 production and increases in serum levels of IGF-I by insulin despite no effect on IGFBP-3 levels. Thus, insulin may play a role in determining the bioavailability of IGF-I.
BackgroundAlthough diabetic kidney disease demonstrates both familial clustering and single nucleotide polymorphism heritability, the specific genetic factors influencing risk remain largely unknown.MethodsTo identify genetic variants predisposing to diabetic kidney disease, we performed genome-wide association study (GWAS) analyses. Through collaboration with the Diabetes Nephropathy Collaborative Research Initiative, we assembled a large collection of type 1 diabetes cohorts with harmonized diabetic kidney disease phenotypes. We used a spectrum of ten diabetic kidney disease definitions based on albuminuria and renal function.ResultsOur GWAS meta-analysis included association results for up to 19,406 individuals of European descent with type 1 diabetes. We identified 16 genome-wide significant risk loci. The variant with the strongest association (rs55703767) is a common missense mutation in the collagen type IV alpha 3 chain (COL4A3) gene, which encodes a major structural component of the glomerular basement membrane (GBM). Mutations in COL4A3 are implicated in heritable nephropathies, including the progressive inherited nephropathy Alport syndrome. The rs55703767 minor allele (Asp326Tyr) is protective against several definitions of diabetic kidney disease, including albuminuria and ESKD, and demonstrated a significant association with GBM width; protective allele carriers had thinner GBM before any signs of kidney disease, and its effect was dependent on glycemia. Three other loci are in or near genes with known or suggestive involvement in this condition (BMP7) or renal biology (COLEC11 and DDR1).ConclusionsThe 16 diabetic kidney disease–associated loci may provide novel insights into the pathogenesis of this condition and help identify potential biologic targets for prevention and treatment.
Elective surgery was performed after overnight fasting, a routine that may affect the metabolic response to surgery. We investigated the effects of insulin and glucose infusions before and during surgery on postoperative substrate utilization and insulin sensitivity. Seven patients were given insulin and glucose infusions 3 h before and during surgery (insulin group), and a control group of six patients underwent surgery after fasting overnight. Insulin sensitivity and glucose kinetics (d-[6,6-2H2]glucose) were measured before and immediately after surgery using a hyperinsulinemic, normoglycemic clamp. Glucose infusion rates and whole body glucose disposal decreased after surgery in the control group (−40 and −29%, respectively), whereas no significant change was found in the insulin group (+16 and +25%). Endogenous glucose production remained unchanged in both groups. Postoperative changes in cortisol, glucagon, fat oxidation, and free fatty acids were attenuated in the insulin group (vs. control). We conclude that perioperative insulin and glucose infusions minimize the endocrine stress response and normalize postoperative insulin sensitivity and substrate utilization.
There is great interest in therapeutically harnessing endogenous regenerative mechanisms to increase the number of β cells in people with diabetes. By performing whole‐genome expression profiling of zebrafish islets, we identified 11 secreted proteins that are upregulated during β‐cell regeneration. We then tested the proteins' ability to potentiate β‐cell regeneration in zebrafish at supraphysiological levels. One protein, insulin‐like growth factor (Igf) binding‐protein 1 (Igfbp1), potently promoted β‐cell regeneration by potentiating α‐ to β‐cell transdifferentiation. Using various inhibitors and activators of the Igf pathway, we show that Igfbp1 exerts its regenerative effect, at least partly, by inhibiting Igf signaling. Igfbp1's effect on transdifferentiation appears conserved across species: Treating mouse and human islets with recombinant IGFBP1 in vitro increased the number of cells co‐expressing insulin and glucagon threefold. Moreover, a prospective human study showed that having high IGFBP1 levels reduces the risk of developing type‐2 diabetes by more than 85%. Thus, we identify IGFBP1 as an endogenous promoter of β‐cell regeneration and highlight its clinical importance in diabetes.
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