UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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Insulin-like growth factor I (IGF-I) and vascular endothelial growth factor (VEGF) levels are correlated with retinal ischemia-associated intraocular neovascularization in humans. Since VEGF is required for iris and retinal neovascularization in animal models of retinal ischemia, we tested whether IGF-I could act as an indirect angiogenic factor by increasing VEGF gene expression. IGF-I increased retinal pigment epithelial (RPE) cell VEGF mRNA in a concentration-dependent manner with an EC50 of 7 nmol/1 (53.6 ng/ml). RPE and bovine smooth muscle cells exposed to 50 nmol/l (383 ng/m1) IGF-I achieved peak VEGF mRNA expression within 2 h. IGF-I-treated RPE cells increased VEGF protein levels in conditioned media and stimulated capillary endothelial cell proliferation. Blockade of the IGF-I receptor with a neutralizing antibody abrogated the VEGF increases in RPE cells. Further, hypoxia-mediated and IGF-I-mediated increases in VEGF mRNA and protein levels were additive in RPE cells, and the hypoxia-induced VEGF increases were independent of endogenous IGF-I. VEGF promoter activity was enhanced by IGF-I in RPE cells, but VEGF transcript half-life was unaltered. In summary, the supplementation of RPE and smooth muscle cell cultures with IGF-I at 5-100 nmol/l increased VEGF mRNA and secreted protein levels. The VEGF increases in RPE cells occurred primarily through enhanced transcription of the VEGF gene and via the IGF-I receptor. Elevated IGF-I levels may promote neovascularization through increased retinal VEGF gene expression.
Diabetes 1997 Oct
PMID:Regulation of vascular endothelial growth factor expression by insulin-like growth factor I. 931 59

Enhanced advanced glycosylation end product (AGE) formation has been shown to participate in the pathogenesis of diabetes-induced glomerular injury by mediating the increased extracellular matrix (ECM) deposition and altered cell growth and turnover leading to mesangial expansion. These effects could be exerted via an AGE-receptor-mediated upregulation of growth factors, such as the IGFs and transforming growth factor-beta (TGF-beta). We tested this hypothesis in human and rat mesangial cells grown on nonglycated or native bovine serum albumin (BSA), glycated BSA with AGE formation (BSA-AGE), or glycated BSA in which AGE formation was prevented by the use of aminoguanidine (BSA-AM), in the presence or absence of an antibody, alpha-p60, directed against the p60/OST protein named AGE-receptor 1 (AGE-R1), or normal control (pre-immune) serum. The mRNA and/or protein levels of IGF-I, IGF-II, IGF receptors, IGF binding proteins (IGFBPs), TGF-beta1 and the ECM components fibronectin, laminin, and collagen IV were measured, together with cell proliferation. Both human and rat mesangial cells grown on BSA-AGE showed increased IGF-I and total and bioactive TGF-beta medium levels and enhanced IGF-I, IGF-II, and TGF-beta1 gene expression, compared with cells grown on BSA, whereas total IGFBP and IGFBP-3 medium content, IGF receptor density and affinity, and IGF-I receptor transcripts were unchanged. Moreover, cells grown on BSA-AGE showed increased ECM protein and mRNA levels versus cells cultured on BSA, whereas cell proliferation was unchanged in human mesangial cells and slightly reduced in rat mesangial cells. Growing cells on BSA-AM did not affect any of the measured parameters. Co-incubation of BSA-AGE with anti-AGE-R1, but not with pre-immune serum, prevented AGE-induced increases in IGF-I, TGF-beta1, and ECM production or gene expression; anti-AGE-R1 also reduced growth factor and matrix synthesis in cells grown on BSA. These results demonstrate that mesangial IGF and TGF-beta1 synthesis is upregulated by AGE-modified proteins through an AGE-receptor-mediated mechanism. The parallelism with increased ECM production raises the speculation that the enhanced synthesis of these growth factors resulting from advanced nonenzymatic glycation participates in the pathogenesis of hyperglycemia-induced mesangial expansion.
Diabetes 1997 Nov
PMID:Upregulation of mesangial growth factor and extracellular matrix synthesis by advanced glycation end products via a receptor-mediated mechanism. 935 40

The insulin receptor (IR) shares structural and functional homology with the IGF-I receptor (IGF-IR). Hybrid receptors composed of an IR alphabeta-heterodimer and an IGF-IR alphabeta-heterodimer are formed in tissues expressing both molecules. Hybrids behave as IGF-IR rather than IR with respect to ligand binding affinity, receptor autophosphorylation, and hormone internalization and degradation. Factors regulating hybrid formation in vivo are unknown. We recently reported that in skeletal muscle of NIDDM patients, expression of hybrids is increased and correlated with a decrease in IR number and an increase in fasting insulin levels. However, it is not clear whether increased expression of hybrid receptors is a primary defect specifically associated with NIDDM or a secondary event caused by hyperinsulinemia. To address this issue, we used a quantitative microwell-based immunoassay to measure hybrid receptor abundance in skeletal muscle of 11 normal subjects and 12 patients with insulinoma, a state of primary nongenetically determined hyperinsulinemia. Total insulin binding was lower in insulinoma patients than in normal subjects (0.70 +/- 0.18 vs. 4.59 +/- 0.77; P < 0.0001). Total IGF-I binding did not differ between the two groups (0.81 +/- 0.27 and 0.85 +/- 0.10, respectively). The amount of hybrids, expressed as bound/total (B/T), was higher in patients with insulinoma than in normal subjects (0.57 +/- 0.19 vs. 0.36 +/- 0.03; P < 0.0006) and was inversely correlated with total insulin binding (r = -0.64, P < 0.0004). Increased abundance of hybrid receptors was positively correlated with insulin levels (r = -0.82, P < 0.0009) and inversely correlated with insulin-mediated glucose uptake (r = -0.80, P < 0.01). No correlations were observed between insulin-mediated glucose uptake and maximal specific insulin binding (r = 0.19, P = 0.64). These results indicate that insulin-induced IR downregulation may lead to the formation of a higher proportion of hybrid receptors, whose abundance is negatively correlated with in vivo insulin sensitivity. These results, therefore, support a role for insulin in the regulation of hybrid receptors formation and suggest that increased expression of hybrids in NIDDM may be a secondary event caused by hyperinsulinemia rather than a primary defect.
Diabetes 1998 Jan
PMID:Expression of insulin/IGF-I hybrid receptors is increased in skeletal muscle of patients with chronic primary hyperinsulinemia. 942 79

Retinopathy is the most frequent microangiopathic complication in diabetes. Many circulating hormones and locally produced mitogenic factors have been involved. Bovine retinal endothelial cells (BRECs) were cultured to investigate if insulin, insulin-like growth factors (IGFs), IGF binding proteins (IGFBPs), and a chronic high-glucose condition could control endothelial cell growth. Specific IGF-I receptors with two binding sites with high (Kd 0.03 nmol/L) and low (Kd 1.3 nmol/L) affinity were found when analyzing families of displacement curves between IGF-I versus IGF-I and IGF-I versus insulin. However, IGFs failed to be mitogenic factors in these cells. This could be explained by an inhibitory effect due to the presence of specific IGFBPs with a molecular weight between 24 and 43 kd. Using Western blot and immunoblot analysis, Northern blot study, and specific radioimmunoassay (RIA), these IGFBPs have been identified as IGFBP-3, -2, -5, and -4. Insulin, which does not bind to IGFBPs, was a potent mitogenic factor in these cells at a high concentration (10 nmol/L), suggesting a cross-reaction to IGF-I receptor. These IGFBPs, except the 24-kd form (IGFBP-4), were modulated by both IGF-I and IGF-II, with a maximum effect at 100 and 10 nmol/L, respectively. This regulation on IGFBPs was IGF-I receptor-independent. In fact, (1) IGFBP mRNA levels were not modified after stimulation with 100 nmol/L IGF-I, (2) 100 nmol/L IGF plus an equimolar concentration of alpha IR3 did not affect IGFBP production, (3) Des(1-3)IGF-I had no effect on IGFBP modulation, whereas at 10 nmol/L it enhanced BREC thymidine cell incorporation, and (4) 100 nmol/L insulin, which at this concentration can cross-react with the IGF-I receptor, did not modify the IGFBP pattern. Chronic exposure (4 weeks) of BRECs to 25 mmol/L glucose had no effect on cell growth. However, after 3 weeks, we observed a decreased IGFBP detection, and addition of 100 nmol/L IGF-I did not change IGFBP levels and did not modify cell growth. Conversely, BRECs grown in regular medium for 4 weeks showed increased IGFBP production. In conclusion, we showed that conditions mimicking hyperinsulinemia, rather than high levels of IGFs, could regulate BREC growth and that the IGF-I analog, Des(1-3), even with reduced affinity for IGFBPs but in part capable of binding to IGFBP-3, significantly stimulated BRECs growth only at 10 nmol/L. IGF actions are modulated by locally produced endothelial IGFBPs, and in turn, these endothelial IGFBPs are regulated, via in IGF-I receptor-independent mechanism, by the presence of IGFs. The autoregulatory IGF system together with the direct glucose modulation of IGFBPs could contribute in diabetic subjects to the retinal endothelial cell growth and metabolism through local changes in IGF bioavailability.
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PMID:Insulin-like growth factor binding protein production in bovine retinal endothelial cells. 943 29

The early renal growth in streptozotocin (STZ)-induced diabetic rats is preceded by a transient rise in renal tissue insulin-like growth factor (IGF)-I concentration. Administration of the long-acting somatostatin analog octreotide to STZ diabetic rats inhibits the early increase in kidney IGF-I and the increase in kidney size without affecting metabolic control. We studied the effects of octreotide treatment on the intrarenal IGF axis at 2 and at 7 days after the induction of STZ diabetes. Two days after induction of diabetes, kidney IGF-I was increased from 850 +/- 43 ng/g tissue in controls to 1,648 +/- 165 ng/g tissue (P < 0.001) in diabetic animals. The diabetes-associated increase in renal IGF-I 48 h after STZ injection was totally prevented by octreotide (IGF = 780 +/- 57 ng/g tissue). However, 7 days after the induction of diabetes, kidney IGF-I was similar to that of control and was not affected by octreotide. No difference in serum IGF-I was observed between controls and diabetic rats after 2 days of diabetes; however, octreotide treatment resulted in a significant decrease of serum IGF-I after 2 days when compared with control rats (P < 0.05). Renal IGF-I mRNA was significantly decreased to the same extent in both diabetic groups 2 and 7 days after the induction of diabetes, while renal IGF-I receptor (IGF-IR) mRNA was unchanged in rats from either group. Two days after induction of diabetes, renal insulin-like growth factor binding protein (IGFBP)-1 mRNA and 30-kDa IGFBPs (containing IGFBP-1) increased by 186 and 192%, respectively, in untreated diabetic animals compared with controls. Octreotide treatment prevented the diabetes-associated rise in renal IGFBP-1 mRNA and protein. However, 7 days after the induction of diabetes, renal IGFBP-1 mRNA and protein were similarly increased in both octreotide-treated or untreated diabetic rats. Renal IGFBP-3 gene expression and protein and IGFPB-5 mRNA remained unchanged after 2 and 7 days of diabetes when treated or untreated with octreotide. We conclude that the well-known inhibitory effect of octreotide on the early increase in renal IGF-I concentration and renal size in diabetes may be mediated through a direct effect on renal IGFBP-1 levels.
Diabetes 1998 Jun
PMID:Octreotide prevents the early increase in renal insulin-like growth factor binding protein 1 in streptozotocin diabetic rats. 960 70

The present study was undertaken to assess the chronic effects of low dose octreotide (Oc) administration in rats with experimental diabetes mellitus (DM). Metabolic and clearance studies were performed in control normal rats, in rats with streptozotocin-induced DM of 1 week duration and in similar DM rats treated with Oc, 10-20 microg/day. Gene expression of IGF-I, IGF-I receptor (IGF-I R) and IGF-binding protein-1 (IGFBP-1) was examined in renal tissue from normal DM animals and DM animals treated with Oc 10, 20 and 100 microg/day. Seven days of Oc administration, 10 microg/day, in rats with experimental DM, was associated with enhanced hyperglycemia, increased glomerular filtration rate and urinary sodium excretion as compared with untreated DM animals. After a higher Oc dose, 20 microg/day, however, there were no significant changes in renal function and in glycemic control. Significant increases in kidney weight and kidney weight/body weight ratio were seen in DM rats as compared with control intact animals. These changes were not affected by Oc therapy in various doses. Induction of DM was associated with a marked increase in renal IGFBP-1 mRNA expression. There were no significant changes in the expression of IGF-I or IGF-I R mRNA. Oc therapy in a low or high dose did not affect gene expression of IGF-I, IGF-I R or IGFBP-1. Thus, the response to chronic low dose Oc administration of DM rats may vary from enhanced hyperglycemia and hyperfiltration to a lack of change in renal function or in glycemic control. Low dose Oc therapy was not associated with significant variations in renal mass or in the gene expression of IGF-I axis components. These findings are at variance with previously published studies which show a suppressive effect of Oc on renal function and growth in experimental diabetes. This apparent discrepancy may be related to the duration of treatment or to a biphasic physiological effect of Oc when used in different doses.
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PMID:The effect of low dose octreotide administration on renal function and on gene expression of IGF-I axis components in experimental diabetes mellitus. 979 51

To determine the effects of glucose on insulin-like growth factor I (IGF-I)-induced mesangial cell (MC) proliferation, we have examined the relationships between IGF binding protein 2 (IGFBP-2) secretion and proliferation in murine MCs (MMCs). MMCs incubated in high glucose (HG, 25 mM) exhibited a 25-30% reduction in IGFBP-2 secretion compared with cells in normal glucose (NG, 5.6 mM). This loss was not due to cell surface binding; it correlated with a 3.1-fold decrease in IGFBP-2 mRNA. IGFBP-2 secretion was stimulated by IGF-I in NG but was unaltered in HG. Insulin treatment yielded similar results at 10-fold higher doses, indicating that this response is IGF-I receptor dependent. MMCs in HG displayed increased IGF-I-stimulated insulin receptor substrate-1/2 phosphorylation and activator protein-1 transcriptional activity compared with NG controls. Accordingly, although IGF-I was not proliferative in NG, it increased [3H]thymidine incorporation and cell number in HG to an extent proportional to the decrease in IGFBP-2. Thus hyperglycemia, as seen in diabetes, may increase MC IGF-I sensitivity by reducing IGFBP-2 expression, in turn increasing its proliferative and secretory responses and contributing to the development of diabetic glomerulosclerosis.
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PMID:Elevated glucose increases mesangial cell sensitivity to insulin-like growth factor I. 984 95

Children with uncontrolled type I (insulin-dependent) diabetes mellitus are characterized by a slow growth rate, which improves upon adequate therapy. While skeletal growth is an energy-consuming process involving high glucose utilization, the role of glucose transporters (GLUT) and their regulation in the bone formation process are not yet fully understood. Thus, we studied both in vivo and in vitro early endochondral bone formation in control and streptozotocin-induced young diabetic mice. Using in situ hybridization and immunohistochemistry techniques, we demonstrated the novel existence of the insulin-sensitive glucose transporter (GLUT4), as well as GLUT1, in juvenile-derived murine mandibular condyles and in the humeral growth plate-two models for endochondral bone formation. Insulin-like growth factor (IGF) I receptors (IGF-I-R), but not insulin receptors (IR), were shown to have cellular distribution similar to GLUT4, being more abundant in mature chondrocytes. Further, in the skeletal growth centers of streptozotocin-induced diabetic mice, GLUT4, IGF-I, and IGF-I and insulin receptor levels, but not GLUT1 were markedly reduced. The decrease in GLUT4 and in IGF-I and insulin receptors was associated with severe histological changes in the mandibular condyles and humeral growth plate. Insulin therapy restored IR levels to normalcy, whereas IGF-I-R and GLUT4 levels were only partially recovered. Thus, GLUT4 and IGF-I-R have a potential role in early bone growth in mice. Further, during early bone growth GLUT4 may be regulated through the IGF-I receptor rather than via the insulin receptor. We propose that skeletal growth retardation in type I diabetes may be associated with reduced expression of the GLUT4 and IGF-I receptor in the bone growth center.
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PMID:The insulin-sensitive glucose transporter (GLUT4) is involved in early bone growth in control and diabetic mice, but is regulated through the insulin-like growth factor I receptor. 1009 23

Plasma cell membrane glycoprotein-1 (PC-1) inhibits insulin receptor (IR) tyrosine kinase activity and subsequent cellular signaling. PC-1 content is elevated in fibroblasts, muscle, and adipose tissue from insulin-resistant subjects, and its elevation correlates with in vivo insulin resistance. In vitro, when PC-1 is transfected and overexpressed in cultured cells, it inhibits IR tyrosine kinase activity. To determine the mechanism whereby PC-1 regulates the IR, we studied how PC-1 interacts with this protein. Overexpression of PC-1 in MCF-7 cells inhibited tyrosine kinase activity of the IR, but not of the IGF-I receptor. When the IR was immunocaptured by specific IR monoclonal antibodies, PC-1 was associated with this receptor. In contrast, after specific immunocapture, PC-1 was not associated with the IGF-I receptor. We next studied HTC cells that were overexpressing an IR alpha-subunit mutant. This IR mutant binds insulin but has a deletion in the tyrosine kinase regulatory domain located in amino acids 485-599. In contrast to normal IRs, PC-1 did not associate with this mutant and did not affect tyrosine kinase activity. To determine whether decreasing PC-1 expression would reverse the inhibition of tyrosine kinase activity, we treated MCF-7 cells overexpressing PC-1 with a monoclonal antibody to PC-1. This treatment decreased PC-1 levels; concomitantly, IR tyrosine kinase activity increased. In contrast, IGF-I receptor tyrosine kinase activity was not increased. These studies indicate, therefore, that PC-1 may inhibit the IR by interacting directly with a specific region in the IR alpha-subunit. These studies also raise the possibility that monoclonal antibodies to PC-1 could be a new treatment for insulin resistance.
Diabetes 2000 Jan
PMID:Membrane glycoprotein PC-1 inhibition of insulin receptor function occurs via direct interaction with the receptor alpha-subunit. 1061 44

In recent years, analogs of human insulin have been engineered with the aim of improving therapy for people with diabetes. To ensure that the safety profile of the human hormone is not compromised by the molecular modifications, the toxico-pharmacological properties of insulin analogs should be carefully monitored. In this study, we compared the insulin and IGF-I receptor binding properties and metabolic and mitogenic potencies of insulin aspart (B28Asp human insulin), insulin lispro (B28Lys,B29Pro human insulin), insulin glargine (A21Gly,B31Arg,B32Arg human insulin), insulin detemir (NN304) [B29Lys(epsilon-tetradecanoyl), desB30 human insulin], and reference insulin analogs. Receptor affinities were measured using purified human receptors, insulin receptor dissociation rates were determined using Chinese hamster ovary cells overexpressing the human insulin receptor, metabolic potencies were evaluated using primary mouse adipocytes, and mitogenic potencies were determined in human osteosarcoma cells. Metabolic potencies correlated well with insulin receptor affinities. Mitogenic potencies in general correlated better with IGF-I receptor affinities than with insulin receptor off-rates. The 2 rapid-acting insulin analogs aspart and lispro resembled human insulin on all parameters, except for a slightly elevated IGF-I receptor affinity of lispro. In contrast, the 2 long-acting insulin analogs, glargine and detemir, differed significantly from human insulin. The combination of the B31B32diArg and A21Gly substitutions provided insulin glargine with a 6- to 8-fold increased IGF-I receptor affinity and mitogenic potency compared with human insulin. The attachment of a fatty acid chain to LysB29 provided insulin detemir with reduced receptor affinities and metabolic and mitogenic potencies but did not change the balance between mitogenic and metabolic potencies. The safety implications of the increased growth-stimulating potential of insulin glargine are unclear. The reduced in vitro potency of insulin detemir might explain why this analog is not as effective on a molar basis as human insulin in humans.
Diabetes 2000 Jun
PMID:Correlations of receptor binding and metabolic and mitogenic potencies of insulin analogs designed for clinical use. 1086 53

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