Kadaba Rajkumar

Phenotypic manifestations of insulin-like growth factor binding protein-1 (IGFBP-1) and IGFBP-3 overexpression in transgenic mice

To provide further insight into the function of the IGFBPs, transgenic (Tg) mice which overexpressed IGFBP-1 and IGFBP-3 were generated. In this report we have compared the phenotypic manifestations observed in these Tg mice. The IGFBP-1 Tg mice were significantly smaller at birth, birth weight and gained less weight in the postnatal period. Organ weight was proportionately reduced relative to body weight in most organs. However the brain was markedly smaller in IGFBP-1 Tg mice. Mean plasma levels of Tg-derived IGFBP-1 ranged from 8 to 80 ng ml-1 in the different groups of IGFBP-1 Tg mice. In addition homozygous mice also demonstrated fasting hyperglycemia, impaired glucose tolerance and reduced fecundity. Two of the seven IGFBP-3 founders had measurable levels of hlGFBP-3 in the circulation and were bred to homozygosity. Maximal plasma levels of transgene-derived IGFBP-3 were 72-198 ng ml-1. Transgene expression was detected in the kidney, small intestine and colon by Northern blot analysis. The birth weight, litter size and body weight of IGFBP-3 Tg mice were not significantly different from wild-type mice. However, the spleen, liver and heart of IGFBP-3 Tg mice derived from both founders were significantly heavier compared with organs from wild-type mice. The relative weight of other organs such as the brain, kidney and lungs were similar to wild-type mice. From these data, we conclude that over expression of IGFBP-1 results in inhibition of IGF action and in profound impairment of brain development, modest inhibition of fetal and postnatal growth and inhibition of the metabolic effects of the IGFs. In contrast, modest over-expression of hlGFBP-3 has little effect other than some selective organomegaly.

ENHANCED GLUCONEOGENESIS AND HEPATIC INSULIN RESISTANCE IN INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN-1 TRANSGENIC MICE

Fasting hyperglycemia is observed in transgenic mice which overexpress insulin-like growth factor binding protein-1. In an attempt to understand the mechanisms underlying this observation we have examined glycogenolysis and gluconeogenesis in isolated hepatocytes from wild-type and transgenic mice. Glucose production from pyruvate was significantly less responsive to inhibition by insulin in hepatocytes from transgenic mice compared to hepatocytes from wild-type mice. Serum from transgenic mice resulted in more glucose production by hepatocytes than serum from wild-type mice. Serum alanine was increased while serum lactate was significantly reduced in transgenic mice compared to wild-type mice. Serum free fatty acids and beta-hydroxybutyrate were similar in both groups of mice. These data suggest that fasting hyperglycemia is due to enhanced gluconeogenesis, hepatic insulin resistance and increased serum gluconeogenic substrate in transgenic mice.

Hepatic regeneration in insulin-like growth factor binding protein-1 transgenic mice.

BACKGROUND/AIMS Partial hepatectomy results in activation of genes in the residual liver tissue which serve to restore glucose homeostasis and regenerate liver mass. Expression of insulin-like growth factor binding protein-1 (IGFBP-1) is up-regulated following partial hepatectomy and IGFBP-1 can modulate both the metabolic and mitogenic effects of insulin-like growth factor-1 (IGF-I). The aim of the study was to compare the effects of partial hepatectomy on blood glucose levels and hepatic regeneration in wild-type and transgenic mice which constitutively overexpress IGFBP-1. METHODS Hepatic IGFBP-1 mRNA, blood glucose concentrations, liver mass and hepatic DNA synthesis were compared in sham-operated and partially hepatectomized transgenic and wild-type mice. RESULTS Hepatic IGFBP-1 mRNA was higher in sham-operated transgenic than wild-type mice, but in both groups of mice, partial hepatectomy was associated with a significant rise in IGFBP-1 mRNA. The absolute decline in blood glucose levels following partial hepatectomy was greater in transgenic mice. Basal DNA synthesis and the response to IGF-I in isolated hepatocytes from both groups of mice were similar, and DNA synthesis in the regenerating liver in vivo was not significantly different in transgenic as compared to wild-type mice: 449.3 +/- 63.9 vs. 321.6 +/- 52.3 cpm/microgram DNA. Hepatic regeneration as measured by liver weight after hepatectomy was not different between transgenic and wild-type mice. CONCLUSIONS Constitutive overexpression of IGFBP-1 does not enhance hepatic regeneration and does not prevent the decline in blood glucose following partial hepatectomy.