Growth hormone, insulinlike growth factor‐1, and insulinlike growth factor binding proteins 1 and 3 in chronic liver disease

The liver is the major source of circulating insulinlike growth factor‐I (IGF‐I) and has been suggested as a major source of at least two of the major binding proteins that modify its bioavailability. We aimed to assess the direct effects of liver dysfunction on serum levels of IGF‐1 and its major binding proteins by measuring fasting levels of growth hormone, IGF‐1, IGFBP‐1, IGFBP‐3, insulin, C peptide, and glucose in 35 patients with cirrhosis and during an oral glucose tolerance test in 16 of those patients. Serum levels of growth hormone (GH) were high in the patients: median, 12.0 mU/L (range, 1 to 87) compared with normals, 0.95 mU/L (0.1 to 20) ( P < .0005) and serum IGF‐1 levels were low: 81 ng/mL (38 to 153) versus 193 ng/mL (151 to 235) ( P < .0001). Serum IGFBP‐3 levels were low in the patients: 1.59 mg/L (0.46 to 4.43) compared with normals, 5.41 (4.34 to 6.11) ( P < .0001), and there was a significant negative correlation between IGFBP‐3 levels and Childs Pugh score ( r = .63 P < .0001). Fasting IGFBP‐1 levels were significantly higher in the patients 31 ng/mL (11 to 92) than normals, 14 (7 to 20) ( P < .0001). There was no correlation between fasting insulin and IGFBP‐1 levels despite high fasting insulin levels. A decrease in IGFBP‐1 levels was seen during the glucose tolerance test (GTT) in all patients. In conclusion, there are significant changes in the levels of two of the major IGF‐1 binding proteins that may further limit the bioavailability of already low circulating IGF‐1 levels. Substrate availability appears to be a stronger influence on fasting IGFBP‐1 levels than does insulin, and the close correlation of IGFBP‐3 with liver function indicates a dominant regulatory role of the hepatocyte.