Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a case of severe hypoglycemia and hepatic masses suspected to be an insulin-like growth factor-II (IGF-II)-producing hepatocellular carcinoma. A 62-year-old man presented with mental disorder in the night and early morning associated with extremely low blood sugar levels (less than 21 mg/dl). Computerized axial tomography and ultrasonography revealed a massive tumor in the right lobe of the liver with multiple secondary nodules, and a tumor thrombus in the portal vein. At autopsy 107 days after admission, the liver weighed 3070 g, histologically showing an Edmondson type II tumor with liver cirrhosis. IGF-II in plasma (899 ng/ml) and tumor tissue (2.4 micrograms/g) was higher than that in normal plasma (374-804 ng/ml) and non-tumor liver tissue (0.2 micrograms/ml), while IGF-I (14 ng/ml) was significantly reduced. IGF-II, probably produced by the liver tumor, appeared to be involved in the mechanism of hypoglycemia.
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PMID:Primary hepatocellular carcinoma with severe hypoglycemia: involvement of insulin-like growth factors. 132 Jan 77

Insulin-like growth factor II (IGF-II) levels in human plasma were measured in physiological and pathological conditions by radioimmunoassay (RIA) with biosynthetic IGF-II. This RIA was specific for IGF-II and cross-reactivity with IGF-I was 1%. The sensitivity was 15 pg/tube with 50% displacement at 50 pg/tube. The intra- and inter-assay coefficients of variation for IGF-II were 6.3 and 9.3%, respectively. The plasma IGF-II levels in normal adults, patients with hypopituitarism and patients with active acromegaly were 589.6 +/- 15.8, 800.9 +/- 45.6 and 330.3 +/- 24.3 ng/ml, respectively. After human growth hormone (hGH) treatment in hypopituitarism, IGF-II slightly increased, but not significantly. After adenomectomy in patients with acromegaly, IGF-II significantly decreased. These data indicate that IGF-II concentrations in plasma were partially GH dependent. This GH dependency was less than that of IGF-I. IGF-II was low in patients with anorexia nervosa and with liver cirrhosis and high in patients with renal failure. In two cases with extrapancreatic tumor-associated hypoglycemia, plasma IGF-II was increased to 1123.8 and 843.5 ng/ml, and returned to normal after tumor resection. These data showed that IGF-II was partly dependent on GH and nutritional conditions and that IGF-II was the most likely cause of some cases of hypoglycemia with extrapancreatic tumor. This specific and sensitive RIA of IGF-II would be useful in evaluating its physiological and pathological role in plasma and tissue.
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PMID:Radioimmunoassay for insulin-like growth factor II (IGF-II). 208 2

Because growth failure is a frequent complication of chronic liver disease in childhood, we examined the growth hormone/insulin-like growth factor type I axis and its relationship to growth disturbances, nutritional status, and carbohydrate metabolism in nine children (2.1 to 18.6 years of age) with chronic cholestatic liver disease. Seven had cholestasis associated with splenomegaly and histologic findings of cirrhosis; two patients had Alagille syndrome. Stature was less than or equal to 15th percentile in all except the youngest subject and less than 5th percentile in five subjects. Ten-hour, nocturnal, integrated serum concentrations of growth hormone were considerably higher in patients with cholestasis than in control subjects (mean +/- SD) 9.7 +/- 3.8 vs 4.7 +/- 1.9 ng/ml; p less than 0.02). Serum concentrations of insulin-like growth hormone type I were less than 95th percentile confidence intervals for age- and sex-matched norms in five patients and at the lower limits of normal in the remaining four patients. Insulin sensitivity, determined with the minimal model intravenous glucose tolerance test, was not decreased in five patients despite elevated levels of circulating growth hormone. The estimated mean caloric and protein intake exceeded the recommended dietary allowance and the weight-for-height index was greater than 90% for six of nine patients. Triceps and subscapular skin-fold thicknesses, indicators of body fat stores, were greater than 25th percentile for five of nine and eight of nine patients, respectively, suggesting deficient lipolytic action of GH. We conclude that children with cholestatic liver disease have a resistance to the growth-promoting, diabetogenic, and lipolytic properties of growth hormone.
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PMID:Resistance to the growth-promoting and metabolic effects of growth hormone in children with chronic liver disease. 239 94

Insulin-like growth factor II is secreted primarily by the liver and is reported to be transcribed in many primary hepatocellular carcinoma (PHC) cell lines. We have studied diagnostic significance of serum IGF-II in chronic liver diseases using specific enzyme immunoassay. Serum IGF-II levels (mean +/- SE) were decreased in chronic hepatitis (538 +/- 51 ng/ml; N = 29), liver cirrhosis (427 +/- 45; 50) and PHC (260 +/- 41; 17) compared to controls (830 +/- 49; 57). Serum IGF-II was not different from controls in any of nonhepatic diseases such as diabetes (1032 +/- 97; 19) pancreatic cancer (1413 +/- 282; 8), chronic pancreatitis (999 +/- 126; 17), peptic ulcer (1186 +/- 43; 11), irritable bowel syndrome (1002 +/- 109; 12), gastrointestinal tract cancer (1250 +/- 216; 21) and chronic renal failure (733 +/- 135; 14). In liver diseases serum IGF-II showed a significant correlation with liver function test (negative with retention of indocyanine green and total bile acids; positive with albumin, thrombo-test, and cholinesterase). These results suggest that serum IGF-II reflects a reduced production of IGF-II in the liver and that it can be an index for the residual capacity of liver function.
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PMID:Serum insulin-like growth factor II in chronic liver disease. 253 15

In the present study we investigated the expression of transforming growth factor alpha and insulin-like growth factor II to explain the role of these growth factors in the development of hepatocellular carcinoma from chronic active hepatitis B and cirrhosis. The expression of transforming growth factor alpha and insulin-like growth factor II was tested in 38 tissue samples from patients with chronic active hepatitis B, 32 cirrhosis and 31 hepatocellular carcinoma, by immunohistochemical staining using monoclonal anti-transforming growth factor alpha and anti-insulin-like growth factor II. All patients were seropositive for HBsAg. Transforming growth factor alpha was expressed in 26 (68.4%) of 38 chronic active hepatitis B, 18 (56.3%) of 32 cirrhosis and 16 (51.6%) of 31 hepatocellular carcinoma tissue samples. Transforming growth factor alpha was found in the periportal hepatocytes of chronic active hepatitis B and in regenerating hepatocytes of cirrhotic nodules. In hepatocellular carcinoma tissues, transforming growth factor alpha-containing tumor cells were evenly distributed within the tumor tissues but focal distribution limited to a part of tumor tissues was also observed. The expression of insulin-like growth factor II was observed in 30 (93.8%) of 32 cirrhosis and all the 31 hepatocellular carcinoma tissue samples tested, but not in chronic active hepatitis B samples. Insulin-like growth factor II was expressed in most hepatocytes of regenerating nodules and in tumorous as well as non-tumorous hepatocytes of hepatocellular carcinoma tissues.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential expression of transforming growth factor alpha and insulin-like growth factor II in chronic active hepatitis B, cirrhosis and hepatocellular carcinoma. 760 79

Decreased serum insulin-like growth factor (IGF-I) levels have been shown in malnutrition and liver diseases. To analyse which of them is the main cause of GH-IGF-I axis alterations, serum levels of growth hormone (GH), growth-hormone releasing factor (GHRH), IGF-I and its binding protein IGFBP-3 were measured in 85 hospitalized alcoholics (51 without cirrhosis, 15 with compensated cirrhosis and 19 with cirrhosis with ascites) and in 25 healthy controls. Liver function tests and objective nutritional assessment were also performed. Serum IGF-I and IGFBP-3 levels were lower in alcoholics, particularly in those with liver cirrhosis. Serum GH was raised in cirrhotics with ascites but GHRH levels were not significantly altered. Although these patients were frequently malnourished there was no relationship between data derived from GH-IGF-I axis and nutritional parameters. However, there was a significant positive correlation between serum GH concentrations and impaired liver function and a significant negative correlation between serum IGF-I and IGFBP-3 and impaired liver function. This suggests that, in this population, serum IGF-I and IGFBP-3 levels reflect liver dysfunction rather than malnutrition.
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PMID:Effects of alcohol and liver cirrhosis on the GH-IGF-I axis. 867 9

Hyperinsulinemic euglycemic clamps were performed on six patients with compensated alcoholic cirrhosis and on six normal comparison subjects. As in previous studies, glucose uptake in the cirrhotic patients was only 21% of the comparison value. The cirrhotic patients had high growth hormone (GH) and low insulin-like growth factor-I (IGF-I) levels, with low insulin-like growth factor-binding protein (IGFBP)-3 levels, but surprisingly high IGFBP-I levels (26.8 +/- 8.4 microgH vs. 3.2 +/- 0.2 microm/L, P < .001). The log IGFBP-1 level was inversely correlated with the log insulin sensitivity (r = -.95). The clamps were repeated with a somatostatin infusion to suppress GH secretion. IGFBP-1 increased in both groups, especially in the cirrhotic subjects. Insulin sensitivity increased in the normal subjects but was unchanged in the cirrhotic patients. Following GH treatment (0.13 U/kg/d for 5 days), the clamps were repeated. GH, IGF-1, and IGFBP-3 levels were now similar in the two groups; IGFBP-1 levels decreased in the cirrhotic patients but remained fivefold higher than the comparison value (10.6 +/- 3.7 vs. 2.1 +/- 0.4, P < .05). Glucose uptake in the cirrhotic patients remained only 29% of the comparison value, but the change in their insulin sensitivity was inversely correlated with the change in their IGFB-1 levels (r = -.84). These results suggests an important role for IGFBP-1 in modulating insulin sensitivity in cirrhosis.
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PMID:High insulin-like growth factor binding protein 1 levels in cirrhosis: link with insulin resistance. 870 51

Patients with cirrhosis of the liver require an increased amount of protein to achieve N balance. However, the utilization of protein with increased protein intake, i.e. the slope from regression analysis of N balance v. intake, is highly efficient (Nielsen et al. 1995). In the present study, protein requirement and protein utilization were investigated further by measuring protein synthesis and degradation. In two separate studies, five or six patients with cirrhosis of the liver were refed on a balanced diet for an average of 2 or 4 weeks. Protein and energy intakes were doubled in both studies. Initial and final whole-body protein metabolism was measured in the fed state by primed continuous [15N]glycine infusion. Refeeding caused a statistically significant increase of about 30% in protein synthesis in both studies while protein degradation was only slightly affected. The increase in protein synthesis was associated with significant increases in plasma concentrations of total amino acids (25%), leucine (58%), isoleucine (82%), valine (72%), proline (48%) and triiodothyronine (27%) while insulin, growth hormone, insulin-like growth factor (IGF)-I and IGF-binding protein-3 were not changed significantly. The results indicate that the efficient protein utilization is due to increased protein synthesis, rather than decreased protein degradation, and suggest that increases in plasma amino acids may be responsible for the increased protein synthesis. A comparison of the patients who had a normal protein requirement with the patients who had an increased protein requirement suggests that the increased protein requirement is due to a primary increase in protein degradation. It is speculated that this is due to low levels of IGF-I secondary to impaired liver function, since initial plasma concentration of IGF-I was about 25% of control values and remained low during refeeding.
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PMID:Effect of long-term refeeding on protein metabolism in patients with cirrhosis of the liver. 913 67

It has recently been reported that insulin-like growth factor II (IGF-II) may play a role in the pathogenesis of hepatocellular carcinoma (HCC). We studied the relationship between the expression of IGF-II and fatty change in human small HCC using immunohistochemical staining techniques. Liver biopsy specimens were obtained from 35 patients with HCC (consisting of 15 patients with fatty change and 20 patients without fatty change). All patients had serum markers for the hepatitis C virus (HCV) and histological findings obtained from non-tumourous lesions showed liver cirrhosis or chronic active hepatitis. Immunohistochemical staining was performed using a monoclonal antibody against rat IGF-II. A positive immunoreaction was found in 69% (24/35) of HCC. Insulin-like growth factor II was immunodetected in 80% (12/15) of HCC with fatty change but only in 60% (12/20) of those without fatty change. In most cases, IGF-II was not found in hepatocytes from non-tumourous lesions. We believe this to be the first time that IGF-II has been detected immunohistochemically in small HCC derived from HCV infection. This growth factor was more frequently immunodetected in HCC with fatty change than without. As insulin is an essential factor for the metabolism of fatty acids, IGF-II may play an important role in both fatty degeneration and in the proliferation of HCC cells. Furthermore, immunohistochemical IGF-II staining may contribute to the diagnosis of HCC, particularly in early stages accompanied by fatty change.
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PMID:Immunohistochemical evidence of insulin-like growth factor II in human small hepatocellular carcinoma with hepatitis C virus infection: relationship to fatty change in carcinoma cells. 914 39

Human hepatitis B virus (HBV) is one of the causative agents of hepatocellular carcinoma (HCC). The virus encodes a 17 kDa protein, X, which is known to be a causative agent in the formation of HCC. An insulin-like growth factor-II (IGF-II) is expressed during the formation of HCC. Among the four promoters of the IGF-II gene, promoters 2, 3 and 4 become activated during the formation of HCC. The high frequency of detection of hepatitis B virus X (HBV-X) antigen in liver cells from patients with chronic hepatitis, cirrhosis, and liver cancer suggested that the expressions of HBV-X and IGF-II are associated. Studies were carried out to test the relationship between the HBV-X gene product and the activation of IGF-II promoter 4. We demonstrated that the HBV-X protein increases the endogenous IGF-II expression from promoter 3 and 4 of IGF-II gene. Analysis of the fourth promoter of IGF-II gene showed that the HBV-X gene product positively regulates transcription. Two copies of a motif are responsible for conferring HBV-X regulation on the fourth promoter of IGF-II. These motifs have been identified as Sp1 binding sites. Sp1 binding to IGF-II P4 promoter was identified by gel mobility shift assay using purified Sp1. By using a GAL4-Sp1 fusion protein it was demonstrated that HBV-X positively regulates the Spl mediated transcriptional activity of IGF-II in vivo. A protein-affinity chromatography experiment showed that HBV-X protein does not bind directly to Sp1, but HBV-X does augment the DNA binding activity of the phosphorylated form of Sp1 in HepG2 cells. Sp1 was phosphorylated by HBV-X and its DNA-binding activity was up-regulated upon HBV-X transfections. Various HBV-X mutant expression vectors were used for the demonstration of specific interactions between Sp1 and HBV-X. These results indicate that HBV-X functions as a positive regulator of transcription, and that Sp1 is a direct target for the transcriptional regulation of IGF-II. Increasing the DNA binding ability of the phosphorylated form of Sp1 by HBV-X might be an important mechanism for regulating the IGF-II gene expression and possibly promoting cell division during hepatic carcinogenesis. Our experimental results suggest that expression of HBV-X might induce the expression of IGF-II and the IGF-II might play a role in hepatitis B virus pathogenesis during the formation of HCC.
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PMID:The human hepatitis B virus transactivator X gene product regulates Sp1 mediated transcription of an insulin-like growth factor II promoter 4. 962 May 54


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