UMLS:C0023890 - FACTA Search

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

A 20-year-old woman with abetalipoproteinemia underwent orthotopic liver transplantation for cirrhosis, affording access to her liver and small intestine for study. Before transplantation, her plasma apolipoprotein B concentration was less than 1 mg/dL according to enzyme-linked immunosorbent assay, whereas after transplantation her plasma apolipoprotein B concentration was 76 mg/dL (all apolipoprotein B-100). Apolipoprotein B content was reduced in her intestine and liver compared with normal and cirrhotic controls. Cultured hepatocytes from the patient's explanted liver secreted a 1.006 g/mL less than or equal to d less than or equal to 1.063 g/mL lipoprotein rich in apolipoprotein E and a 1.063 g/mL less than or equal to d less than or equal to 1.21 g/mL lipoprotein containing apolipoproteins E and A-I with no immunodetectable apolipoprotein B in the culture medium. Normal hepatocytes secreted very low-density lipoprotein and low-density lipoprotein containing apolipoprotein B-100. Abetalipoproteinemic intestinal apolipoprotein B messenger RNA concentration was 4-5-fold higher than control values. However, the patient's liver apolipoprotein B messenger RNA level was one fifth that of control normal and cirrhotic liver. Analysis of the patient's intestinal and hepatic apolipoprotein B messenger RNA for posttranscriptional stop-codon insertion revealed normally edited transcripts. These results suggest that apolipoprotein B is synthesized as the product of a normally edited messenger RNA transcript, but not secreted, in abetalipoproteinemia.
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PMID:Intestinal and hepatic apolipoprotein B gene expression in abetalipoproteinemia. 206 27

Serum concentrations of lipids and apolipoprotein A-I, A-II and B were determined in patients with hepatic metastases of colorectal cancer, with primary liver cancer and with cirrhosis. In all three liver diseases, the HDL fraction and apolipoproteins A-I and A-II showed significantly low values, while apolipoprotein B was only increased in hepatic metastases. The decrease of apolipoprotein A-II levels was more prominent in cirrhosis, thereby enhancing the A-I/A-II ratio. This ratio is decreased in metastasis and normal in hepatomas. In patients with hepatic metastases a correlation was observed between alkaline phosphatase and apolipoprotein A-II (p less than 0.05), and between gamma-glutamyltransferase and the A-I/A-II ratio (p less than 0.05). The present work suggests that determination of apolipoproteins and lipids of the HDL fraction offers a new approach to the study of liver diseases.
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PMID:Serum apolipoproteins A-I, A-II and B in hepatic metastases. Comparison with other liver diseases: hepatomas and cirrhosis. 287 62

Recent research has demonstrated that the major site of apolipoprotein(a) synthesis, the characteristic protein of lipoprotein(a) (Lp(a)), is the liver and that patients affected by liver cirrhosis have low serum concentrations of Lp(a). Nevertheless, it is still not clear whether Lp(a) behaviour in these patients is related to reduced hepatic protein synthesis, or to decreased serum lipid levels or to both these conditions. In order to investigate further the behaviour of Lp(a) and, in particular, its relationship with some indices of blood lipids and coagulation, 30 patients affected by liver cirrhosis have been studied. Significantly low serum values of Lp(a) were observed in patients with more severe hepatic injury included in classes B and C according to the Child-Pugh score. Lipoprotein(a) was directly correlated with prothrombin plasma activity and with apolipoprotein B-100 and albumin concentrations in serum. This study confirms low serum levels of Lp(a) in cirrhotic patients and suggests that its decrease could be partly due to impaired liver protein synthesis.
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PMID:Relationship between lipoprotein(a) levels in serum and some indices of protein synthesis in liver cirrhosis. 800 82

It has previously been shown that, in heavy drinkers, serum apolipoprotein A-I (ApoA-I) levels are closely related to the degree of liver injury: they are at a maximum in patients with steatosis, begin to decrease in patients with fibrosis, and reach a minimum in patients with severe cirrhosis. In contrast with serum ApoA-I variations, serum apolipoprotein B (ApoB) levels are stable. The assessment of messenger RNA (mRNA) levels of ApoA-I and ApoB using a quantitative competitive polymerase chain reaction (PCR) method was performed in 18 alcoholic patients: 8 with normal livers or steatosis (group I), 6 with fibrosis or nonsevere cirrhosis (group II), and 4 with severe cirrhosis (group III). For ApoA-I, group I had higher serum levels (208.4 +/- 37.6 mg/dL mean +/- SE) and mRNA levels (0.51 +/- 0.12) than group II (serum 116 +/- 19 mg/dL, P < .01, mRNA 0.40 +/- 0.11, P < .09) or group III (serum 56.5 +/- 28.6 mg/dL, P < .01, mRNA 0.27 +/- .02, P = .008). For ApoB, the three groups had similar serum ApoB levels: 129.9 +/- 37.7, 121 +/- 51, 120.7 +/- 57.4 mg/dL. Group I presented higher levels of ApoB mRNA than those of group III (0.68 +/- 0.21 vs. 0.41 +/- 0.18, P < .06). There was a significant correlation between serum and mRNA levels of ApoA-I (r = .65, P = .003) but no correlation between serum and mRNA levels of ApoB (r = .19, NS). We suggest that (1) steatosis is associated with increased ApoA-I mRNA; (2) fibrosis is associated with decreased serum ApoA-I, probably caused by a posttranscriptional mechanism; (3) severe alcohol-induced cirrhosis is associated with a nonspecific decrease in ApoA-I and ApoB mRNA; and (4) in contrast to ApoA-I mRNA, the ApoB mRNA level makes a slight contribution to the ApoB serum concentration.
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PMID:Quantification of apolipoprotein A-I and B messenger RNA in heavy drinkers according to liver disease. 855 47

Deficiency of apolipoprotein can be of genetic origin or due to diseases like advanced chronic liver disease. Deficiency of apolipoprotein A causes Tangier disease without any major hepatic involvement being reported. Deficiency of apolipoprotein B causes abetalipoproteinemia or familial hypobetalipoproteinemia; with hepatic involvement in the form of raised transaminases, fatty liver and cirrhosis. Advanced chronic liver disease itself can cause reduction of apolipoprotein A and apolipoprotein B levels and acanthocytosis. In patients with chronic liver disease of undetermined etiology, lipid profile and apolipoprotein levels should be obtained routinely. If it suggests apolipoprotein B deficiency, then liver biopsy can be avoided, as the etiology of chronic liver disease is established. Isolated deficiency of either apolipoprotein A or apolipoprotein B suggests etiology of chronic liver disease, while deficiency of both apolipoprotein A and apolipoprotein B is a manifestation of advanced chronic liver disease.
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PMID:Apolipoprotein deficiency and chronic liver disease. 1122 45

The outcome of infection with hepatitis C virus (HCV) varies greatly. The virus associates with serum lipoproteins, including those containing apolipoprotein E (apoE) and apolipoprotein B (apoB), and may enter cells via the low-density lipoprotein receptor (LDLR). ApoE genotypes can affect the extent of damage in diseases caused by 2 other viruses--herpes simplex virus type 1 (HSV1; in Alzheimer's disease and herpes labialis) and human immunodeficiency virus (HIV). We therefore investigated whether specific apoE and apoB alleles were associated with different outcomes of HCV infection. A total of 156 anti-HCV-positive patients and 104 non-HCV-infected patients were studied. Liver biopsy specimens from patients with chronic HCV infection (n = 111) were assessed for disease severity by the Knodell system. ApoE and apoB genotypes were determined by standard polymerase chain reaction (PCR) methods. There was no significant difference among the apoE genotypes of HCV-infected subjects compared with previously published population data, or between HCV-RNA positive or negative patients. However, chronically HCV-infected subjects with mild liver disease (n = 65) had a significantly higher apoE-epsilon 4 allele frequency (20.0%) than those (n = 46) with severe disease (6.5%). ApoB alleles alone or in combination with apoE were not associated with mild or severe disease. The overall apoE allele frequencies of patients with liver disease not caused by HCV were similar to those of the total HCV group and in contrast to the HCV patients, the apoE allele frequencies were similar in those patients with no or mild fibrosis as compared with those with bridging fibrosis or cirrhosis. In conclusion, carriage of an apoE-epsilon 4 allele may be protective against liver damage caused by HCV, but not against damage due to various nonviral causes. This is yet another case in which apoE may determine the severity of a viral disease.
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PMID:Apolipoprotein E-epsilon 4 protects against severe liver disease caused by hepatitis C virus. 1464 71

Hepatic steatosis is often associated with insulin resistance and obesity and can lead to steatohepatitis and cirrhosis. In this study, we have demonstrated that hormone-sensitive lipase (HSL) and adipose triglyceride lipase (ATGL), two enzymes critical for lipolysis in adipose tissues, also contribute to lipolysis in the liver and can mobilize hepatic triglycerides in vivo and in vitro. Adenoviral overexpression of HSL and/or ATGL reduced liver triglycerides by 40-60% in both ob/ob mice and mice with high fat diet-induced obesity. However, these enzymes did not affect fasting plasma triglyceride and free fatty acid levels or triglyceride and apolipoprotein B secretion rates. Plasma 3-beta-hydroxybutyrate levels were increased 3-5 days after infection in both HSL- and ATGL-overexpressing male mice, suggesting an increase in beta-oxidation. Expression of genes involved in fatty acid transport and synthesis, lipid storage, and mitochondrial bioenergetics was unchanged. Mechanistic studies in oleate-supplemented McA-RH7777 cells with adenoviral overexpression of HSL or ATGL showed that reduced cellular triglycerides could be attributed to increases in beta-oxidation as well as direct release of free fatty acids into the medium. In summary, hepatic overexpression of HSL or ATGL can promote fatty acid oxidation, stimulate direct release of free fatty acid, and ameliorate hepatic steatosis. This study suggests a direct functional role for both HSL and ATGL in hepatic lipid homeostasis and identifies these enzymes as potential therapeutic targets for ameliorating hepatic steatosis associated with insulin resistance and obesity.
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PMID:Hepatic overexpression of hormone-sensitive lipase and adipose triglyceride lipase promotes fatty acid oxidation, stimulates direct release of free fatty acids, and ameliorates steatosis. 1833 40

Homozygous familial hypobetalipoproteinaemia (Ho-FHBL) is a rare co-dominant disorder characterized by extremely low levels of low-density lipoprotein cholesterol (LDL-C) and apolipoprotein B (apoB). Most patients with Ho-FHBL have mutations in APOB gene resulting in truncated apoBs. Some patients are asymptomatic, while others have fatty liver, intestinal fat malabsorption and neurological dysfunctions. We investigated three adult subjects with severe hypobetalipoproteinaemia and a family history of FHBL. Proband FHBL-47 had liver cirrhosis with hepatocarcinoma and a renal carcinoma but no clinical manifestations related to FHBL. He was a compound heterozygote for a 7-bp deletion in exon 21 and a base insertion in exon 26 resulting in truncated apoBs (apoB-22.46/apoB-66.51). Proband FHBL-53, with severe hepatic steatosis and fibrosis, had a nonsense mutation in exon 19 resulting in a truncated apoB (apoB-20.61) and a rare nucleotide substitution in intron 14 (c.2068-4T>A). The latter was also present in her daughter, found to have low plasma LDL-C and apoB. Proband FHBL-82 had chronic diarrhoea and steatorrhoea. She was found to be homozygous for a nonsense mutation in exon 24 resulting in a truncated apoB (apoB-26.65). In adult subjects, the presence of chronic liver disease and chronic diarrhoea, when associated with severe hypobetalipoproteinaemia, may lead to the diagnosis of Ho-FHBL.
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PMID:Variable phenotypic expression of homozygous familial hypobetalipoproteinaemia due to novel APOB gene mutations. 1849 86

Familial hypobetalipoproteinemia (FHBL) is an autosomal codominantly inherited disorder of lipoprotein metabolism characterized by decreased concentrations of low-density lipoprotein-cholesterol and of apolipoprotein B (apoB). Mutations of APOB gene lead to the formation of truncated forms of apoB. The study aimed at determining the truncated form of apoB responsible for FHBL associated with liver cirrhosis in a 27-year-old man. Analysis of the patient's lipoproteins has been performed by SDS-PAGE electrophoresis followed by immunoblotting with monoclonal antibodies. DNA of the family (proband, daughter, wife, father, and mother) was extracted, and PCR amplification was realized; amplicons were screened and sequenced. Electrophoresis allowed us to identify a truncated form of apoB (close to apoB 59%), associated with a new heterozygous apoB variant, 8402 C>G. This mutation creates a stop codon (TAC>TAG, Y2807X) and predicts to generate a truncated protein (apoB-61.9%). No other causes of cirrhosis were established by comprehensive clinical and biological investigations. We described here an unusual clinical observation of a patient with FHBL and early development of liver cirrhosis due to a new truncated form of apoB.
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PMID:Cryptogenic cirrhosis in a patient with familial hypocholesterolemia due to a new truncated form of apolipoprotein B. 1906 Jun 34

Familial hypobetalipoproteinemia (FHBL) is one of the causes of nonalcoholic steatohepatitis (NASH) and a codominant disorder. Patients heterozygous for FHBL may be asymptomatic, although they demonstrate low plasma levels of low-density lipoprotein (LDL) cholesterol and apolipoprotein B. Here we report a nonobese 54-year-old man with decompensated liver cirrhosis who underwent living donor liver transplantation with his son as the donor. Low albuminemia and refractory ascites persisted after transplantation. A biopsy specimen obtained 11 months after liver transplantation revealed severe steatosis and fibrosis, and recurrent NASH was diagnosed on the basis of pathological findings. Both the patient's and donor's laboratory tests demonstrated low LDL cholesterol and apolipoprotein levels. Because mutations in messenger RNAs of microsomal triglyceride transfer protein and apolipoprotein B genes were excluded neither in the recipient nor in the donor, both were clinically diagnosed as being heterozygous for FHBL. We successfully treated the recipient with heterozygous FHBL-induced recurrent NASH after liver transplantation using our diet and exercise programs.
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PMID:Recurrent familial hypobetalipoproteinemia-induced nonalcoholic fatty liver disease after living donor liver transplantation. 1956 18

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