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:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The most early cirrhosis is observed in newborns with neonatal hemachromatosis. Early cirrhosis occurs in hereditary tyrosinemia type I, peroxisomal diseases and glycogen storage disease (type IV). In Wilson's disease, a case complicated with cirrhosis was reported in a 4-year-old patient. Slowly progressive cirrhosis is seen in patients with familial progressive intrahepatic cholestasis. Focal biliary cirrhosis is found in cystic fibrosis of the pancreas. Moreover, many other metabolic disorders, except for urea cycle disorders, are occasionally or rarely complicated with cirrhosis. Early diagnosis and proper management could prevent the development of cirrhosis in patients with galactosemia, hereditary fructose intolerance, etc. The occurrence of hepatoma must be monitored in these patients. Liver transplantation is indicated in a part of the patients with cirrhosis.
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PMID:[Liver cirrhosis in metabolic disorders]. 811 97

From 50 published cases of hepatocellular adenoma (HCA) in glycogen storage disease, type I (GSD I) some characteristic features may be deduced: 1. The male:female ratio was 2:1. This sharply contrasts to HCA of other origin which shows a strong female preponderance. 2. The histology of adenomas largely corresponded to other adenomas, except for the appearance of Mallory bodies, accompanied by neutrophilic inflammation and a peculiar lamellar fibrosis. This observation is of particular interest because Mallory bodies have so far not been described in adenomas but are a well established feature in hepatocellular carcinoma of any aetiology. 3. Adenomas had a tendency to regress after continuous nocturnal intragastric feeding, although not all cases responded favourably. 4. Ten cases of hepatocellular carcinoma (HCC) are recorded in GSD I in literature, whereby in half of them transition from HCA into HCC seems likely. 5. The similarity in clinical presentation and evolution with oestrogen-induced tumours is striking. Pathogenesis of adenoma formation in GSD I is not understood. Experimental evidence and the clinical observation of regression after correction of the metabolic imbalance suggest three possible candidate mechanisms: (1) a glucagon/insulin imbalance; (2) cellular glycogen overload; and (3) proto-oncogene activation. Evidence in favour of these three mechanisms from experimental studies and observations in humans are briefly reviewed.
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PMID:Glycogen storage disease I and hepatocellular tumours. 839 47

Despite increasing understanding of the genetic control of cell growth and the identification of several involved chemical and infectious factors, the pathogenesis of clinical and experimental hepatocellular carcinoma remains unknown. Available evidence is consistent with the possibility that selected changes in the hepatocellular metabolism of long-chain fatty acids may contribute significantly to this, process. Specifically, studies of the peroxisome proliferators, a diverse group of xenobiotics that includes the fibrate class of hypolipidemic drugs, suggest that increased fatty acid oxidation by way of extramitochondrial pathways (i.e., omega-oxidation in the smooth endoplasmic reticulum and beta-oxidation in the peroxisomes) results in a corresponding increase in the generation of hydrogen peroxide and, thus, oxidative stress. This in turn leads to alterations in gene expression and in DNA itself. We also review evidence supporting a potentially decisive influence of particular aspects of hepatocellular fatty acid metabolism in determining the activity of the extramitochondrial pathways. Moreover, certain intermediates of extramitochondrial fatty acid oxidation (e.g., the long-chain dicarboxylic fatty acids) impair mitochondrial function and are implicated as modulators of gene expression through their interaction with the peroxisome proliferator-activated receptor. Finally, the occurrence of hepatic tumors in type I glycogen storage disease (glucose-6-phosphatase deficiency) may exemplify this general mechanism, which may also contribute to nonneoplastic liver injury and to tumorigenesis in other tissues.
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PMID:Fatty-acid metabolism and the pathogenesis of hepatocellular carcinoma: review and hypothesis. 839 60

X-linked phosphorylase kinase (PHK) deficiency causes X-linked liver glycogenosis (XLG) which is the most frequent liver glycogen storage disorder in man. Recently we assigned XLG to the Xp22 chromosomal region by linkage analysis in two families segregating XLG. In this study a further localization of XLG in Xp22 was performed by extending the number of Xp22 markers, by extension of the number of family members from the two families of our previous study and by linkage analysis in four additional XLG families. Two-point linkage analysis revealed lod scores of 4.60, 5.73, 5.28, 8.62 and 5.14 for linkage between XLG and the DNA markers pXUT23 and pSE3.2-L(DXS16), pD2(DXS43), pTS247-(DXS197) and pPA4B(DXS207), respectively, all at 0% recombination. Linkage heterogeneity was not observed in this set of families. Multipoint linkage analysis increased the lod score for linkage between XLG and Xp22 to 16.79 relative to DXS197/DXS207. The position of the XLG gene was confirmed by analysis of recombinational events locating the XLG gene between DXS85 and DXS41. The XLG gene could not be mapped more precisely in this chromosomal region of approximately 20cM because of the absence of recombinational events between the XLG gene and the Xp22 markers. As we have previously shown that the rabbit liver alpha subunit of PHK (PHKA2) hybridizes to human Xp22, we isolated a human PHKA2 cDNA from a human hepatoma lambda gt11 cDNA library. Fluorescent in situ hybridization mapped human PHKA2 to Xp22. As this physical mapping coincides with the genetic mapping of XLG by linkage analysis, PHKA2 most probably harbours the mutation(s) responsible for XLG.
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PMID:X-linked liver glycogenosis: localization and isolation of a candidate gene. 851 97

Type III glycogen storage disease (GSD) is a disorder of carbohydrate metabolism caused by a deficiency of debranching enzyme. Different subtypes with different clinical pictures have been recognized. During childhood and early adulthood, the symptoms generally regress, and normal adulthood appears possible in most patients without symptoms or signs of cirrhosis. We report on an adult patient with GSD who developed endstage cirrhosis and a small hepatocellular carcinoma. She had GSD subtype IIIb, i.e., there were no signs of cardiomyopathy, myopathy, or neuropathy. She underwent a successful transplantation, representing the first case treated this way for this indication to our knowledge, and she is doing well after 1 year. Debranching enzyme activity was absent both in the liver and in the leukocytes before transplantation. The debranching enzyme activity remained absent in the leukocytes after transplantation. We conclude that patients with GSD type III may develop end-stage cirrhosis and hepatocellular carcinoma and therefore need hepatological follow-up during adulthood.
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PMID:Type IIIb glycogen storage disease associated with end-stage cirrhosis and hepatocellular carcinoma. The Liver Transplant Group. 904 94

Deficiency of glucose-6-phosphatase (G6Pase), a key enzyme in glucose homeostasis, causes glycogen storage disease type 1a (GSD-1a), also know as von Gierke disease. Expression of the G6Pase gene is regulated by multiple hormones, including glucocorticoids. The synthetic glucocorticoid dexamethasone increased G6Pase mRNA abundance and gene transcription in H4-IIE hepatoma cells. Transient transfection assays demonstrated that the G6Pase promoter was active in H4-IIE cells only in the presence of dexamethasone. The minimal G6Pase promoter was contained within nucleotides -234/+3, which has two putative glucocorticoid response elements (GREs) at nucleotides -178/-164 (site 1) and -154/-140 (site 2). Electromobility shift and transient transfection assays showed that only GRE site 1 was required for glucocorticoid-activated transcription from the G6Pase promoter. Deletion analysis demonstrated that the DNA elements absolutely essential for glucocorticoid-stimulated transcription from the G6Pase promoter were contained within nucleotides -234/-212, encompassing binding motifs for hepatocyte nuclear factors (HNFs) 1 (-226/-212) and 4 (-231/-220). Electromobility shift and cotransfection assays showed that HNF1alpha bound to its cognate site and mediated transcription activation of the G6Pase gene by glucocorticoids.
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PMID:Hepatocyte nuclear factor 1alpha is an accessory factor required for activation of glucose-6-phosphatase gene transcription by glucocorticoids. 983 6

A 40-year-old man with glycogen storage disease type 1a (von Gierke disease, GSD1a) developed hepatocellular carcinoma (HCC). Cold single-strand conformation polymorphism (SSCP) with 12% glycerol identified the G727T mutation in the glucose-6-phosphatase (G6Pase) gene, which has been reported to be the most common mutation in Japanese GSD1a patients. This case report is the first documentation of HCC in a case with G727T mutation. Given the prevalence of HCC in GSD1a with various germline mutations, analysis is needed to confirm that the germline mutation in this case is really related to hepatocarcinogenesis. DNA analysis of the family pedigree of this case, revealed three individuals with GSD1a and seven heterozygous carriers of the G727T mutation. As the diagnosis of GSD1a in this family was made only after these three patients reached adulthood, DNA diagnosis may help early identification of GSD1a patients and prevention of the progression of the disease. This DNA-based diagnosis permits prenatal diagnosis in at-risk patients and may facilitate screening and counselling of patients clinically suspected of having this disease.
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PMID:Case report: Hepatocellular carcinoma in type 1a glycogen storage disease with identification of a glucose-6-phosphatase gene mutation in one family. 1038 64

Hepatic adenomatosis is a rare disease defined by multiple hepatic adenomas. There is controversy with regard to the optimal treatment for this disease because the potential for intraperitoneal hemorrhage or malignant transformation of the tumors is difficult to estimate. Furthermore, the technical difficulties of complete resection of all adenomas present unique operative challenges. We report experience with two patients and reviewed all reported cases from 1977. We define hepatic adenomatosis as five or more hepatic adenomas not associated with a medical history of glycogen storage disease, anabolic steroid use, or oral contraceptive use. The incidence of hepatic adenomatosis was preponderate among women [20 of 32 patients (63%)]. Thirteen of 32 patients (41%) had intratumoral bleeding, including four patients with intraperitoneal hemorrhage. Ten of 13 patients (77%) with intratumoral bleeding complained of abdominal pain; overall, 19 of 32 patients (59%) had abdominal pain. Twelve patients underwent hepatic resection, 6 patients underwent liver transplantation with no reported mortality, and 14 patients had no surgical treatment. Hepatocellular carcinoma was histologically confirmed in 2 of 32 patients (6%). Larger symptomatic adenomas exposed to liver surface have a bleeding propensity and should be surgically resected. Routine biopsy of other small nodules suspected as adenomas is recommended for definitive diagnosis.
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PMID:Management issues regarding hepatic adenomatosis. 1055 59

A 13 year old patient with juvenile type IV glycogen storage disease died of the complications of hepatocellular carcinoma. To our knowledge this is the first reported case of hepatocellular carcinoma in association with type IV glycogen storage disease.
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PMID:Hepatocellular carcinoma in glycogen storage disease type IV. 1083 81

Type III glycogen storage disease (GSD III) is an autosomal recessive disorder characterized by the accumulation of abnormal glycogen in the liver and, in most patients, in the muscle. Although liver fibrosis is a well-known consequence of GSD III, until now only eight cases of liver cirrhosis and two cases of hepatocellular carcinoma have been described in patients affected by this disease. In this case report, the authors describe the clinical history of a patient affected by GSD III who developed severe liver disease during her adult life, progressing from fibrosis to cirrhosis and finally to hepatocellular carcinoma. Until now, the hepatic involvement in GSD III has been considered by most authors as mild and almost always self-limiting. This report, together with the previously published cases, clearly indicates that severe and progressive liver disease may complicate this metabolic disorder. These observations advise a careful hepatologic follow-up of patients affected by GSD III.
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PMID:Hepatocellular carcinoma complicating liver cirrhosis in type IIIa glycogen storage disease. 1091 84


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