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)

Tyrosinaemia type I is a recessively inherited disorder caused by a deficiency of fumarylacetoacetase (FAH), the last enzyme in tyrosine degradation. The presumed toxic agents are fumaryl- and maleylacetoacetate which are converted to succinylacetone (SA), a metabolite found in increased amounts in urine and plasma of the patients. The major clinical features are progressive liver damage and renal tubular defects with hypophosphataemic rickets. Renal tubular dysfunctions with secondary rickets may be lacking altogether, even in chronic patients. Hepatocellular carcinoma is a major cause of death in the chronic form. Diagnosis of the disorder is made by assay of SA in urine and serum and by determination of FAH in lymphocytes or fibroblasts. Prenatal diagnosis is performed by SA assay in amniotic fluid supernatant and FAH analysis in cultured amniotic fluid cells or chorionic villus material. Presence of a 'pseudodeficiency' gene for FAH prevents prenatal diagnosis by enzyme analysis in some families, and this gene also precludes identification of heterozygotes outside tyrosinaemia families. Immunoblot analyses show that acute patients and some chronic patients lack immunoreactive FAH protein. cDNA probes for FAH have been developed and several polymorphisms related to the FAH gene have been reported, which may allow prenatal diagnosis in families with complex genotypes. The gene for FAH has been mapped to chromosome 15 q23-q25. Liver transplantation is the ultimate treatment; most patients continue to excrete SA in urine after liver transplantation and therefore there is a possibility of kidney disease after transplantation.
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PMID:Tyrosinaemia type I--an update. 174 21

Three patients with hereditary tyrosinemia type 1, two brothers and one girl, studied at the age of 5, 12 and 15 years, respectively, had neither generalized hyperaminoaciduria, glucosuria nor clinical symptoms of rickets. Untreated the elder brother had only slightly elevated plasma tyrosine level (141 mumol/l, normal less than 80), and low excretion of p-hydroxyphenyllactate. He presented with pronounced thrombocytopenia (3 X 10(9)/l). At 13 years of age he contracted hepatocellular carcinoma. The younger brother presented with serum tyrosine of 318 mumol/l and thrombocyte count 48 X 10(9)/l. Succinylacetone in urine was elevated in both, 30 and 79 mumol/mmol creatinine, respectively. The female patient was investigated for hepatomegaly in infancy, atypical tyrosinemia being considered, but afterwards developed normally without diet or any other treatment until she contracted hepatoma at the age of 15 years. Her plasma tyrosine level was 600-700 mumol/l, and she excreted large amounts of p-hydroxyphenyllactate. Succinylacetone in urine was low but elevated (8 mumol/mmol creatinine). The fumarylacetoacetase activity in fibroblasts from the brothers and in lymphocytes from the girl was less than 5% and 10% of control levels, respectively. In conclusion, the chronic form of hereditary tyrosinemia may occur without evidence of renal tubular dysfunction.
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PMID:Hereditary tyrosinemia of chronic course without rickets and renal tubular dysfunction. 226 24

Hereditary tyrosinemia type I is a metabolic disorder of autosomal recessive inheritance. The disorder is characterized by progressive liver disease and renal tubular defects with accompanying hypophosphatemic rickets. It occurs in an acute and a chronic form. Hepatocellular carcinoma is frequently encountered in the chronic form of the disorder. The primary enzyme defect is a deficiency of fumarylacetoacetase (FAH) (EC 3.7.1.2), the last enzyme in the degradation of tyrosine. The enzyme defect results in accumulation of fumaryl- and maleyl-acetoacetate which are thought to cause the cellular damage in tyrosinemia. Fumaryl- and maleyl-acetoacetate are reactive compounds and have not been identified in tyrosinemia patients. Succinylacetone, however, presumably derived from these metabolites by reduction and decarboxylation, is elevated in serum and urine from the patients. The diagnosis of tyrosinemia can be established by determination of succinylacetone in urine or serum and by assay of FAH in lymphocytes and fibroblasts. Heterozygotes for FAH can be identified by fumarylacetoacetase analysis in lymphocytes and fibroblasts. Prenatal diagnosis of tyrosinemia is possible by analysis of succinylacetone in amniotic fluid supernatant and by assay of FAH in cultured amniotic fluid cells or chorionic villus material. Genetic variants of FAH may interfere in the prenatal diagnosis of tyrosinemia by the FAH assay and in the detection of the carrier state. Immunoblotting technique has shown absence of immunoreactive protein in liver tissue from tyrosinemia patients. Liver transplantation is as yet the only definite treatment of the disorder.
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PMID:Hereditary tyrosinemia type I--an overview. 329 30

Review of the literature of the past 40 years on tyrosine and its toxicity shows that no direct link between this aromatic amino acid and carcinogenesis has been well established. Ten years ago, studies of tyrosine toxicity in mice suggested the formation of an epoxide adduction product presumably derived from tyrosine by way of the liver microsomal detoxification system. Another study showed an increased frequency of hepatomas following long-term treatment with para-hydroxyphenyllactic acid, a tyrosine derivative occurring in the absence of p-hydroxyphenylpyruvate oxydase activity. Recently, studies on hereditary tyrosinemias (Type I) have indicated that the primary enzyme defect in these diseases is a deficiency of liver and renal fumarylacetoacetase. This results in an accumulation of natural alkylating derivatives of homogentisic acid such as maleyl- and fumarylacetoacetate in liver. Adduction of these compounds by glutathione is demonstrated by the presence of the mercapturic acid S-2-fumaryl-acetone-N-acetylcysteine in urine of patients. This adduct is also present in the urine of a number of heterozygote carriers after oral loads consisting of small quantities of homogentisic acid. In this report, we present the results of preliminary animal studies on the biochemical nature of the toxic effects of these tyrosine derivatives in these diseases along with preliminary data on the influence of fumarylacetone on protein synthesis in cultured eucaryotic cells. Fumarylacetone reacts as a natural alkylating agent and may, along with maleylacetoacetate, be responsible for the high incidence of late-onset hepatoma in the clinical chronic forms of hereditary tyrosinemias.
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PMID:Hereditary tyrosinemias (type I): a new vista on tyrosine toxicity and cancer. 359 20

Tyrosinaemia type I is, untreated, a fatal disease: in the acute form from liver failure, in the chronic form often from hepatocellular carcinoma. Acute neurological crisis is also a cause of death. Traditionally the treatment has been with diet, but for a decade liver transplantation has been the ultimate treatment. The continuous production of the pathological metabolites in the kidneys after transplantation appears to be without significance. Introduction of the enzyme inhibitor NTBC in the treatment of tyrosinaemia has reduced the need for liver transplants. Neonatal screening may be justified as efficient treatment has become available. The complex phenotype of lethal albino mice, with severe alterations in gene expression, has been shown to be caused by fumarylacetoacetase deficiency. Prolonged hypoglycaemia in otherwise adequately treated tyrosinaemia patients may result from depressed expression of genes coding for enzymes in gluconeogenesis, as seen in the mouse model. Self-induced genetic correction in liver tissue that occurs in many tyrosinaemia patients may reduce the risk of liver failure in some patients.
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PMID:Tyrosinaemia--treatment and outcome. 749 96

Hereditary tyrosinaemia type I, a severe autosomal recessive metabolic disease, affects the liver and kidneys and is caused by deficiency of fumarylacetoacetate hydrolase (FAH). Mice homozygous for a FAH gene disruption have a neonatal lethal phenotype caused by liver dysfunction and do not represent an adequate model of the human disease. Here we demonstrate that treatment of affected animals with 2-(2-nitro-4-trifluoro-methylbenzyol)-1,3-cyclohexanedione abolished neonatal lethality, corrected liver function and partially normalized the altered expression pattern of hepatic mRNAs. The prolonged lifespan of affected animals resulted in a phenotype analogous to human tyrosinaemia type I including hepatocellular carcinoma. The adult FAH-/- mouse will serve as useful model for studies of the pathophysiology and treatment of hereditary tyrosinaemia type I as well as hepatic cancer.
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PMID:Pharmacological correction of neonatal lethal hepatic dysfunction in a murine model of hereditary tyrosinaemia type I. 754 95

Hereditary tyrosinemia type I (HTI) (MIM 276700) is an autosomal recessive disorder caused by deficiency of fumarylacetoacetase (EC 3.7.1.2), which is the last enzyme in the tyrosine degradation pathway. The enzyme block causes accumulation of toxic metabolites in the liver and kidneys, which are the organs where tyrosine is mainly degraded. The disorder is characterized by severe liver disease, which either causes liver failure in infancy or may take a more protracted course, with death often occurring during childhood or adolescence because of hepatoma development. Treatment with a diet restricted in phenylalanine nd tyrosine does not prevent progression of the liver disease and development of hepatocellular carcinoma. Liver transplantation was previously the only option for these patients. Important achievements from metabolic and molecular biology studies of the disease include a new treatment for patients with HTI using an enzyme inhibitor, detection of self-induced correction of the genetic defect in regenerative liver nodules in HTI patients, identification and development of useful animal models for HTI, and studies of the molecular genetics of HTI. These advances will have great implications for our understanding of pathogenetic mechanisms, which is the basis for improved diagnostic methods and improved treatment of patients with HTI.
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PMID:Diagnosis and management of tyrosinemia type I. 877 26

Hereditary tyrosinemia type I (HT I, McKusick 276,700) is a metabolic disease with a pattern of autosomal recessive inheritance. The disease is caused by a deficiency of the enzyme involved in the last step in the degradation of the amino acid tyrosine, fumarylacetoacetate hydrolase (FAH). The result of this block is the accumulation of catabolites some of which have been proposed to be highly toxic due to their alkylating potential. In humans, hereditary tyrosinemia is often associated with the development of hepatocellular carcinoma in young patients. The reasons for the high incidence of hepatocellular carcinoma are unknown but it has been suggested that it may be caused by accumulated metabolites such as fumarylacetoacetate (FAA) and maleylacetoacetate (MAA). The various mutational defects in the FAH gene are reviewed. The use of two mouse models of this disease to study the molecular basis of the pathologies associated with HT I are discussed. Finally, some preliminary data on the mutagenic potential of FAA and MAA in a gene reversal assay are presented.
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PMID:Tyrosine and its catabolites: from disease to cancer. 879 Jul 25

Tyrosinemia, a genetic disorder of the liver and kidneys, is caused by reduced activity of fumarylacetoacetate hydrolase (FAH), the final enzyme in the degradation of tyrosine. The consequent presence of succinylacetone in urine or blood is pathognomonic of tyrosinemia and is used as a confirmatory test in the Quebec neonaral screening program. Due to a complex founder effect, the province of Quebec has an unusually high prevalence of tyrosinemia, particularly in the Saguenay-Lac Saint-Jean region (where the prevalence is 1 in 1850). Tyrosinemia has several different clinical presentations, ranging from acute liver failure with severe coagulopathy early in life, to slowly progressing cirrhosis with multiple nodules and variable renal dysfunction, to normal liver function with renal failure. Hepatocarcinoma has been found in approximately one third of cases. FAH complementary DNA has been cloned and mapped to chromosome 15q23-q25. The mutation observed in Quebec is a splice mutation at intron 12. This mutation is common and has been observed in other areas of the world as well, although more than 20 mutations causing tyrosinemia have now been described. Liver transplantation remains the definitive treatment. The author's team has carried out 28 liver transplantations (including 2 combined liver-kidney transplantations) in 25 children. The overall survival rate has been 92%; two children died as a result of primary nonfunction. The primary indications for transplantation were hepatic nodules (in 14 cases), neurological crises (6) and hepatic (3) or renal failure (2). An abnormal glomerular filtration rate (GFR) of less than 80 mL/min per 1.73 m2 was documented before transplantation in 54% of the cases. The rate normalized after liver transplantation in most patients, with rapid improvement in tubular function. However, patients with a severely low rate (less than 55 mL/min per 1.73 m2) before transplantation still had borderline renal function and poor growth after the transplantion, despite normal liver function. Therefore, for children with a consistently low GFR, careful consideration should be given to performing a combined liver-kidney transplantation, and a renal biopsy should form part of the pretransplantation evaluation.
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PMID:Tyrosinemia: the Quebec experience. 888 68

Hereditary tyrosinemia 1 (HT1) is characterized by progressive liver damage, from infancy, and by a high risk for hepatocellular carcinoma. HT1 is due to mutations in the fumarylacetoacetate hydrolase gene Fah, encoding the last enzyme in the tyrosine catabolic pathway. Lethal albino deletion c14CoS mice and mice with target-disrupted Fah are models for HT1, but they die in the perinatal period, albeit with a different phenotype from that seen in HT1 in humans. We first asked whether homozygous null mutation of the 4-hydroxyphenylpyruvate dioxygenase gene Hpd could rescue the homozygous c14CoS mice (c14CoS/c14CoS or Fah-/-). The double mutant Fah-/- Hpd-/- mice appeared normal, at least until age 18 months, and there was no evidence of liver disease, findings that facilitated examination of the effect of Fah-/- on mature and unmodified hepatocytes in vivo. The hepatocytes of Fah-/- undergo rapid apoptosis, and acute death follows. Essentially the same phenomena were observed when Fah-/- Hpd-/- mice were administered homogentisate intraperitoneally. These changes in liver pathology in Fah-/- Hpd-/- mice after the administration of homogentisate were associated with massive urinary excretion of succinylacetone. These results suggest that accumulation of fumarylacetoacetate, maleylacetoacetate, or succinylacetone seems to trigger the endogenous process of apoptosis in hepatocytes that lack fumarylacetoacetate hydrolase activity. This apoptosis may be related to the development of hepatocellular carcinomas seen in HT1 patients and pharmaceutically treated fumarylacetoacetate hydrolase-deficient mice.
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PMID:Complete rescue of lethal albino c14CoS mice by null mutation of 4-hydroxyphenylpyruvate dioxygenase and induction of apoptosis of hepatocytes in these mice by in vivo retrieval of the tyrosine catabolic pathway. 930 2


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