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)

Tyrosinemia type l is an inherited metabolic disorder attributable to deficiency of fumarylacetoacetate hydrolase, a terminal enzyme in the degradation pathway of tyrosine. Affected individuals may present with any of a number of signs and symptoms, including failure to thrive, fever, vomiting, diarrhea, hepatomegaly, ascites, jaundice, renal Fanconi syndrome, or conditions such as rickets and hepatocellular carcinoma.1 If untreated, the patient may die of acute liver failure before the second year of life, or from chronic liver failure or hepatocellular carcinoma before the end of the second decade of life.2 Although overt liver failure with coagulopathy may be part of the presentation of tyrosinemia, a significant coagulopathy in the absence of overt signs of liver disease has not been emphasized as a clue to the diagnosis of this condition. We report two tyrosinemic infants who presented with severe coagulopathies and no other signs of liver failure to stress this diagnostic point.
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PMID:Tyrosinemia type 1 should be suspected in infants with severe coagulopathy even in the absence of other signs of liver failure. 1004 78

Accumulation of 5-aminolevulinic acid (ALA) is an event characteristic of porphyrias that may contribute to their pathological manifestations. To investigate effects of ALA independent of porphyrin accumulation we treated rats with the methyl ester of succinylacetone, an inhibitor of 5-aminolevulinic acid dehydratase that accumulates in the porphyric-like syndrome hereditary tyrosinemia. Acute 2-day treatment of fasted rats with succinylacetone methyl ester (SAME) promoted a 27% increase in plasma ALA. This increase in plasma ALA was accompanied by augmentation of the level of total nonheme iron in liver (37%) and brain (20%). Mobilization of iron was also indicated by 49% increase in plasma iron and a 77% increase in plasma transferrin saturation. Liver responded with a mild (12%) increase in ferritin. Under these acute conditions, some indications of oxidative stress were evident: a 15% increase in liver reactive protein carbonyls, and a 42% increase in brain subcellular membrane TBARS. Brain also showed a 44% increase in CuZnSOD activity, consistent with observations in treatment with ALA. Overall, the data indicate that SAME promotes ALA-driven changes in iron metabolism that could lead to increased production of free radicals. The findings support other evidence that accumulation of ALA in porphyrias and hereditary tyrosinemia may induce iron-dependent biological damage that contributes to neuropathy and hepatoma.
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PMID:Iron mobilization by succinylacetone methyl ester in rats. A model study for hereditary tyrosinemia and porphyrias characterized by 5-aminolevulinic acid overload. 1074 55

Tyrosinaemia I (fumarylacetoacetate hydrolase deficiency) is an autosomal recessive inborn error of tyrosine metabolism that produces liver failure in infancy or a more chronic course of liver disease with cirrhosis, often complicated by hepatocellular carcinoma, in childhood or early adolescence. We studied a 37-year-old woman with tyrosinaemia I whose severe liver disease in infancy and rickets during childhood resolved with dietary therapy. From 14 years of age she resumed an unrestricted diet with the continued presence of the biochemical features of tyrosinaemia, yet maintained normal liver function. In adult years she accumulated only small amounts of succinylacetone. Despite this evolution to a mild biochemical and clinical phenotype, she eventually developed hepatocellular carcinoma. Her fumarylacetoacetate hydrolase genotype consists of a splice mutation, IVS6-1g>t, and a novel missense mutation, Q279R. Studies of resected liver demonstrated the absence of hydrolytic activity and of immunological expression of fumarylacetoacetate hydrolase in liver tumour. In nontumoral areas, however, 53% of normal hydrolytic activity and immunologically present fumarylacetoacetate hydrolase was found. This case demonstrates the high risk of liver cancer in tyrosinaemia I even in a seemingly favourable biological environment.
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PMID:Hepatocellular carcinoma despite long-term survival in chronic tyrosinaemia I. 1119 5

Hereditary tyrosinemia type 1 (HT1) is a severe autosomal recessive metabolic disease associated with point mutations in the human fumarylacetoacetate hydrolase (FAH) gene that disrupt tyrosine catabolism. An acute form of HT1 results in death during the first months of life because of hepatic failure, whereas a chronic form leads to gradual development of liver disease often accompanied by renal dysfunction, childhood rickets, neurological crisis, and hepatocellular carcinoma. Mice homozygous for certain chromosome 7 deletions of the albino Tyr; c locus that also include Fah die perinatally as a result of liver dysfunction and exhibit a complex syndrome characterized by structural abnormalities and alterations in gene expression in the liver and kidney. Here we report that two independent, postnatally lethal mutations induced by N-ethyl-N-nitrosourea and mapped near Tyr are alleles of Fah. The Fah(6287SB) allele is a missense mutation in exon 6, and Fah(5961SB) is a splice mutation causing loss of exon 7, a subsequent frameshift in the resulting mRNA, and a severe reduction of Fah mRNA levels. Increased levels of the diagnostic metabolite succinylacetone in the urine of the Fah(6287SB) and Fah(5961SB) mutants indicate that these mutations cause a decrease in Fah enzymatic activity. Thus, the neonatal phenotype present in both mutants is due to a deficiency in Fah caused by a point mutation, and we propose Fah(5961SB) and Fah(6287SB) as mouse models for acute and chronic forms of human HT1, respectively.
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PMID:Point mutations in the murine fumarylacetoacetate hydrolase gene: Animal models for the human genetic disorder hereditary tyrosinemia type 1. 1120 59

NTBC treatment has greatly improved the survival of patients with acute tyrosinemia and has reduced the need for liver transplantation during early childhood. In patients in whom treatment with NTBC was started early in life, 2 cases (1%) of HCC have occurred during the first year of treatment, but no further cases have occurred among these patients, who have been followed for up to 9 years. In patients with late start of NTBC treatment, there is a considerable risk for liver malignancy. The risk for malignancy in this group of patients must be evaluated on an individual basis, taking into account the phenotype and clinical status of the patient. Porphyric crises are not seen in patients who comply with the medication regimen. NTBC is a well-tolerated drug with few adverse effects.
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PMID:Nontransplant treatment of tyrosinemia. 1123 58

Tyrosinemia type I is an autosomal recessive inherited disorder caused by deficient fumarylacetoacetase activity. Treatment with 2-(2-nitro-4-trifluoro-methylbenzoyl)-1,3-cyclohexanedione (NTBC), an inhibitor of 4-hydroxyphenylpyruvate dioxygenase, has successfully been applied for the last few years. Our aim was to evaluate the clinical and biochemical response to treatment with NTBC of a 18-year-old patient with a chronic form of tyrosinemia type I, whose main clinical feature was vitamin D-resistant rickets leading to severe osteoporosis with multiple bone fractures and skeletal deformities. After treatment, toxic metabolites became undetectable and porphobilinogen synthase activity returned to normal. Renal function improved, blood hemoglobin returned to normal and alfa-fetoprotein decreased. The patient's general condition greatly improved. However, the alfa-fetoprotein concentration slowly increased during the second year of NTBC treatment and hepatocellular carcinoma developed. NTBC treatment should be considered even in advanced cases of tyrosinemia type I, although only as a palliative therapy.
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PMID:[Evolution of a case of tyrosinemia type I treated with NTBC]. 1126 62

Hypertyrosinemia encompasses several entities, of which tyrosinemia type I (or hepatorenal tyrosinemia, HT1) results in the most extensive clinical and pathological manifestations involving mainly the liver, kidney, and peripheral nerves. The clinical findings range from a severe hepatopathy of early infancy to chronic liver disease and rickets in the older child; gradual refinements in the diagnosis and medical management of this disorder have greatly altered its natural course, mirroring recent advances in the field of metabolic diseases in the past quarter century. Hepatorenal tyrosinemia is the inborn error with the highest incidence of progression to hepatocellular carcinoma, likely due to profound mutagenic effects and influences on the cell cycle by accumulated metabolites. The appropriate follow-up of patients with cirrhosis, the proper timing of liver transplantation in the prevention of carcinoma, and the long-term evolution of chronic renal disease remain important unresolved issues. The introduction of a new pharmacologic agent, NTBC, holds the hope of significantly alleviating some of the burdens of this disease. Mouse models of this disease have permitted the exploration of newer treatment modalities, such as gene therapy by viral vectors, including ex vivo and in utero methods. Finally, recent observations on spontaneous genetic reversion of the mutation in HT1 livers challenge conventional concepts in human genetics.
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PMID:Tyrosinemia: a review. 1137 Feb 59

The topic of this review is hepatorenal tyrosinemia (hereditary tyrosinemia type 1 [HT1], or fumarylacetoacetate hydrolase deficiency; OMIM# 276700). HT1 is the most serious and common of the genetic defects in tyrosine degradation. In addition, this disorder has importance as a model of spontaneous self-correction of liver disease, as a model of liver repopulation by transplanted cells and gene therapy, and as a genetic cause of hepatocarcinoma. However, other forms of hypertyrosinemia exist; hence, the differential diagnosis also will be described briefly. Recent years have seen much progress in our understanding of the molecular basis, the pathophysiology, and especially the treatment of HT1. The current intervention with 2-(2-nitro-4-trifluoro-methylbenzyol)-1,3 cyclohexanedione (NTBC) therapy has improved the outcome of this once devastating disorder. The successful repopulation of the HT1 liver with transplanted cells and positive results in the use of gene therapy in animal models may someday lead to therapy in humans that will obviate the need for life-long dietary and pharmacological therapy.
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PMID:The pathophysiology and treatment of hereditary tyrosinemia type 1. 1174 44

In human patients with hereditary tyrosinemia type I (HT1) a combination therapy of 2-(2-nitro-4-trifluoromethylbenzoyl)-1,3 cyclohexane dione (NTBC) and dietary restriction of phenylalanine and tyrosine is currently widely used. We previously reported that the use of NTBC in a murine model of HT1 abolished acute liver failure but did not prevent the development of hepatocellular carcinoma (HCC) in the setting of nonrestricted protein intake. Here we present the results obtained with higher doses of NTBC plus dietary tyrosine restriction on long-term follow up (>2 years). Liver function tests and succinylacetone levels were completely corrected with this regimen and cancer-free survival was improved when compared to historical controls. However, while no HT1 animals had HCC at age 13 months, the incidence was 2/16 (13%) at age 18 months and 1/6 (17%) after 24 months. Thus, even the most stringent therapy could not prevent the emergence of HCC in the mouse model of HT1, even when initiated prenatally.
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PMID:Long-term therapy with NTBC and tyrosine-restricted diet in a murine model of hereditary tyrosinemia type I. 1182 62

The incidence of hepatocellular carcinoma is increasing in many countries. The estimated number of new cases annually is over 500,000, and the yearly incidence comprises between 2.5 and 7% of patients with liver cirrhosis. The incidence varies between different geographic areas, being higher in developing areas; males are predominantly affected, with a 2:3 male/female ratio. The heterogeneous geographic distribution reflects the epidemiologic impact of the main etiologic factors and environmental risk, which are the hepatitis B (HBV) and hepatitis C (HCV) viruses. The percentage of cases of hepatocellular carcinoma attributable to HBV worldwide is 52.3% and is higher in Asia where the seroprevalence of HBsAg in the population is high. However, the vaccination campaign against this virus in some eastern countries has tended to lower the incidence of new cases of hepatocellular carcinoma. The percentage of cases of hepatocellular carcinoma attributable to HCV is 25%, and it is more prevalent in Japan, Spain, and Italy where the association between hepatocellular carcinoma and antibodies to HCV ranges between 50 and 70%. In most cases hepatocellular carcinoma develops in cirrhotic livers, where the persistent proliferation of liver cells represents the key factor of progression to hepatocellular carcinoma independent of the etiology. Another minor risk factor is aflatoxin B1 consumption, which is responsible for most cases of hepatocellular carcinoma in Africa, where the consumption of contaminated foods is common. Other known risk factors are some hereditary diseases, such as hemochromatosis, porphyria cutanea tarda, hereditary tyrosinemia, and alpha1 anti-trypsin deficiency. The natural history of hepatocellular carcinoma is heterogeneous and is influenced by nodule dimension, the mono- or plurifocality of lesions at diagnosis, the growth rate of the tumor, and the stage of the underlying cirrhosis. Available data to date suggest that tumor growth in a cirrhotic liver is variable and that the time in which a lesion in undetectable until it becomes 2 cm is between 4 and 12 months. Therefore, the suggested interval for surveillance screening with ultrasound in patients with liver cirrhosis has been set at 6 months. Patients who should benefit from screening programs are those who would be treated with curative therapy if diagnosed with hepatocellular carcinoma. Thus, the ideal target population should be limited to Child-Pugh's class A cirrhotic patients without significant comorbidity.
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PMID:Epidemiology, risk factors, and natural history of hepatocellular carcinoma. 1209 24


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