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)

We have recently reported that disease-specific differential alterations in the hepatic expression of xenobiotic-metabolizing cytochrome P450 (CYP P450) enzymes occur in patients with advanced liver disease. In order to determine whether the observed changes in CYP proteins are modulated at pre- or post-translational levels, we have now examined the hepatic levels of mRNA for CYPs 1A2, 2C9, 2E1 and 3A4 by solution hybridization in the same livers of 20 controls (surgical waste from histologically normal livers), 32 cases of hepatocellular and 18 of cholestatic severe chronic liver disease. CYP1A2 mRNA and CYP1A immunoreactive protein were both reduced in livers with hepatocellular and cholestatic types of cirrhosis. In contrast, CYP3A4 mRNA and protein were reduced only in livers from patients with hepatocellular diseases. For 1A2 and 3A4 there were significant correlations between mRNA species and the respective protein contents (rS1A2 = 0.74, rS3A4 = 0.64, P < 0.0001). CYP2C9 mRNA was reduced in patients with both cholestatic and hepatocellular types of liver disease, but 2C protein was reduced only in patients with cholestatic dysfunction. The correlation between CYP2C9 mRNA and protein, was also significant (rs = 0.36, P < 0.005) but mRNA levels accounted for only 13% of the variability in protein rankings. This is probably a consequence of other CYP2C proteins apart from 2C9 being detected by the anti-2C antibody. CYP2E1 mRNA and protein were reduced in patients with cholestatic liver disease, but in hepatocellular disease the expression of only CYP2E1 mRNA was decreased. CYP2E1 mRNA was significantly correlated with CYP2E1 protein but accounted for only 18% of the variability in protein rankings (rs = 0.43, P < 0.0005). Taken collectively these data indicate that the disease-specific alterations of xenobiotic-metabolizing CYP enzymes among patients with cirrhosis is due, at least in part, to pre-translational mechanisms. The lack of a strong correlation between CYP2E1 mRNA and protein suggests that this gene, like its rat orthologue, may be subject to pre-translational as well as translational and/or post-translational regulation.
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PMID:Pre-translational regulation of cytochrome P450 genes is responsible for disease-specific changes of individual P450 enzymes among patients with cirrhosis. 774 59

Inter- and intraindividual variability in pharmacokinetics of most drugs is largely determined by variable liver function as described by parameters of hepatic blood flow and metabolic capacity. These parameters may be altered as a result of disease affecting the liver, genetic differences in metabolising enzymes, and various types of drug interactions, including enzyme induction, enzyme inhibition or down-regulation. With the now known large number of drug metabolising enzymes, their differential substrate specificity, and their differential induction or inhibition, each test substance of liver function should be used as a probe for its specific metabolising enzyme. Thus, the concept of model test-substances providing general information about liver function has severe limitations. To test the metabolic activity of several enzymes, either several test substances may be given (cocktail approach) or several metabolites of a single test substance may be analysed (metabolic fingerprint approach). The enzyme-specific analysis of liver function results in a preference for analysis of the metabolites rather than analysis of the clearance of the parent test substance. There are specific methods to quantify the activity of cytochrome P450 enzymes such as CYP1A2, CYP2C9, CYP2C19MEPH, CYP2D6, CYP2E1, and CYP3A, and phase II enzymes, such as glutathione S-transferases, glucuronyl-transferases or N-acetyltransferases, in vivo. Interactions based on competitive or noncompetitive inhibition should be analysed specifically for the cytochrome P450 enzyme involved. At least 5 different types of cytochrome P450 enzyme induction may result in major variability of hepatic function; this may be quantified by biochemical parameters, clearance methods, or highly enzyme-specific methods such as Western blot analysis or molecular biological techniques such as mRNA quantification in blood and tissues. Therapeutic drug monitoring is already implicitly used for quantification of the enzyme activities relevant for a specific drug. Selective impairment of hepatic enzymes due to gene mutations may have an effect on the pharmacokinetics of certain drugs similar to that caused by cirrhosis. Assessment of this heritable source of variability in liver function is possible by in vivo or ex vivo enzymological methods. For genetically polymorphic enzymes and carrier proteins involved in drug disposition, molecular genetic methods using a patient's blood sample may be used for classification of the individual into: (i) the impaired or poor metaboliser (homozygous deficient); (ii) the extensive (homozygous active) metaboliser group; and (iii) the moderately extensive metaboliser (heterozygous) group. For hepatic blood flow determinations, galactose or sorbitol given at relatively low doses may be much better indicators than the indocyanine green.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Assessment of liver metabolic function. Clinical implications. 798 3

Drug metabolism is usually impaired in malnourished patients with decompensated cirrhosis, but the separate influence of clinicopathological variables, including nutritional status, on the expression of hepatic cytochrome P450 proteins has not been well characterized. We determined the hepatic content of CYP1A2, CYP2C8/10, CYP2E1 and CYP3A proteins in 71 subjects, 21 with histologically normal livers and 50 with chronic liver disease, and then tested for potential relationships between patient variables and individual CYP proteins by multivariate linear regression analysis. Variables analysed included nutritional status (determined by experienced clinicians), serum albumin and bilirubin concentrations, prothrombin time, the grade of ascites and hepatic encephalopathy, and the Child-Pugh score. Impaired nutrition and cachexia were associated with reductions of CYP2C8/10 levels of approximately 19 and 39%, respectively, relative to cases in which nutrition was replete. Similarly, CYP2E1 protein was reduced by approximately 13 and 26%, according to the apparent severity of nutritional impairment. In contrast, nutritional status did not contribute to variability in expression of CYP1A2 or CYP3A proteins. Of the clinicopathological variables analysed, only serum bilirubin was shown to have an independent influence on CYP protein content. Thus, elevated serum bilirubin concentrations were associated with significant declines in the contents of CYP1A2 and CYP2C8/10 but not CYP3A or CYP2E1. The mechanisms for the effects of nutritional status and serum bilirubin concentration on the levels of CYP proteins are unclear, but could be mediated by factors such as cytokines, dietary composition and alterations in the level of serum bile acids. Knowledge of the influence of clinicopathological factors and nutritional status on CYP expression should lead to more rational drug prescribing in patients with hepatic disease.
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PMID:Influence of clinicopathological variables on CYP protein expression in human liver. 867 39

Genetic polymorphisms of various cytochromes P450 have recently been described and could be implicated in the individual susceptibility of alcoholics to ethanol-related diseases. Rsal and Dral polymorphisms of CYP2E1 and Mspl polymorphism of CYP1A1 were studied in 260 controls and 511 alcoholic patients, without any clinical symptoms (n = 202) or with various ethanol-related diseases (n = 309), such as liver cirrhosis (n = 110), esophageal cancer (n = 62), upper aerodigestive tract cancer (n = 96), and other miscellaneous diseases (n = 41). Frequencies of the mutated alleles were found to be 2.5% (Rsal), 7.9% (Dral), and 8.7% (Mspl) in controls; 4%, 14.1%, and 12% in alcoholics without clinical symptoms; and 3.1%, 12.5%, and 11.2% in alcoholics with ethanol-related diseases. The only significant difference was found in the Dral polymorphism, whose frequency was enhanced in alcoholics with (p < 0.05) or without ethanol-related diseases (p < 0.01) when compared with controls. No differences were found between alcoholics without clinical symptoms and alcoholics with cirrhosis, esophageal cancer, or upper aerodigestive tract cancer. However, in liver cirrhosis and in ethanol-related cancers, the rare Dral-C allele was three times less frequent in patients under the age of 45 than in older patients, suggesting a protective role for this allele. In conclusion, our data indicate that the aforementioned mutations do not play a critical role in the development of cirrhosis, esophageal cancer, or upper aerodigestive tract cancers in Caucasians.
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PMID:Cytochromes P4502E1 and P4501A1 genotypes and susceptibility to cirrhosis or upper aerodigestive tract cancer in alcoholic caucasians. 889 24

Ethanol-inducible cytochrome P4502E1 is the main pathway in the non-alcohol dehydrogenase oxidation of ethanol. Its coding gene, CYP2E1, is polymorphic at the Rsa I restriction site in the 5'-flanking region. The mutant genotype c2c2 has a higher transcriptional activity than the genotype c1c1 or c1c2. Heavy drinkers carrying the c2 allele might be at a higher risk of alcoholic cirrhosis since they might synthesize greater amounts of acetaldehyde, the compound believed responsible for hepatotoxicity of ethanol. With the aim of establishing if the c2 allele increases the risk of cirrhosis in heavy drinkers, we studied 58 (6 female) chronic heavy drinkers with liver cirrhosis and 137 healthy normal controls of the same ethnic (white Spaniards) origin. After extraction of DNA from white blood cells, alleles c1 and c2 of CYP2E1 were identified by restriction fragment length polymorphism (RFLP) with endonuclease Rsa I. Fifty-six patients and 130 controls were classified as homozygous c1c1 and two and seven, respectively, as heterozygous c1c2. No homozygous c2c2 were detected. The c2 allele frequencies were 0.017 in patients and 0.026 in controls (non-significant differences). We conclude that the Rsa I RFLP polymorphism is probably not related to the risk of cirrhosis in Spanish heavy drinkers.
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PMID:Rsa I polymorphism at the cytochrome P4502E1 locus is not related to the risk of alcohol-related severe liver disease. 902 17

To determine the role of CYP2E1 gene in susceptibility to alcoholism and alcohol cirrhosis, we gentoyped a sample of alcoholics with and without cirrhosis, alcoholics with antisocial personality, alcoholic families, and normal controls with RsaI, PstI, and DraI polymorphisms in the gene. Relative risk and haplotype relative risk approaches were used in genotype data analysis. The PstI polymorphism data were excluded from further analysis due to strong linkage disequilibrium with RsaI. For the RsaI polymorphism, comparison of total alcoholics, alcoholics with and without cirrhosis, and alcoholics with antisocial personality with normal controls were negative. The results of the same analysis with the above groups for DraII were also negative. Using the haplotype relative risk method, the result for DraI was positive, meaning that the mutated allele (D2) was significantly more transmitted than nontransmitted. However, the result of the same analysis for the RsaI polymorphism was not statistically significant. We conclude that the CYP2E1 gene plays no substantial role in susceptibility to alcohol cirrhosis or alcoholism.
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PMID:Association studies of polymorphisms of CYP2E1 gene in alcoholics with cirrhosis, antisocial personality, and normal controls. 966 Mar 17

Recent data from animal studies suggest that induced hypothyroidism inhibits the development of liver injury in several animal models, including liver cirrhosis and fulminant hepatic failure in rats, and immune-mediated acute liver injury in mice. The aim of the present study was to determine whether hypothyroidism would likewise prevent acetaminophen-induced hepatic damage in rats. Liver damage was induced by acetaminophen (2 g/kg) administered by gavage to fasting rats as a single dose. Hypothyroidism was induced by methimazole, propylthiouracil, or surgical thyroidectomy and confirmed by elevated serum levels of TSH. Hypothyroidism significantly inhibited acetaminophen-induced liver damage as manifested by the decreased serum levels of liver enzymes, malondialdehyde and blood ammonia, as well as by the higher hepatic glutathione content, in all three groups of hypothyroid rats compared to euthyroid controls (P < 0.01). Histopathologic analysis showed significantly less liver necrosis and inflammation in the acetaminophen-treated hypothyroid rats. Oxygen extraction, measured in isolated perfused rat liver preparation, was also reduced in the hypothyroid livers to 42+/-8% compared to 81+/-14% of controls (P < 0.01). However, the expression of CYP2E1 in the livers of hypothyroid rats, as measured by western blot analysis, was not decreased compared to control rats. These results suggest that induced hypothyroidism, regardless of the mode of induction, protects rat liver from acetaminophen hepatotoxicity. This effect may be related to hypometabolism of liver cells, but the exact mechanism needs further clarification.
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PMID:Hypothyroidism protects rat liver from acetaminophen hepatotoxicity. 1038 2

Much progress has been made in the understanding of the pathogenesis of alcoholic liver disease, resulting in improvement of prevention and therapy, with promising prospects for even more effective treatments. The most successful approaches that one can expect to evolve are those that deal with the fundamental cellular disturbances resulting from excessive alcohol consumption. Two pathologic concepts are emerging as particularly useful therapeutically. Whereas it continues to be important to replenish nutritional deficiencies, when present, it is crucial to recognize that because of the alcohol-induced disease process, some of the nutritional requirements change. This is exemplified by methionine, which normally is one of the essential amino acids for humans, but needs to be activated to S-adenosylmethionine (SAMe), a process impaired by the disease. Thus, SAMe rather than methionine is the compound that must be supplemented in the presence of significant liver disease. Indeed, SAMe was found to attenuate mitochondrial lesions in baboons, replenish glutathione, and significantly reduce mortality in patients with Child A or B cirrhosis. Similarly, polyenylphosphatidylcholine (PPC) corrects the ethanol-induced hepatic phospholipid depletion as well as the decreased phosphatidylethanolamine methyltransferase activity and opposes oxidative stress. It also deactivates hepatic stellate cells, whereas its dilinoleoyl species (DLPC) increases collagenase activity, resulting in prevention of ethanol-induced septal fibrosis and cirrhosis in the baboon. Clinical trials with PPC are ongoing in patients with alcoholic liver disease. Furthermore, enzymes useful for detoxification, such as CYP2E1, when excessively induced, become harmful and should be downregulated. PPC is one of the substances with anti-CYP2E1 properties that is now emerging. Another important aspect is the association of alcoholic liver disease with hepatitis C: a quarter of all patients with alcoholic liver disease also have markers of HCV infection, with an even higher incidence in some urban areas but, at present, no specific therapy is available since interferon is contraindicated in that population. However, in addition to antiviral medications, agents that oppose oxidative stress and fibrosis should also be tested for hepatitis C treatment since these two processes contribute much to the pathology and mortality associated with the virus. In addition to antioxidants (such as PPC, silymarin, alpha-tocopherol and selenium), anti-inflammatory medications (corticosteroids, colchicine, anticytokines) are also being tested as antifibrotics. Transplantation is now accepted treatment in alcoholics who have brought their alcoholism under control and who benefit from adequate social support but organ availability is still the major limiting factor and should be expanded more aggressively. Finally, abstinence from excessive drinking is always indicated; it is difficult to achieve but agents that oppose alcohol craving are becoming available and they should be used more extensively.
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PMID:Alcoholic liver disease: new insights in pathogenesis lead to new treatments. 1072 99

Liver diseases are associated with a decrease in hepatic drug elimination, but there is evidence that cirrhosis does not result in uniform changes of cytochrome P450 (CYP) isoenzymes. The objective of this study was to determine the content and activity of four CYP isoenzymes in the bile duct ligation and carbon tetrachloride (CCl4)-induced models of cirrhosis. The hepatic content of CYP1A, CYP2C, CYP2E1, and CYP3A was measured by Western blot analysis. CYP activity in vivo was evaluated with breath tests using substrates specific for different isoenzymes: caffeine (CYP1A2), aminopyrine (CYP2C11), nitrosodimethylamine (CYP2E1), and erythromycin (CYP3A). Bile duct ligation resulted in biliary cirrhosis; CYP1A, CYP2C and CYP3A content was decreased and the caffeine, aminopyrine, and erythromycin breath tests were reduced whereas CYP2E1 content and the nitrosodimethylamine breath test were unchanged compared with controls. CCl4 treatment resulted in cirrhosis of varying severity as assessed from the decrease in liver weight and serum albumin. In rats with mild cirrhosis, CYP content was comparable with controls except for a decrease in CYP2C. The activity of CYPs was also unchanged except for an increase in CYP2E1 activity. In rats with more severe cirrhosis, the content of all four CYP isoenzymes and the caffeine, aminopyrine, and erythromycin breath tests were reduced whereas the nitrosodimethylamine breath test was unchanged. In both models of cirrhosis, there was a significant correlation between the breath tests results and the severity of cirrhosis as assessed from serum albumin levels. These results indicate that content and the catalytic activity of individual CYP enzymes are differentially altered by cirrhosis in the rat and also suggest that drug probes could be useful to assess hepatic functional reserve.
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PMID:Differential alteration of cytochrome P450 isoenzymes in two experimental models of cirrhosis. 1110 Sep 40

The intragastric alcohol infusion rat model (IAIRM) of alcoholic liver disease (ALD) has been utilized in various laboratories to study various aspects of ALD pathogenesis including oxidative stress, cytokine upregulation, hypoxic damage, apoptosis, ubiquitin-proteasome pathway and CYP2E1 induction. The basic value of the model is that it produces pathologic changes which resemble ALD including microvesicular and macrovesicular fat, megamitochondria, apoptosis, central lobular and pericellular fibrosis, portal fibrosis, bridging fibrosis, central necrosis, and mixed inflammatory infiltrate including PMNs and lymphocytes. The model is valuable because the diet and ethanol intake are totally under the control of the investigator. A steady state can be maintained with high or low blood alcohol levels for long periods. The cycling of the blood alcohol levels, when a constant infusion rate of alcohol is maintained, simulates binge drinking. Using this model the importance of dietary fat, especially the degree of saturation of the fatty acids on the induction of liver pathology, has been documented. The role of endotoxin, the Kupffer cell, TNFalpha, and NADPH oxidase have been demonstrated. The importance of 2E1 in oxidative stress induction has been shown using inhibitors of the isozyme. The importance of dietary iron in the pathogenesis of cirrhosis has been documented. Acetaldehyde has been shown to play a role in preventing liver pathology by preventing NFkappaB activation. Using the model, to maintain high blood alcohol levels is found to be necessary to demonstrate proteasomal peptidase inhibition. Ubiquitin synthesis is also inhibited at high blood alcohol levels in the IAIRM model. Oxidized proteins accumulate in the liver at high blood alcohol levels. Neoantigens derived from protein adducts formed with products of oxidation induce autoimmune mechanisms of liver injury. Thus, in many ways the model has revolutionized our understanding of the pathogenesis of ALD.
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PMID:Intragastric ethanol infusion model for cellular and molecular studies of alcoholic liver disease. 1117 72

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