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Query: UMLS:C0023890 (
cirrhosis
)
42,195
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mutations in 11 of the more than 20 keratin intermediate filaments cause several epidermal and oral associated diseases. No disease-associated mutations have been described in keratin 8 or 18 (K8/18) which are the major keratin pair in simple-type epithelia, as found in the liver, pancreas, and intestine. However, transgenic mice that express mutant
keratin 18
develop chronic hepatitis, and have an increased susceptibility to drug-induced hepatotoxicity. Also, ectopic expression of epidermal K14 in mouse liver results in chronic hepatitis, and disruption of mouse K8 leads to embryo lethality with extensive liver hemorrhage. We tested if patients with liver disease of unknown cause may harbor mutations in
K18
. We describe a his127-->leu (H127L)
K18
mutation in a patient with cryptogenic
cirrhosis
that is germline transmitted. The
K18
H127L isolated from the liver explant, or after expression in bacteria, showed an altered migration on two-dimensional gel analysis as compared with normal human liver or bacterially expressed
K18
. Electron microscopy of in vitro assembled
K18
H127L and wild type K8 showed an assembly defect as compared with normal K8/18 assembly. Our results suggest that mutations in
K18
may be predispose to, or result in cryptogenic
cirrhosis
in humans.
...
PMID:Mutation of human keratin 18 in association with cryptogenic cirrhosis. 901 70
Chronic infection of woodchucks with woodchuck hepatitis virus (WHV) invariably leads, within 2-4 years, to the appearance of hepatocellular carcinoma (HCC). HCC is preceded by an extended period of chronic liver damage, probably resulting from the immune response to viral antigens. It may be that infection itself also induces changes in the hepatocyte population. To begin to identify some of the changes in the liver prior to the appearance of HCC, monoclonal antibodies (MAbs) were generated from mice immunized with hepatocytes from a woodchuck chronically infected with WHV or with a tumor lysate. Immunofluorescence microscopy was used to select MAbs that reacted with host markers whose patterns of expression would distinguish chronically infected from uninfected liver or from liver tumors. One of these MAbs (2F2) reacted strongly with a subset of hepatocytes in chronically infected liver; a similar staining pattern was not detected in uninfected or transiently infected liver. Evidence is presented that this strong staining reaction reflects the overexpression or accumulation of the hepatocyte-specific intermediate filament protein, cytokeratin
K18
, a protein previously implicated in cryptogenic
cirrhosis of the liver
in humans (Ku, N. O. , Wright, T. L., Terrault, N. A., Gish, R., and Omary, M. B. J. Clin. Invest. 99: 19-23, 1997). Double immunofluorescent staining with antibodies to
K18
and M-envelope protein of WHV suggested that strong reactivity to
K18
was limited to cells expressing high levels of one or both of the large viral-envelope proteins, M and L; however, high expression of these viral proteins was not always associated with a strong
K18
staining reaction.
...
PMID:Aberrant expression of a cytokeratin in a subset of hepatocytes during chronic WHV infection. 974 Jul 78
Keratins are the type I and II intermediate filament proteins which form a cytoskeletal network within all epithelial cells. They are expressed in pairs in a tissue- and differentiation-specific fashion. Epidermolysis bullosa simplex (EBS) was the first human disorder to be associated with keratin mutations. The abnormal keratin filament aggregates observed in basal cell keratinocytes of some EBS patients are composed of keratins K5 and K14. Dominant mutations in the genes encoding these proteins were shown to disrupt the keratin filament cytoskeleton resulting in cells that are less resilient and blister with mild physical trauma. Identification of mutations in other keratin genes soon followed with attention focussed on disorders showing abnormal clumping of keratin filaments in specific cells. For example, in bullous congenital ichthyosiform erythroderma, clumping of filaments in the suprabasal cells led to the identification of mutations in the suprabasal keratins, K1 and K10. Mutations have now been identified in 18 keratins, all of which produce a fragile cell phenotype. These include ichthyosis bullosa of Siemens (K2e), epidermolytic palmoplantar keratoderma (K1, K9), pachyonychia congenita (K6a, K6b, K16, K17), white sponge nevus (K4, K13), Meesmann's corneal dystrophy (K3, K12), cryptogenic
cirrhosis
(K8,
K18
) and monilethrix (hHb6, hHb1).In general, these disorders are inherited as autosomal dominant traits and the mutations act in a dominant-negative manner. Therefore, treatment in the form of gene therapy is difficult, as the mutant gene needs to be inactivated. Ways of achieving this are actively being studied. Reliable mutation detection methods from genomic DNA are now available. This enables rapid screening of patients for keratin mutations. For some of the more severe phenotypes, prenatal diagnosis may be requested and this can now be performed from chorionic villus samples at an early stage of the pregnancy. This review article describes the discovery of, to date, mutations in 18 keratin genes associated with inherited human diseases.
...
PMID:The molecular genetics of keratin disorders. 1268 39
Hepatocytes express keratins 8 and 18 (K8/18) as their only cytoskeletal intermediate filament (IF) proteins, and K8/18 mutations predispose their carriers to
liver cirrhosis
. Transgenic mice that overexpress mutant human
K18
(Arg89-->Cys [R89C]) develop mild chronic hepatitis, hepatocyte fragility, keratin filament disruption, and increased susceptibility to drug-induced liver injury.
K18
is a major caspase substrate during apoptosis, and K8- or
K18
-null mice are significantly predisposed to Fas- and possibly tumor necrosis factor (TNF)-mediated apoptosis in the liver. Here we tested the potential role of the
K18
R89C mutation on Fas- or TNF-mediated apoptotic liver injury by injecting Fas antibody (Ab) or TNF-alpha plus actinomycin D into mice that overexpress wild-type (WT) human
K18
(with intact filament network, termed TG2 mice) or into
K18
R89C mice (with disrupted filament network).
K18
R89C mice are significantly more susceptible to Fas-mediated liver injury compared with nontransgenic and TG2 mice. This included differences in lethality, histology, apoptosis, and serum transaminase levels. In contrast,
K18
WT and R89C mice manifest similar sensitivity to TNF-induced injury. Both Fas- and TNF-induced apoptosis in liver tissues are associated with caspase-mediated
K18
degradation and increased keratin phosphorylation on several but not all sites. In conclusion, transgenic mouse
K18
mutation and its consequent keratin filament disruption predispose hepatocytes to Fas- but not TNF-mediated apoptotic injury. This supports the association of keratin mutations with
cirrhosis
in patients with liver disease and suggests that keratins modulate apoptosis induced by Fas but not TNF.
...
PMID:Keratin mutation in transgenic mice predisposes to Fas but not TNF-induced apoptosis and massive liver injury. 1271 81
Keratin 8 and 18 (K8K18) mutations are found in patients with cryptogenic
cirrhosis
, but the role of keratin mutations in noncryptogenic
cirrhosis
and the incidence of keratin mutations in the general population are not known. We screened for K8K18 mutations in genomic DNA isolated from 314 liver explants of patients who primarily had noncryptogenic
cirrhosis
, and from 349 blood bank volunteers. Seven unique K8K18 mutations were found in 11 independent patients with biliary atresia, hepatitis BC, alcohol, primary biliary cirrhosis, and fulminant hepatitis. Seven of the 11 patients had mutations previously described in patients with cryptogenic
cirrhosis
: K8 Tyr-53 --> His, K8 Gly-61 --> Cys, and
K18
His-127 --> Leu. The four remaining patients had mutations at one K8 and three other
K18
new sites. Of the 349 blood bank control samples, only one contained the Tyr-53 --> His and one the Gly-61 --> Cys K8 mutations (P < 0.004 when comparing
cirrhosis
versus control groups). Two additional mutations were found in both the liver disease and blood bank groups and, hence, likely represent polymorphisms. Livers with keratin mutations had cytoplasmic filamentous deposits that were less frequent in livers without the mutations (P = 0.03). Therefore, K8K18 are likely susceptibility genes for developing cryptogenic and noncryptogenic forms of liver disease.
...
PMID:Keratin 8 and 18 mutations are risk factors for developing liver disease of multiple etiologies. 1272 28
Mutation of the cytoskeletal intermediate filament proteins keratin 8 and
keratin 18
(K8/
K18
) is associated with
cirrhosis
in humans, whereas transgenic mice that overexpress
K18
Arg89-->Cys (R89C) have significant predisposition to liver injury. To study the mechanism of keratin-associated predisposition to liver injury, we used mouse microarrays to examine genetic changes associated with hepatocyte keratin mutation and assessed the consequences of such changes. Liver gene expression was compared in R89C versus nontransgenic or wild-type
K18
-overexpressing mice. Microarray-defined genetic changes were confirmed by quantitative polymerase chain reaction. Nineteen genes had a more than two-fold altered expression (nine downregulated, 10 upregulated). Upregulated genes in keratin-mutant hepatocytes included the oxidative metabolism genes cytochrome P450, S-adenosylhomocysteine (SAH) hydrolase, cysteine sulfinic acid decarboxylase, and oxidation-reduction pathway genes. Downregulated genes included fatty acid binding protein 5, cyclin D1, and some signaling molecules. Several methionine metabolism-related and glutathione synthetic pathway intermediates, including S-adenosylmethionine (SAMe) and SAH, were modulated in R89C versus control mice. R89C livers had higher lipid and protein oxidation by-products as reflected by increased malondialdehyde and oxidized albumin. In conclusion,
K18
point mutation in transgenic mice modulates several hepatocyte oxidative stress-related genes and leads to lipid and protein oxidative by-products. Mutation-associated decreases in SAH and SAMe could compromise needed cysteine availability to generate glutathione during oxidative stress. Hence keratin mutations may prime hepatocytes to oxidative injury, which provides a new potential mechanism for how keratin mutations may predispose patients to
cirrhosis
.
...
PMID:Keratin mutation primes mouse liver to oxidative injury. 1572 65
Morphologic criteria of steatohepatitis are steatosis, ballooning of hepatocytes, often but not constantly associated with Mallory bodies, pericellular fibrosis and inflammation.
Liver cirrhosis
follows in about 20-50%. With respect to etiology an alcoholic and non-alcoholic type can be distinguished, the latter being a characteristic hepatic lesion associated with the metabolic syndrome (type II diabetes, insulin resistance, obesity, dyslipidemia). Ballooning of hepatocytes as well as Mallory body formation are associated with a disturbance of the keratin intermediate filament cytoskeleton. Mallory bodies are protein aggregates consisting of keratin (particularly keratin 8), p62, a stress-induced adapter protein involved in signal transduction pathways, heat shock proteins, and ubiquitin. Oxidative stress is involved in Mallory body formation. Major sources of oxidative stress in alcoholic and non-alcoholic steatohepatitis are the microsomal biotransformation system (cytochrome P-450) and the mitochondria, together with an impaired antioxidant defense system. Oxidative stress leads to misfolding/unfolding, abnormal phosphorylation of keratins and disturbance of keratin 8:
keratin 18
ratio, and thus interferes with intermediate filament assembly. Moreover, impairment of cellular defense against abnormal proteins, i. e. chaperone action and proteasomal degradation, leads to the accumulation of abnormal aggregation--prone keratins (particularly keratin 8) which after ubiquitination associate with the stress-induced ubiquitin-binding protein p62 to form Mallory bodies. Thus, Mallory body formation resembles an "off-folding" protein response of the amyloid type. These pathogenetic principles of the human disease are supported by immunohistochemical and gene expression studies in experimental animals and by transfection experiments in tissue culture cells.
...
PMID:[Alcoholic and non-alcoholic steatohepatitis]. 1803 83
Keratins 18 and 19 (
K18
/K19) are epithelial-specific intermediate filament proteins. Apoptosis induces caspase cleavage at the highly conserved
K18
or K19 Asp237, which in
K18
is preceded by cleavage at Asp396. We characterized the keratin N-terminal fragments that are generated upon caspase digestion of
K18
/K19 at Asp237 in order to study keratin dynamics during apoptosis. This was carried out by generating and characterizing antibodies selective to
K18
/K19 Asp237.
K18
or K19 peptides that expose Asp237 in 234VEVD were used for rabbit immunization. The generated antibodies recognized cleaved but not intact
K18
/K19, exclusively, as determined by blotting or immunofluorescence staining of apoptotic human HT29 cells or livers isolated from Fas-Ab-injected mice. Antibodies to
K18
/K19 Asp237 recognized the common VEVD-motif as determined by immunoblotting of cells transfected with
K18
, K19 or K20. The
K18
/K19 VEVD-directed antibodies demonstrated sequential Asp396 then Asp237
K18
cleavage during apoptosis. Specific-keratin selectivity of the anti-Asp237 antibodies was confirmed by their inability to recognize K14 after UV-induced apoptosis in transfected cells. The Asp237-containing apoptotic keratin fragments are secreted into the medium of cultured HT29 cells and are stable up to 96 h after inducing apoptosis. Furthermore, the generated antibodies recognize keratin apoptotic fragments in sera of mice undergoing hepatocyte apoptosis and sera of patients with
cirrhosis
, and also recognize apoptotic cells in various epithelial human tumours. Therefore, the N-terminal caspase-generated
K18
fragment is stable in tissues and biological fluids. The Asp237-directed antibodies provide a powerful tool to study apoptosis in human and mouse tissues, cells and serum, using a broad range of detection modalities.
...
PMID:Monitoring of epithelial cell caspase activation via detection of durable keratin fragment formation. 1839 69
In humans, the over-consumption of alcohol can lead to serious liver disease. To examine the early effects of alcohol on liver disease, rats were given sufficient ethanol to develop
liver cirrhosis
. Rats before the onset of fibrosis were studied in this work. Plasma membranes (PM) of liver were extracted by twice sucrose density gradient centrifugation. The proteome profiles of PM from ethanol-treated rats and the controls were analyzed using two-dimensional gel electrophoresis (2-DE) and isobaric tag for relative and absolute quantitation (iTRAQ) technology. Ethanol treatment altered the amount of 15 different liver proteins: 10 of them were detected by 2-DE and 5 by iTRAQ. Keratin 8 was detected by both methods. Gene ontology analysis of these differentially detected proteins indicated that most of them were involved in important cell functions such as binding activity (including ion, DNA, ATP binding, etc.), cell structure, or enzyme activity. Among these, annexin A2, keratin 8, and
keratin 18
were further verified using western blot analysis and annexin A2 was verified by immunohistochemistry. Our results suggested that alcohol has the potential to affect cell structure, adhesion and enzyme activity by altering expression levels of several relevant proteins in the PM. To the best of our knowledge, this is the first time to study the effect of alcohol on the liver PM proteome and it might be helpful for understanding the possible mechanisms of alcohol-induced liver disease.
...
PMID:Plasma membrane proteome analysis of the early effect of alcohol on liver: implications for alcoholic liver disease. 2113 85
Keratins, a major component of epithelial cell intermediate filaments, provide structural support to the cell and are important for the maintenance of structural integrity. Beyond its role of structural integrity in hepatocytes,
keratin 18
(
K18
) is a known marker of apoptosis and has been proposed as an indicator of progression in chronic liver diseases such as nonalcoholic fatty liver disease (NAFLD). NAFLD is the most common cause of chronic liver disease in children and adolescents in the United States and throughout the world and comprises a wide spectrum of disease ranging from simple steatosis (fatty liver) to nonalcoholic steatohepatitis (NASH) and
cirrhosis
. While simple steatosis is typically benign in nature, NASH is a more serious condition that may progress to end-stage liver disease and liver failure. Currently, liver biopsy is considered the most reliable method of assessing the histological severity of disease and differentiating between simple steatosis and NASH. Because biopsy is invasive in nature, expensive, and subject to sampling error and/or variability in interpretation, it is not suitable as a screening test. Therefore, it is necessary to examine known mechanisms associated with the progression of liver disease, such as hepatocellular apoptosis, and identify potential biomarkers that could be used as a diagnostic tool in NASH. This review will focus on the role of apoptosis in pediatric liver disease and how
K18
, an early marker of apoptosis, can be utilized as a noninvasive biomarker to diagnose NASH.
...
PMID:Keratin 18, Apoptosis, and Liver Disease in Children. 2534 53
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