Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations in ATP8B1, a broadly expressed P-type ATPase, result, through unknown mechanisms, in disorders of bile secretion. These disorders vary in severity from mild and episodic to progressive with liver failure. We generated Atp8b1G308V/G308V mutant mice, which carry a mutation orthologous to that present in homozygous form in patients from the Amish index kindred for severe ATP8B1 disease. In contrast to human patients, Atp8b1(G308V/G308V) mice had unimpaired bile secretion and no liver damage, but showed mild abnormalities including depressed weight at weaning and elevated serum bile salt levels. We challenged the hepatobiliary metabolism of Atp8b1G308V/G308V mice by administering exogenous bile salts. Upon bile salt feeding, Atp8b1G308V/G308V mice, but not wild-types, demonstrated serum bile salt accumulation, hepatic injury and expansion of the systemic bile salt pool. Unexpectedly, this failure of bile salt homeostasis occurred in the absence of any defect in hepatic bile secretion. Upon infusion of a hydrophobic bile salt, wild-type mice developed cholestasis while Atp8b1G308V/G308V mice maintained high biliary output and more extensively rehydroxylated the infused bile salt. Increased bile salt hydroxylation, which reduces bile salt toxicity, may explain the milder phenotype in Atp8b1G308V/G308V mice compared with humans with the equivalent mutation. These results demonstrate the key role of Atp8b1 in bile salt homeostasis and highlight the importance of bile salt hydroxylation in the prevention of cholestasis. The mouse phenotype reveals that loss of Atp8b1 disrupts bile salt homeostasis without impairment of canalicular bile secretion; in humans this process is likely to be obscured by early onset of severe liver disease.
Hum Mol Genet 2004 Apr 15
PMID:A mouse genetic model for familial cholestasis caused by ATP8B1 mutations reveals perturbed bile salt homeostasis but no impairment in bile secretion. 1497 63

Hepatitis E virus (HEV) infection results in hepatitis E, an acute and self-limited disease. The virus is transmitted in a faecal-oral manner and is a major cause of viral hepatitis in much of the developing world, where it causes rampant sporadic infections and large epidemics. A curious feature of hepatitis E is the unusually high rates of mortality that are observed in pregnant women, in whom the disease is exacerbated by the development of fulminant liver disease. In the absence of viable in vitro propagation systems, several geographical isolates of HEV have been maintained in vivo in nonhuman primates and, subsequently,the viral genome has been cloned and sequenced. HEV has been classified provisionally into a separate family known as the HEV-like viruses, which has at least four recognised genotypes, but has only a single serotype. The viral genome is a positive-stranded (+)RNA of ~7.5 kb and encodes at least three proteins. Open reading frame 1 ( ORF1) encodes the viral nonstructural polyprotein, which has domains that are homologous to some of the replication and processing enzymes found in other +RNA viruses. The HEV protein itself remains poorly characterised. The protein encoded by open reading frame 2( ORF2) is the major HEV capsid protein, and the protein encoded by open reading frame 3 ( ORF3) appears to be involved in virus-host interactions. Several questions related to the biology, epidemiology and pathogenesis of HEV remain unanswered; the progress of a few of these is reviewed here.
Expert Rev Mol Med 1999 Dec 06
PMID:Molecular biology and pathogenesis of hepatitis E virus. 1498 55

Liver transplantation has an important role in the management of patients with urea cycle disorders, particularly those with severe variants, progressive liver disease, and some patients who have proved very difficult to control with conventional therapy. As a result of technical advances in liver transplantation, the outlook, both morbidity and mortality, is better and continues to improve. Patients can almost always have a normal diet and the quality of life for survivors is generally excellent.
Mol Genet Metab 2004 Apr
PMID:The role of liver transplantation in urea cycle disorders. 1505 Sep 78

Although in the past several mechanisms and factors have been proposed to be responsible for alcoholic liver disease (ALD), at present the involvement of oxygen free radicals and consequently of oxidative stress has acquired remarkable credit. In numerous experimental studies it has been shown the occurrence of alcohol-induced generation of oxygen- and ethanol-derived free radicals through different pathways and from different sources. Mitochondria appear to be both an important source of reactive oxygen species (ROS) and also a primary target of ethanol-induced damage. The consistent induction of the mitochondrial antioxidant enzyme manganese superoxide dismutase (Mn-SOD) observed in experimental animals after acute and chronic ethanol administration has all the characteristics of a "stress response" to an oxidative insult.
Mol Aspects Med
PMID:Oxidative stress and antioxidant defenses in ethanol-induced cell injury. 1505 27

The nuclear envelope (NE) is one of many intracellular targets of the autoimmune response in patients with autoimmune liver disease, systemic lupus erythematosus, and related conditions. In eukaryotic organisms the NE consists of five interconnected regions: an outer nuclear membrane (ONM) that is continuous with the endoplasmic reticulum, an intermembrane or perinuclear space, an inner nuclear membrane (INM) with a unique set of integral membrane proteins, the underlying nuclear lamina, and the pore domains that are regions where the ONM and INM come together. The pore domains are sites of regulated continuity between the cytoplasm and nucleus that are occupied by supramolecular structures, termed nuclear pore complexes (NPCs). Human autoantibodies identified to date bind to specific components in three of the five NE compartments. Autoantigen targets include the lamins A, B, and C of the nuclear lamina, gp210, p62 complex proteins, Nup153, and Tpr within the NPC, and LBR, MAN1, LAP1, and LAP2 that are integral proteins of the INM. Autoantibodies to these NE targets have been shown to be correlated with various autoimmune diseases such as primary biliary cirrhosis, other autoimmune liver diseases and systemic rheumatic diseases. Now that the proteome of the NE is more clearly defined, other autoantibodies to components in this cell compartment are likely to be defined.
J Mol Med (Berl) 2004 Jul
PMID:Autoantigens of the nuclear pore complex. 1517 62

Congenital hypofibrinogenaemia is characterized by abnormally low levels of fibrinogen and is usually caused by heterozygous mutations in the fibrinogen chain genes (alpha, beta and gamma). However, it does not usually result in a clinically significant condition unless inherited in a homozygous or compound heterozygous state, where it results in a severe bleeding disorder, afibrinogenaemia. Various protein and expression studies have improved our understanding of how mutations causing hypo- and afibrinogenaemia affect secretion of the mature fibrinogen molecule from the hepatocyte. Some mutations can perturb chain assembly as in the gamma153 Cys-->Arg case, while others such as the Bbeta Leu-->Arg and the Bbeta414 Gly-->Ser mutations allow intracellular hexamer assembly but inhibit protein secretion. An interesting group of mutations, such as gamma284 Gly-->Arg and gamma375 Arg-->Trp, not only cause hypofibrinogenaemia but are also associated with liver disease. The nonexpression of these variant chains in plasma fibrinogen is due to retention in the endoplasmic reticulum, which in turn leads to hypofibrinogenaemia.
Cell Mol Life Sci 2004 Jun
PMID:The molecular mechanisms of congenital hypofibrinogenaemia. 1519 68

Farnesoid X receptor (FXR) is a transcription factor that controls bile acid homeostasis. The phenotype of Fxr null mice is characterized by hypercholanaemia, impaired secretion of bile acids and failure to thrive. Human disorders with these characteristics include FIC1 disease (caused by mutations in ATP8B1, which encodes a putative aminophospholipid translocase, FIC1, whose function in bile handling is unknown) and bile salt export pump (BSEP) disease (caused by mutation in ABCB11, which encodes BSEP, the primary canalicular bile salt export pump). We investigated the possibility of hepatic down-regulation of FXR in FIC1 disease and BSEP disease. Three siblings with this phenotype, born to consanguine parents, were initially studied. The children were demonstrated to be compound heterozygotes for missense and nonsense mutations in ATP8B1. Expression of specific genes in liver was analysed, comparing one of these siblings with a child homozygous for missense mutation in ABCB11, as well as with a child having idiopathic cholestatic liver disease, a child with extrahepatic biliary atresia and a normal organ donor. The expression of two main FXR isoforms was specifically decreased in the liver of the FIC1 disease patient. A consistent and concomitant reduction in messenger RNA levels of FXR targets, such as BSEP and small heterodimer partner, was also found. Gene-profiling experiments identified 163 transcripts whose expression changed significantly in FIC1-disease liver. Of note was that several genes involved in synthesis, conjugation and transport of bile acids were down-regulated. A cluster of genes involved in lipid metabolism was also differentially expressed. Our findings suggest that hepatic down-regulation of FXR contributes to the severe cholestasis of FIC1 disease.
Hum Mol Genet 2004 Oct 15
PMID:Reduced hepatic expression of farnesoid X receptor in hereditary cholestasis associated to mutation in ATP8B1. 1531 49

Many forms of liver disease may ultimately lead to fibrosis of the liver, the most advanced state being cirrhosis. Cirrhosis is a morphologic disease that eventually results in a functional change of the liver. It is generally not accompanied by signs or symptoms early in its course, and is often diagnosed late when signs of liver failure become overt. Imaging studies may suggest cirrhosis, but only if there have been gross changes in the appearance of the liver, and this is often not the case. The only way to diagnose cirrhosis reliably has been through direct histologic examination of liver tissue. The drawback to histologic diagnosis has been the risks and discomfort associated with liver biopsy. Hesitation to perform the procedure also exists due to lack of experience of many practitioners and the low reimbursement rates for a procedure that is viewed as time consuming and potentially dangerous. The search for noninvasive modalities to assess fibrosis through biochemical and other means has begun. Several markers are currently under investigation, many of which are combined with clinical assessment and other biochemical parameters, to establish the presence of liver fibrosis. FIBROSpect II is an example of a commercially available assay that employs a combination of three markers to distinguish between no, minimal and advanced fibrosis.
Expert Rev Mol Diagn 2004 Sep
PMID:FIBROSpect II: a potential noninvasive test to assess hepatic fibrosis. 1534 53

Breath tests are attractive since they are noninvasive and can be repeated frequently in the dynamically changing state of critically ill patients. Volatile organic compounds can be produced anywhere in the body and are transported via the bloodstream and exhaled through the lung. They can reflect physiologic or pathologic biochemical processes such as lipid peroxidation, liver disease, renal failure, allograft rejection, and dextrose or cholesterol metabolism. This review describes the diagnostic potential of endogenous organic volatile substances in the breath of critically ill patients. Since many of these patients require ventilatory support, aspects of breath analysis under mechanical ventilation will be addressed. Analytical procedures, problems concerning the physiologic meaning of breath markers and future developments will be discussed.
Expert Rev Mol Diagn 2004 Sep
PMID:Breath analysis in critically ill patients: potential and limitations. 1534 56

Chronic ethanol ingestion alters mitochondrial function in the liver including inhibition of complex I of the electron transport chain. This leads to a shift in the NAD/NADH ratio to the reduced state when blood ethanol levels are high. Rotenone also inhibits complex I and induces a reduced state. The combination of ethanol feeding and rotenone toxicity should amplify the reduced state and block the cyclic increase and decrease in the rate of metabolism in the liver. The change in the redox state occurs during the urinary ethanol cycle in the intragastric tube feeding rat model of alcoholic liver disease. To test this hypothesis, rats were fed ethanol with rotenone and the 24-h urinary ethanol levels were measured daily. When ethanol was fed alone, the urinary ethanol cycle occurred. However, when ethanol was fed with rotenone the cycle was prevented and the urinary ethanol levels remained at the 200-mg% range. The rats fed ethanol or fed ethanol plus rotenone had the same increase in the pathology score and ALT elevations in the blood. Rotenone fed alone had the same normal values as the dextrose pair fed control rats. The results indicate that the UAL cycle is driven by fluctuation in the NAD/NADH ratio. When this fluctuation is blocked by rotenone, the cycle does not occur. It is concluded that the urinary ethanol cycle is dependent on cyclic fluctuation of the NAD/NADH ratio, which regulates the rate of ethanol elimination.
Exp Mol Pathol 2004 Dec
PMID:The effect of rotenone on the urinary ethanol cycle in rats fed ethanol intragastrically. 1550 38


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