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)

The cirrhosis and hepatocellular carcinoma associated with alpha 1-antitrypsin deficiency has been exclusively reported with the PI Z allele. We present a 63-yr-old white man with emphysema, cirrhosis, and hepatocellular carcinoma. The latter occurred on a background of diffusely distributed hepatocellular dysplasia. Serum protein electrophoresis suggested a deficiency of alpha 1-antitrypsin quantitated at 13% of normal. PI phenotyping showed that he had only the rare PI Mmalton allele, previously associated only with severe lung disease. Family studies demonstrated the distribution of this rare allele. The liver at autopsy displayed well-differentiated hepatocellular carcinoma in addition to alpha 1-antitrypsin deposits in normal, dysplastic, and malignant cells.
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PMID:Diffuse hepatocellular dysplasia and carcinoma associated with the Mmalton variant of alpha 1-antitrypsin. 303 14

1. alpha 1-antitrypsin is an antiprotease that inhibits the neutrophil elastase enzyme, and belongs to a family of structurally related serine proteinase inhibitors (serpins). Its methionine358 residue determines the specificity for elastase. 2. The normal M-type alpha 1-antitrypsin is mainly synthesized in the liver parenchymal cells and transported to the plasma. Abnormal Z-mutant alpha 1-antitrypsin is retained in the endoplasmic reticulum, which leads to its intracellular accumulation and to markedly decreased plasma levels. 3. In normal conditions, alpha 1-antitrypsin protects the lungs from destruction by the proteolytic neutrophil elastase. A protease/antiprotease imbalance in the lung is responsible for the development of emphysema in severe alpha 1-antitrypsin deficiency and in cigarette smokers, and accounts for the marked acceleration of the lung disease in smoking alpha 1-antitrypsin deficient patients. Smoking has to be avoided in alpha 1-antitrypsin deficient patients. Replacement therapy with plasma-derived alpha 1-antitrypsin seems indicated in alpha 1-antitrypsin deficient patients with emphysema. 4. Intracellular accumulation of abnormal Z-alpha 1-antitrypsin molecules in liver parenchymal cells may lead to liver disease, ranging from neonatal cholestasis to adulthood cirrhosis and hepatocellular carcinoma. End-stage liver disease can be treated by liver transplantation, which is followed by a phenotypic conversion. 5. Diagnosis of alpha 1-antitrypsin deficiency related disease relies on the presence of a low serum concentration of alpha 1-antitrypsin, and of periodic-acid Schiff positive globules in the liver parenchymal cells. Isoelectric focusing of the serum identifies the protease inhibitor phenotype. The protease inhibitor phenotype is determined by the independent expression of the two parental alpha 1-antitrypsin alleles. It is determinant of the serum level and of the risk for development of lung or liver disease.
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PMID:Alpha 1-antitrypsin deficiency: an overview. 839 99

alpha 1-antitrypsin (AAT) is the archetypal member of the serine proteinase inhibitor (SERPIN) gene family. AAT is an acute-phase reactant and the plasma concentration increases three- to four-fold during the inflammatory response. In hepatocytes this increase is mediated primarily by the cytokine interleukin-6 (IL-6) via the transcription factor NF-IL6. The AAT gene contains at least two enhancer elements, one at the 5' end of the gene and the other at the 3' end. Functional studies performed in mammalian hepatoma cells (Hep G2) using constructs containing these AAT enhancer regions linked to a reporter gene have demonstrated that the 5' enhancer is dominant under basal conditions and that, following stimulation with IL-6, both enhancers are essential and the 3' enhancer plays a major role. We have identified a mutation associated with lung disease which occurs in the 3' AAT enhancer; the mutation occurs at a binding site for the ubiquitous transcription factor Oct-1. The functional significance of this mutation is a deficient IL-6 response. Using the AAT gene as a model, we describe the interactions which occur between transcription factors within the 3' enhancer and also those which take place between the 5' and 3' enhancers. These studies shed light on the molecular mechanism of the acute-phase response which could possibly be extended to other members of the SERPIN gene family.
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PMID:Regulation of the serine proteinase inhibitor (SERPIN) gene alpha 1-antitrypsin: a paradigm for other SERPINs. 957 Jan 44

Alpha 1-antitrypsin (alpha 1AT) deficiency disease is one of the more common hereditary disorders that affects the liver and lung. The liver disease of alpha 1AT deficiency is generally thought to be caused by the accumulation of an abnormal alpha 1AT protein in hepatocytes, whereas the lung disease is thought to be due to a relative lack of the normal protein in the circulation. Therefore, one possible approach to prevent and treat alpha 1AT disease is to both inhibit the expression of the mutated alpha 1AT gene, and to provide a means of synthesizing the normal protein. To do this, we designed specific hammerhead ribozymes that were capable of cleaving the alpha 1AT mRNA at specific sites, and constructed a modified alpha 1AT cDNA not susceptible to ribozyme cleavage. Ribozymes were effective in inhibiting alpha 1AT expression in a human hepatoma cell line using a newly developed simian virus (SV40) vector system. In addition, the hepatoma cell line was stably transduced with a modified alpha 1AT cDNA that was capable of producing wildtype alpha 1AT protein, but was not cleaved by the ribozyme that decreased endogenous alpha 1AT expression. These results suggest that ribozymes can be employed for the specific inhibition for an abnormal alpha 1AT gene product, the first step in designing a gene therapy for the disease. The findings also suggest that the novel SV40-derived vector may represent a fundamental improvement in the gene therapeutic armarmentarium.
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PMID:A novel SV40-based vector successfully transduces and expresses an alpha 1-antitrypsin ribozyme in a human hepatoma-derived cell line. 1034 83

It is now well known that the addition and trimming of oligosaccharide side chains during post-translational modification play an important role in determining the fate of secretory, membrane, and lysosomal glycoproteins. Recent studies have suggested that trimming of oligosaccharide side chains also plays a role in the degradation of misfolded glycoproteins as a part of the quality control mechanism of the endoplasmic reticulum (ER). In this study, we examined the effect of several inhibitors of carbohydrate processing on the fate of the misfolded secretory protein alpha1 antitrypsin Z. Retention of this misfolded glycoprotein in the ER of liver cells in the classical form of alpha1 antitrypsin (alpha1-AT) deficiency is associated with severe liver injury and hepatocellular carcinoma and lack of its secretion is associated with destructive lung disease/emphysema. The results show marked alterations in the fate of alpha1 antitrypsin Z (alpha1-ATZ). Indeed, one glucosidase inhibitor, castanospermine (CST), and two mannosidase inhibitors, kifunensine (KIF) and deoxymannojirimycin (DMJ), mediate marked increases in secretion of alpha1-ATZ by distinct mechanisms. The effects of these inhibitors on secretion have interesting implications for our understanding of the quality control apparatus of the ER. These inhibitors may also constitute models for development of additional drugs for chemoprophylaxis of liver injury and emphysema in patients with alpha1-AT deficiency.
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PMID:Glucosidase and mannosidase inhibitors mediate increased secretion of mutant alpha1 antitrypsin Z. 1063 1

Alpha 1-antitrypsin deficiency is the most common genetic cause of liver disease in children. It is also associated with chronic liver disease, hepatocellular carcinoma, and pulmonary emphysema in adults. Liver injury is caused by hepatotoxic effects of retention of the mutant alpha 1-antitrypsin molecule within the endoplasmic reticulum of liver cells, and emphysema is caused by uninhibited proteolytic damage to elastic tissue in the lung parenchyma. Recent studies of the biochemistry and cell biology of the mutant alpha 1-antitrypsin molecule have led to advances in understanding susceptibility to liver injury and in developing new strategies for prevention of both liver and lung disease.
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PMID:Liver injury in alpha 1-antitrypsin deficiency. 1123 97

Invasive carcinoma originates from the epithelial cells lining the lumen of an organ. It is often preceded by metaplasia, dysplasia or carcinoma in situ. The purpose of this review is to suggest that this disease of the epithelium may be, in part, the result of underlying tissue-based disorganization. Human cancer is frequently associated with pre-existing tissue disease. For example, hepatocellular carcinoma usually occurs in patients with a macronodular cirrhotic liver. Most lung cancers arise among patients with chronic lung disease (bronchitis, emphysema, and chronic infection). Mechanical forces appear to play a major role in regulating normal and cancer cell growth. The loss of cell polarity by neoplastic cells, coupled to an otherwise normal growth rate is enough to explain the cancer star-shaped pattern. By changing the plane of cell division, tumor cells may escape physical constraints from surrounding cells and divide. Loss of cell polarity and the resulting cell proliferation appears to be a consequence of either tissue-based disorganization (chronic inflammation, fibrosis) or of direct carcinogenic insult. The multiple mutations frequently described in cancer may be, in part, secondary to physical stress and not primary events. Several animal and clinical trials have shown that tissue disruption (i.e. radiation-induced fibrosis or liver cirrhosis) can be successfully treated. It is possible that treatment targeted at tissue disruption would delay or reduce cancer incidence regardless of the precise biological mechanism of carcinogenesis.
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PMID:Cancer: the role of extracellular disease. 1202 30

Angiotensin converting enzyme (ACE) inhibitors and angiotensin II (AII) type 1 receptor antagonists have strong cytostatic properties on in vitro cultures of many normal and neoplastic cells. They are effective, in particular, in reducing the growth of human lung fibroblasts, renal canine epithelial cells, bovine adrenal endothelial cells, simian T lymphocytes, and of neoplastic cell lines derived from human neuroblastomas, a ductal pancreatic carcinoma of the Syrian hamsters, human salivary glands adenocarcinomas, and two lines of human breast adenocarcinomas. ACE inhibitors are also effective in protecting lungs, kidneys and bladders from the development of nephropathy, pneumopathy, cystitis, and eventually fibrosis in different models of organ-induced damage such as exposure to radiation, chronic hypoxia, administration of the alkaloid monocrotaline or bladder ligation. ACE inhibitors and AII type 1 receptor antagonists are also effective in reducing excessive vascular neoformation in a model of injury to the cornea of rats and rabbits, and in controlling the excessive angiogenesis observed in the Solt-Farber model of experimentally induced hepatoma, in methylcholantrene or radiation-induced fibrosarcomas, in radiation-induced squamous cell carcinomas and in the MA-16 viral-induced mammary carcinoma of the mouse. Captopril was, in addition, effective in controlling tumor growth in a case of Kaposi's sarcoma in humans. The inhibition of AII synthesis and/or its blockade by AII receptors is likely to be an important mechanism for this cytostatic action. The mitogenic effect of AII is well established and a reduction of AII synthesis may well explain cell and neoplasm delayed growth. Moreover, AII regulates and enhances the activity of several growth factors including transforming growth factor B (TGFB) and smooth muscle actin (SMA); and many of these factors are reduced in tissues of animals treated with ACE inhibitors and AII type 1 receptor antagonists. These processes seem to be particularly relevant in the control of fibroblast growth and in the control of the ensuing fibrosis. The ACE inhibitors containing a sulphydril (SH) or thiol radical in their moiety (Captopril and CL242817) seemed to be more effective in controlling fibrosis and the growth of some neoplastic cells than those ACE inhibitors without this thiol radical in their structure, even if the second group of these drugs show in vitro a stronger inhibitory effect on converting enzyme activity. Pharmacologically it is known that ACE inhibitors containing a thiol radical also have antioxidant properties and they are efficient in controlling metalloproteinase action. However, although these additional properties are pharmacologically relevant, the blockade of AII synthesis plays an essential role in the cytostatic activity of these two categories of drugs. These observations underline that in addition to the beneficial effect of these drugs on the cardiovascular system, new potential applications are opening for their wider deployment.
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PMID:Cytostatic properties of some angiotensin I converting enzyme inhibitors and of angiotensin II type I receptor antagonists. 1257 Jul 92

Congenital and neonatal viral infections usually display their acute manifestations in highly recognisable ways, for example, congenital rubella, cytomegalovirus (CMV), varicella, human immunodeficiency (HIV) and herpes simplex virus (HSV) infection. By contrast, congenital hepatitis B virus (HBV) infection may go undetected for years. Some of these are preventable, but what is not immediately apparent is that the long-term consequences are being prevented as well. The long-term consequences of congenital and neonatal infections include endocrine, immunological and cardiovascular disease, deafness, visual problems, intellectual handicap and cerebral palsy. With the survival of HIV-infected infants into adulthood the long-term consequences will soon be described. Maternally and neonatally transmitted HBV infection predisposes to carriage, liver cirrhosis and hepatocellular carcinoma in young adults. Neonatal HBV vaccination prevents adult cancer. Acquired viral infections may predispose to subsequent lung disease, malabsorption, fertility problems or neurological disability. In the prevention of acquired rubella, varicella, HBV, influenza, poliovirus, measles and hepatitis A, one should mention the added bonus of preventing secondary cases by preventing transmission from infants and children to other children and adults. Preventing paediatric HSV, HBV and HIV infection in females may even be preventing subsequent transmission to future generations. Turning to paediatric bacterial infections, vaccinating infants and young children against pertussis could not only prevent transmission to older children and adults but also break the cycle, which then transmits from adults back to infants and young children. There is evidence that disease in older age groups, including adults, has been prevented by virtue of herd immunity from paediatric vaccination, e.g. Neisseria meningitidis Group C and Streptococcus pneumoniae. The add-on benefits for other generations, including for adults, arising from the prevention of paediatric infections are considerable.
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PMID:Paediatric infections: prevention of transmission and disease--implications for adults. 1575 76

Hepatitis C virus (HCV) infection is a chronic blood-borne disease that affects > 4,000,000 individuals in the United States. The majority of individuals with HVC infection acquire a chronic hepatitis that predisposes them to the complications of cirrhosis and hepatoma. Chronic HCV infection is, however, associated with multiple extrahepatic manifestations as well, including recently recognized effects on the lung. These include primary effects on lung function, as well as secondary effects in the settings of progressive liver disease and drug treatment for HCV. In this article, we discuss the emerging clinical data that support a role for HCV infection in lung disease, describe the multiple pulmonary manifestations of this viral infection, and outline the therapies available for specific pulmonary complications of chronic HCV infection.
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PMID:Hepatitis C virus and the lung: implications for therapy. 1623 66


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