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)

We report here the 6- and 2-year follow-up of two patients diagnosed at 2 months of age with CDG-Ib who were treated with mannose, with digestive symptoms, liver involvement and hyperinsulinemic hypoglycaemia. Both developed liver fibrosis while general condition improved and other symptoms disappeared.
Mol Genet Metab 2008 Jan
PMID:Development of liver disease despite mannose treatment in two patients with CDG-Ib. 1794 25

Fibrotic progression of chronic liver diseases of different aetiology to the common advanced-stage of cirrhosis can be envisaged as a dynamic and highly integrated cellular response to chronic liver injury. Liver fibrosis is accompanied by perpetuation of liver injury, chronic hepatitis and persisting activation of tissue repair mechanisms, leading eventually to excess deposition of ECM components. Liver fibrogenesis (i.e., the process) is sustained by populations of highly proliferative, pro-fibrogenic and contractile MFs that, according to current literature, originate by a process of activation involving perisinusoidal HSC, portal fibroblasts and even bone marrow-derived MSC. In this short review emerging concepts in hepatic fibrogenesis and related molecular mechanisms, as provided by recent experimental and clinical studies, are presented.
Mol Aspects Med
PMID:Myofibroblast - like cells and liver fibrogenesis: Emerging concepts in a rapidly moving scenario. 1802 82

Although the capacity of ethanol to induce oxidative stress in the liver is well established, the mechanisms by which oxidative damage contributes to the pathogenesis of alcoholic liver disease (ALD) is still incompletely understood. Recent reports have implicated oxidative mechanisms in the onset of alcoholic steatosis and in the formation of Mallory's bodies. Moreover, by inducing mitochondrial alterations, oxidative stress promotes hepatocyte necrosis and contributes to alcohol-induced sensitization of hepatocyte to the pro-apoptotic action of TNF-alpha. Oxidative mechanisms play also a role in the progression of liver fibrosis by triggering the release of pro-fibrotic cytokines and activating collagen gene expression in hepatic stellate cells. Finally, immune responses towards antigens originating from the reactions of lipid peroxidation products with hepatic proteins might represent one of the mechanisms that contribute to perpetuate chronic hepatic inflammation in ALD. Altogether these observations give a rationale to the possible clinical application of antioxidants in the therapy of ALD.
Mol Aspects Med
PMID:Oxidative mechanisms in the pathogenesis of alcoholic liver disease. 1804 75

After a brief introduction to oxidative stress, the discovery of F(2)-isoprostanes as specific and reliable markers of oxidative stress is described. Isoprostanes are also agonists of important biological effects. Since a relation between oxidative stress and collagen hyperproduction has been previously suggested and since lipid peroxidation products have been proposed as possible mediators of liver fibrosis, we investigated whether collagen synthesis is induced by F(2)-isoprostanes the most proximal products of lipid peroxidation. In a rat model of carbon tetrachloride-induced hepatic fibrosis, plasma isoprostanes were markedly elevated for the entire experimental period; hepatic collagen content was also increased. When hepatic stellate cells from normal liver were cultured up to activation (expression of alpha-smooth muscle-alpha actin) and then treated with F(2)-isoprostanes in the concentration range found in the in vivo studies (10(-9)-10(-8)M), a striking increase in DNA synthesis, in cell proliferation and in collagen synthesis was observed. Moreover, F(2)-isoprostanes increased the production of transforming growth factor-beta1 by U937 cells, assumed as a model of Kupffer cells or liver macrophages. The data suggest the possibility that F(2)-isoprostanes generated by lipid peroxidation in hepatocytes mediate hepatic stellate cell proliferation and collagen hyperproduction seen in hepatic fibrosis.
Mol Aspects Med
PMID:Isoprostanes and hepatic fibrosis. 1806 Dec 54

Alcohol abuse is one of the major causes of liver fibrosis worldwide. Although the pathogenesis of liver fibrosis is a very complex phenomenon involving different molecular and biological mechanisms, several lines of evidence established that the first ethanol metabolite, acetaldehyde, plays a key role in the onset and maintenance of the fibrogenetic process. This review briefly summarizes the molecular mechanisms underlying acetaldehyde pro-fibrogenic effects. Liver fibrosis represents a general wound-healing response to a variety of insults. Although mortality due to alcohol abuse has been constantly decreasing in the past 20 years in Southern Europe and North America, in several Eastern-European countries and Great Britain Alcoholic Liver Disease (ALD) shows a sharply increasing trend [Bosetti, C., Levi, F., Lucchini, F., Zatonski, W.A., Negri, E., La, V.C., 2007. Worldwide mortality from cirrhosis: an update to 2002. J. Hepatol. 46, 827-839]. ALD has a complex pathogenesis, in which acetaldehyde (AcCHO), the major ethanol metabolite, plays a central role. Ethanol is mainly metabolized in the liver by two oxidative pathways. In the first one ethanol is oxidized to acetaldehyde by the cytoplasmic alcohol dehydrogenase enzyme (ADH), acetaldehyde is then oxidized to acetic acid by the mitochondrial acetaldehyde dehydrogenase (ALDH). The second pathway is inducible and involves the microsomal ethanol-oxidizing system (MEOS), in which the oxidation of ethanol to acetaldehyde and acetic acid also leads to generation of reactive oxygen species (ROS). Chronic ethanol consumption significantly inhibits mitochondrial ALDH activity while the rate of ethanol oxidation to acetaldehyde is even enhanced, resulting in a striking increase of tissue and plasma acetaldehyde levels [Lieber, C.S., 1997. Ethanol metabolism, cirrhosis and alcoholism. Clin. Chim. Acta 257, 59-84]. This review will focus on the molecular mechanisms by which acetaldehyde promote liver fibrosis.
Mol Aspects Med
PMID:Alcohol induced hepatic fibrosis: role of acetaldehyde. 1816 54

Chronic liver damage may lead to liver fibrosis. In this process, hepatic activated stellate cells are the key players. Thus, activated stellate cells are attractive targets for antifibrotic gene therapy. Recombinant adenovirus is a promising vehicle for delivering therapeutic genes to liver cells. However, this vector has considerable tropism for hepatocytes and Kupffer cells. The aim of this study is therefore to retarget the adenovirus to the activated stellate cells while reducing its affinity for hepatocytes. We constructed a fusion protein with affinity for both the adenovirus and the platelet derived growth factor-receptor beta (PDGF-Rbeta). In contrast to other cells, the PDFG-Rbeta is highly expressed on activated stellate cells. The targeting moiety, the PDGF peptide CSRNLIDC, was cloned in front of the single-chain antibody fragment (S11) directed against the adenoviral knob. This fusion protein enhanced adenoviral gene transfer in both 3T3 fibroblasts and primary isolated activated rat stellate cells by 10-60-fold. A fusion protein with a scrambled PDGF peptide (CIDNLSRC) did not accomplish this effect. Importantly, the PDGF-Rbeta-retargeted adenovirus showed a 25-fold reduced tropism for primary rat hepatocytes. Our novel approach demonstrates that therapeutic genes can be selectively directed to stellate cells. This opens new possibilities for the treatment of liver fibrosis.
Mol Pharm
PMID:PDGF-receptor beta-targeted adenovirus redirects gene transfer from hepatocytes to activated stellate cells. 1821 12

We have used a supervised classification approach to systematically mine a large microarray database derived from livers of compound-treated rats. Thirty-four distinct signatures (classifiers) for pharmacological and toxicological end points can be identified. Just 200 genes are sufficient to classify these end points. Signatures were enriched in xenobiotic and immune response genes and contain un-annotated genes, indicating that not all key genes in the liver xenobiotic responses have been characterized. Many signatures with equal classification capabilities but with no gene in common can be derived for the same phenotypic end point. The analysis of the union of all genes present in these signatures can reveal the underlying biology of that end point as illustrated here using liver fibrosis signatures. Our approach using the whole genome and a diverse set of compounds allows a comprehensive view of most pharmacological and toxicological questions and is applicable to other situations such as disease and development.
Mol Syst Biol 2008
PMID:The liver pharmacological and xenobiotic gene response repertoire. 1836 9

Pleiotrophin (PTN) is a hepatocyte growth factor and considered to play roles in liver fibrogenesis and hepatocarcinogenesis. In this study we examined the mechanism of the action of PTN in these pathological processes. First, we confirmed that hepatic stellate cells (HSCs) and Kupffer cells, and also later hepatocytes in hyperplastic nodules increased PTN mRNA expressions during carbon tetrachloride-induced liver fibrosis. Then, the relationship between PTN and transforming growth factor beta1 (TGFbeta1), a known potent pro-fibrogenetic cytokine, in carcinogenesis was investigated using hepatoma cell lines. Huh-7 human hepatoma cells weakly expressed PTN, but HepG2 human hepatoma cells and FaO rat hepatoma cells did not. Recombinant (r) TGFbeta1 induced the cultured Huh-7 cells to undergo apoptosis, which was inhibited by rPTN. Huh-7 cells became resistant to TGFbeta1-, but not mitomycin C-induced apoptosis when transfected with PTN gene, indicating the specificity of the PTN anti-apoptotic activity. Poly ADP ribose polymerase, procaspase-8 and procaspase-3 were not cleaved in the TGFbeta1-reluctant cells. The TGFbeta1-induced caspase-3 activation was also suppressed in Huh-7 and FaO cells both transduced with PTN gene-bearing adenoviruses. In summary, PTN was expressed in HSCs, Kupffer cells, and hepatocytes in fibrotic liver. We propose that PTN specifically antagonizes the TGFbeta1 activity during liver fibrosis.
Mol Carcinog 2008 Oct
PMID:Pleiotrophin inhibits transforming growth factor beta1-induced apoptosis in hepatoma cell lines. 1838 92

Most experimental therapy studies are performed in mice that bear subcutaneous or orthotopic hepatoma but are otherwise healthy and nonfibrotic. The majority of hepatocellular carcinoma (HCC), however, develops in patients suffering from preexisting liver fibrosis. We investigated the efficacy of a standard experimental therapeutic approach to interrupt the vascular endothelial growth factor (VEGF)/VEGF receptor (VEGFR) cascade via VEGF-A silencing, with or without 1,2-dioleoyl-3-trimethylammonium-propane (DOTAP; cationic lipid) formulation, in HCC mice with preexisting liver fibrosis. The data show that intraperitoneal treatment with naked VEGF-A small interfering RNA (siRNA; 200 microg/kg) was inefficient to treat HCC implanted into fibrotic livers. VEGF-A siRNA containing an immunostimulatory motif in combination with DOTAP formulation significantly reduced hepatic VEGF-A expression and additionally activated the innate and adapted immune system as shown by an increased intrahepatic interferon type 1 response (68-fold increased beta-interferon expression). DOTAP-formulated VEGF-A siRNA markedly improved VEGF-A siRNA uptake and enhanced the antitumor response. This study shows for the first time the therapeutic feasibility of using synergistic effects (gene silencing and activation of the immune system) united in one siRNA sequence to reduce HCC growth and metastasis in mice with preexisting liver fibrosis. We expect that these results will help to direct and improve future experimental gene-silencing approaches and establish more efficient antitumoral therapies against HCC.
Mol Med
PMID:1,2-dioleoyl-3-trimethylammonium-propane (DOTAP)-formulated, immune-stimulatory vascular endothelial growth factor a small interfering RNA (siRNA) increases antitumoral efficacy in murine orthotopic hepatocellular carcinoma with liver fibrosis. 1839 8

The receptor for advanced glycation end products (RAGE) is a transmembrane receptor of the Ig superfamily. While vascular RAGE expression is associated with kidney and liver fibrosis, high expression levels of RAGE are found under physiological conditions in the lung. In this study, RAGE expression in idiopathic pulmonary fibrosis was assessed, and the relationship of the receptor to functional changes of epithelial cells and pulmonary fibroblasts in the pathogenesis of the disease was investigated. Significant down-regulation of RAGE was observed in lung homogenate and alveolar epithelial type II cells from patients with idiopathic pulmonary fibrosis, as well as in bleomycin-treated mice, demonstrated by RT-PCR, Western blotting, and immunohistochemistry. In vitro, RAGE down-regulation was provoked by stimulation of primary human lung fibroblasts and A549 epithelial cells with the proinflammatory cytokines, transforming growth factor-beta1 or TNF-alpha. Blockade of RAGE resulted in impaired cell adhesion, and small interfering RNA-induced knockdown of RAGE increased cell proliferation and migration of A549 cells and human primary fibroblast in vitro. These results indicate that RAGE serves a protective role in the lung, and that loss of the receptor is related to functional changes of pulmonary cell types, with the consequences of fibrotic disease.
Am J Respir Cell Mol Biol 2008 Sep
PMID:Loss of RAGE in pulmonary fibrosis: molecular relations to functional changes in pulmonary cell types. 1842 Oct 17


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