EC:3.4.21.73 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously demonstrated that expression of an albumin-urokinase-type plasminogen activator (Alb-uPA) fusion construct in transgenic mice resulted in elevated plasma uPA concentration, hypofibrinogenemia, and neonatal hemorrhaging. Two lines of Alb-uPA mice were established in which only one half of the transgenic pups died at birth; surprisingly, plasma uPA concentrations in survivors gradually returned to normal by 2 months of age. The basis for this phenomenon is DNA rearrangement within hepatocytes that affects the transgene tandem array and abolishes transgene expression. Transgene-deficient cells selectively proliferate relative to surrounding liver, and this process culminates in replacement of the entire liver by clonal hepatic nodules derived from transgene-deficient progenitor cells. In some cases as few as two nodules can reconstitute over 90% of liver mass, highlighting the remarkable regenerative capacity of individual liver cells.
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PMID:Complete hepatic regeneration after somatic deletion of an albumin-plasminogen activator transgene. 1221 93

We have developed a system for studying hepatocellular growth potential in which liver cells are introduced into the diseased livers of albumin-urokinase (Alb-uPA) transgenic mice. To use this system to study xenogeneic cell transplantation, rat liver cells were introduced into immunotolerant Alb-uPA transgenic mice. In regenerated recipient livers, up to 100% of hepatocellular gene expression was of rat origin, demonstrating the creation of a functional mouse liver in which parenchyma is derived from xenogeneic (rat) hepatocytes. Immunotolerant Alb-uPA transgenic mice provide a tool for studying hepatocellular biology of any species, including humans, in a controlled experimental setting.
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PMID:Complete reconstitution of mouse liver with xenogeneic hepatocytes. 776 29

Lack of a small animal model of the human hepatitis C virus (HCV) has impeded development of antiviral therapies against this epidemic infection. By transplanting normal human hepatocytes into SCID mice carrying a plasminogen activator transgene (Alb-uPA), we generated mice with chimeric human livers. Homozygosity of Alb-uPA was associated with significantly higher levels of human hepatocyte engraftment, and these mice developed prolonged HCV infections with high viral titers after inoculation with infected human serum. Initial increases in total viral load were up to 1950-fold, with replication confirmed by detection of negative-strand viral RNA in transplanted livers. HCV viral proteins were localized to human hepatocyte nodules, and infection was serially passaged through three generations of mice confirming both synthesis and release of infectious viral particles. These chimeric mice represent the first murine model suitable for studying the human hepatitis C virus in vivo.
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PMID:Hepatitis C virus replication in mice with chimeric human livers. 1147 15

Cell lines have many advantages: they can be manipulated genetically, expanded, and stockpiled for organ transplantation. Freshly isolated hepatocytes, oval cells, pancreatic cells, and hematopoietic stem cells have been shown to repopulate the damaged liver. Here we show that bipotential mouse embryonic liver (BMEL) stem cell lines participate in liver regeneration in albumin-urokinase plasminogen activator/severe combined immunodeficiency disease (Alb-uPA/SCID) transgenic mice. In the liver, BMEL-GFP cells proliferate and differentiate into both hepatocytes and bile ducts, forming small to large clusters detected throughout the 3-8 weeks analyzed after transplantation. Moreover, they respond like host cells to signals for growth, differentiation, and even zonal expression of metabolic enzymes, showing regulated expression of cytokeratins and liver-enriched transcription factors. Immunostaining for MHC class I molecules revealed that cells do not coexpress donor and recipient H-2 haplotypes, as would be the case had cell fusion occurred. This report shows that immortalized stem cell lines not only are competent to participate in the repair of a damaged tissue but also can differentiate into the two major epithelial cell types of a complex organ, hepatocytes and bile ducts.
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PMID:Bipotential mouse embryonic liver stem cell lines contribute to liver regeneration and differentiate as bile ducts and hepatocytes. 1515 6

Tumor necrosis factor (TNF) family ligand TNF-alpha and Fas ligand (FasL) can trigger apoptosis in solid tumors, but their clinical usage has been limited by hepatotoxicity. TNF-related apoptosis-inducing ligand (TRAIL) is a newly identified member of the TNF family, and its clinical application currently is under a similar debate. Here, we report a recombinant soluble form of human TRAIL (114 to 281 amino acids) that induces apoptosis in tumor cells but not human hepatocytes. We first isolated human hepatocytes from patients and showed that the human hepatocytes expressed Fas but no TRAIL death receptor DR4 and little DR5 on the cell surface. Antibody cross-linked FasL, but not TRAIL, triggered apoptosis of the human hepatocytes through cleavage of caspases. We then examined TRAIL hepatotoxicity in severe combined immunodeficient/Alb-uPA chimeric mice harboring human hepatocytes. Intravenous injection of FasL, but not TRAIL, caused apoptotic death of human hepatocytes within the chimeric liver, thus killing the mice. Finally, we showed that repeated intraperitoneal injections of TRAIL inhibited intraperitoneal and subcutaneous tumor growth without inducing apoptosis in human hepatocytes in these chimeric mice. The results indicate that the recombinant soluble human TRAIL has a profound apoptotic effect on tumor cells but is nontoxic to human hepatocytes in vitro and in vivo.
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PMID:TRAIL inhibits tumor growth but is nontoxic to human hepatocytes in chimeric mice. 1557 53

Compounds with in vitro anti-hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid-Alb-uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV-infected mice were treated with interferon alpha-2b(IFN-alpha), BILN-2061 (anti-NS3 protease), or HCV371 (anti-NS5B polymerase). Mice treated with 1350 IU/g/day IFN-alpha intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN-alpha was seen in genotype 3a-infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7-day study, mean HCV RNA titers dropped 1.1 log in BILN2061-treated animals, 0.6 log in IFN-treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre-existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle-treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection.
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PMID:Anti-HCV therapies in chimeric scid-Alb/uPA mice parallel outcomes in human clinical application. 1672 19

The development of a small animal model for hepatitis C virus (HCV) infection is a critical issue for the development of novel anti-HCV drugs. To this aim, we have tried many different approaches for generating mice carrying humanized liver. Main efforts were focused on the transplantation of human hepatocytes into immunocompromised mice (SCID-/-, Bg-/-) carrying a genetic lethal liver disease (Alb-uPA). Survival of homozygotic animals should largely depend on early transplantation with healthy hepatocytes. In parallel to establishing a colony of Alb-uPA/SCID/Bg mice, we developed a microsurgical procedure for intrasplenic xenotransplantation of healthy hepatocytes in 1-week-old mice. So far, we generated several chimeras by xenotransplanting human hepatocytes in Alb-uPA+/+/SCID-/-/Bg-/- mice at 1 week after birth. In a first step, identification of successfully engrafted animals is possible by quantification of human serum albumin and human alpha 1 antitrypsin in mouse sera. Additional preliminary histomorphological analysis of liver sections from chimeric animals was also carried out. One of the mice was transiently infected with HCV, reaching viremia levels of approximately 10(5) genomes/mL. However, the efficiency of this system to generate chimeric mice is still very limited. We are currently exploring the use of more robust models of hepatic disease. Moreover, we have been also exploring novel strategies for the generation of chimeric mice by xenotransplanting human adult stem cells, instead of human hepatocytes, at preimmune stages of development.
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PMID:Development of humanized mice for the study of hepatitis C virus infection. 1675

Hepatitis C virus (HCV) causes persistent infection and induces chronic hepatitis, liver cirrhosis and finally hepatocellular carcinoma. Current therapies for HCV infection have not been satisfactory, and more effective anti-viral treatments are needed. In this regard, detailed analysis of HCV has been hampered by a lack of appropriate viral culture systems and small animal models of infection. However, rapid progress in HCV research has recently been achieved, such as a subgenomic replicon system, a viral culture system using JFH-1 clone and the Alb-uPA/SCID mouse transplanted with human liver cells. Such progress will propel HCV research and anti-HCV drug discovery toward the next generation.
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PMID:HCV research and anti-HCV drug discovery: toward the next generation. 1786 75

Hepatitis C virus (HCV) is a major cause of chronic liver disease including steatosis, cirrhosis and hepatocellular carcinoma. The development of transgenic mice expressing HCV proteins and the successful repopulation of SCID/Alb-uPA mice with human hepatocytes provides an important tool for unraveling virus-host interactions in vivo. Several of these mouse models exhibit aspects of HCV-related liver disease. Thus, these in vivo models play an important role to further understand the pathogenesis of HCV infection and to evaluate the pre-clinical safety and efficacy of new antiviral compounds against HCV. This review summarizes the most important mouse models currently used to study HCV pathogenesis and infection. Finally, the perspective of these models for future HCV research as well as the design of novel small animal models is discussed.
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PMID:Mouse models for the study of HCV infection and virus-host interactions. 1845 98

Hepatitis C virus (HCV) is a blood-borne pathogen and a major cause of liver disease worldwide. Gene expression profiling was used to characterize the transcriptional response to HCV H77c infection. Evidence is presented for activation of innate antiviral signaling pathways as well as induction of lipid metabolism genes, which may contribute to oxidative stress. We also found that infection of chimeric SCID/Alb-uPA mice by HCV led to signs of hepatocyte damage and apoptosis, which in patients plays a role in activation of stellate cells, recruitment of macrophages, and the subsequent development of fibrosis. Infection of chimeric mice with HCV H77c also led an inflammatory response characterized by infiltration of monocytes and macrophages. There was increased apoptosis in HCV-infected human hepatocytes in H77c-infected mice but not in mice inoculated with a replication incompetent H77c mutant. Moreover, TUNEL reactivity was restricted to HCV-infected hepatocytes, but an increase in FAS expression was not. To gain insight into the factors contributing specific apoptosis of HCV infected cells, immunohistological and confocal microscopy using antibodies for key apoptotic mediators was done. We found that the ER chaperone BiP/GRP78 was increased in HCV-infected cells as was activated BAX, but the activator of ER stress-mediated apoptosis CHOP was not. We found that overall levels of NF-kappaB and BCL-xL were increased by infection; however, within an infected liver, comparison of infected cells to uninfected cells indicated both NF-kappaB and BCL-xL were decreased in HCV-infected cells. We conclude that HCV contributes to hepatocyte damage and apoptosis by inducing stress and pro-apoptotic BAX while preventing the induction of anti-apoptotic NF-kappaB and BCL-xL, thus sensitizing hepatocytes to apoptosis.
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PMID:HCV induces oxidative and ER stress, and sensitizes infected cells to apoptosis in SCID/Alb-uPA mice. 1924 62

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