EC:2.7.7.48 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

TMPRSS2 is a type II transmembrane-bound serine protease that has gained interest owing to its highly localized expression in the prostate and its overexpression in neoplastic prostate epithelium. Once activated, the serine protease domain of TMPRSS2 is released from the cell surface into the extracellular space. PAR (protease-activated receptor)-2 belongs to a family of G-protein-coupled receptors (PAR-1-4) that are activated by specific serine proteases, which are expressed in many normal and malignant cell types. Previous in vitro studies on prostate cancer cells suggest a role for PAR-2 in prostate cancer metastasis. A polyclonal anti-human TMPRSS2 antibody was generated against the TMPRSS2 serine protease domain. The antibody showed specific reactivity with recombinant expressed TMPRSS2, and so was used to extract and purify the cleaved active TMPRSS2 protease from prostate cancer cells. Reverse transcriptase PCR and Western blot analysis were used to show the expression of both TMPRSS2 and PAR-2 in the androgen-dependent LNCaP prostate cancer cell line. Treatment of LNCaP cells with the cellular immunopurified TMPRSS2 protease induced a transient increase in intracellular calcium, which is indicative of G-protein-coupled-receptor activation. This calcium mobilization was inhibited by cellular pre-treatment with a specific PAR-2 antagonist, but not with a PAR-1 antagonist; inhibition of the protease activity also failed to mobilize calcium, suggesting that TMPRSS2 is capable of cleaving and thereby activating the PAR-2 receptor. The calcium mobilization was also inhibited by cellular pre-treatment with suramin or 2-APB (2-aminoethoxydiphenyl borate), indicating that a G-protein pathway is involved and that subsequent calcium release is mainly from intracellular stores. The present study describes how TMPRSS2 may contribute to prostate tumour metastasis via the activation of PAR-2.
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PMID:The membrane-anchored serine protease, TMPRSS2, activates PAR-2 in prostate cancer cells. 1553 83

Hepatitis C virus (HCV) nonstructural protein 3 (NS3) possesses multiple enzyme activities. The N-terminal one-third of NS3 primarily functions as a serine protease, while the remaining two-thirds of NS3 serve as a helicase and nucleoside triphosphatase. Whether the multiple enzyme activities of NS3 are functionally interdependent and/or modulated by other viral NS proteins remains unclear. We performed biochemical studies to examine the functional interdependence of the NS3 protease and helicase domains and the modulation of NS3 helicase by NS5B, an RNA-dependent RNA polymerase (RdRp). We found that the NS3 protease domain of the full-length NS3 (NS3FL) enhances the NS3 helicase activity. Additionally, HCV RdRp stimulates the NS3FL helicase activity by more than sevenfold. However, the helicase activity of the NS3 helicase domain was unaffected by HCV RdRp. Glutathione S-transferase pull-down as well as fluorescence anisotropy results revealed that the NS3 protease domain is required for specific NS3 and NS5B interaction. These findings suggest that HCV RdRp regulates the functions of NS3 during HCV replication. In contrast, NS3FL does not increase NS5B RdRp activity in vitro, which is contrary to a previously published report that the HCV NS3 enhances NS5B RdRp activity.
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PMID:Stimulation of hepatitis C virus (HCV) nonstructural protein 3 (NS3) helicase activity by the NS3 protease domain and by HCV RNA-dependent RNA polymerase. 1599 62

Compounds A-782759 (an N-1-aza-4-hydroxyquinolone benzothiadiazine) and BILN-2061 are specific anti-hepatitis C virus (HCV) agents that inhibit the RNA-dependent RNA polymerase and the NS3 serine protease, respectively. Both compounds display potent activity against HCV replicons in tissue culture. In order to characterize the development of resistance to these anti-HCV agents, HCV subgenomic 1b-N replicon cells were cultured with A-782759 alone or in combination with BILN-2061 at concentrations 10 times above their corresponding 50% inhibitory concentrations in the presence of neomycin. Single substitutions in the NS5B polymerase gene (H95Q, N411S, M414L, M414T, or Y448H) resulted in substantial decreases in susceptibility to A-782759. Similarly, replicons containing mutations in the NS5B polymerase gene (M414L or M414T), together with single mutations in the NS3 protease gene (A156V or D168V), conferred high levels of resistance to both A-782759 and BILN-2061. However, the A-782759-resistant mutants remained susceptible to nucleoside and two other classes of nonnucleoside NS5B polymerase inhibitors, as well as interferon. In addition, we found that the frequency of replicons resistant to both compounds was significantly lower than the frequency of resistance to the single compound. Furthermore, the dually resistant mutants displayed significantly reduced replication capacities compared to the wild-type replicon. These findings provide strategic guidance for the future treatment of HCV infection.
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PMID:Mutations conferring resistance to a hepatitis C virus (HCV) RNA-dependent RNA polymerase inhibitor alone or in combination with an HCV serine protease inhibitor in vitro. 1618 12

The review gives recent data on the structure of hepatitis C virus genome. Linear RNA comprises one translated and two nontranslated regions: 5'UTR and 3'UTR. Translation of viral RNA gives rise to a single polyprotein precursor that contains structural and nonstructural regions. The structural region comprises one nucleocapsid core-protein and two envelope proteins known as E1 and E2. E2 protein includes two hypervariable regions: HVR1 and HVR2. The nonstructural region consists of 7 proteins: p7 (NS1), NS (metalloproteinase), NS (serine protease/ helicase), NS4A (co-factor protease, co-factor RNA-dependent RNA polymerase), and NS4B, NS5A, NS5B (RNA-dependent RNA polymerase). NS5A includes ISDR (interferon-sensitivity-determining region).
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PMID:[Structural and functional organization of hepatitis C virus genome]. 1675 71

The global prevalence of hepatitis C virus (HCV) infection and serious health consequences associated with chronic state of the disease have become a significant health problem worldwide. Currently, there is no vaccine to prevent the disease and no specific antiviral drug directed against HCV infection. The current standard of care, interferon-based therapies, both alone or in combination with ribavirin, has demonstrated limited success and is associated with undesirable side effects. Thus, the treatment of the chronic HCV infection represents an unmet medical need. With advances in the understanding of HCV replication and the crystal structures of the virally encoded enzymes, the HCV NS3/4A serine protease and the NS5B RNA-dependent RNA polymerase have emerged as ideal targets toward the control of the disease and the development of new anti-HCV agents. In this review, we will summarize the current treatment options, and outline the approaches toward discovery of small molecule antivirals against the virally encoded enzymes. The current clinical studies of promising lead compounds are also reviewed.
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PMID:Recent development of therapeutics for chronic HCV infection. 1682 88

Dengue viruses (DENV) have 5'-capped RNA genomes of (+) polarity and encode a single polyprotein precursor that is processed into mature viral proteins. NS2B, NS3 and NS5 proteins catalyse/activate enzyme activities that are required for key processes in the virus life cycle. The heterodimeric NS2B/NS3 is a serine protease required for processing. Using a high-throughput protease assay, we screened a small molecule chemical library and identified -200 compounds having > or = 50% inhibition. Moreover, NS3 exhibits RNA-stimulated NTPase, RNA helicase and the 5'-RNA triphosphatase activities. The NTPase and the 5'-RTPase activities of NS3 are stimulated by interaction with NS5. Moreover, the conserved, positively charged motif in DENV-2 NS3, 184RKRK, is required for RNA binding and modulates the RNA-dependent enzyme activities of NS3. To study viral replication, a variety of methods are used such as the in vitro RNA-dependent RNA polymerase assays that utilize lysates from DENV-2-infected mosquito or mammalian cells or the purified NS5 along with exogenous short subgenomic viral RNAs or the replicative intracellular membrane-bound viral RNAs as templates. In addition, a cell-based DENV-2 replicon RNA encoding a luciferase reporter is also used to examine the role of cis-acting elements within the 3' UTR and the RKRK motif in viral replication.
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PMID:Multiple enzyme activities of flavivirus proteins. 1731 55

Since the discovery of the hepatitis C virus (HCV) as the major cause of non-A, non-B hepatitis in 1989, the search for specific targeted antiviral therapy for HCV (STAT-C) has been underway. Recently, major advances in the understanding of HCV biology and the development of an in vitro system of HCV replication have contributed to the selection of multiple candidate drugs for the treatment of hepatitis C. In 2006, five such candidate drugs have entered phase II clinical trials in patients chronically infected with hepatitis C, including small molecule inhibitors of the HCV NS3 serine protease and NS5B RNA-dependent RNA polymerase. This review focuses on hepatitis C protease and polymerase inhibitors that have progressed to phase II clinical development, foreshadowing the era of STAT-Cs.
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PMID:Specific targeted antiviral therapy for hepatitis C. 1733 72

In the course of sobemovirus gene cloning the complete genome of Ryegrass mottle virus (RGMoV) was sequenced. Sequence analysis revealed differences including missing and extraneous nucleotides in comparison to the previously published sequence (Zhang, Toriyama, Takanashi, J. Gen. Plant Pathol. 67, 63 (2001)). A gene coding for a typical sobemovirus 3C-like serine protease was identified in ORF2a after multiple sequence alignment analysis. The newly identified 57-amino-acid stretch in ORF2a showed similarities ranging from 38.5 to 50.9% among sequenced genes of sobemovirus proteases. ORF analysis of the RGMoV polyprotein coding sequence demonstrated the arrangement of ORF2b coding for RNA-dependent RNA polymerase (RdRP) in the -1 frame in regard to ORF2a. The localization of conserved among sobemoviruses slippery sequence (UUUAAAC) at the 3'-end of ORF2a suggests the translation of RdRP via a -1 ribosomal frameshifting mechanism, allowing to include the RGMoV in the sobemovirus group with a Cocksfoot mottle virus-like (CfMV-like) genome organization.
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PMID:The ryegrass mottle virus genome codes for a sobemovirus 3C-like serine protease and RNA-dependent RNA polymerase translated via -1 ribosomal frameshifting. 1735 8

Chronic hepatitis C virus (HCV) infection remains a global health concern with nearly 200 million carriers worldwide. Present treatment consists of the use of pegylated interferon plus the purine analogue ribavirin. Serious side effects and the fact that an overall 40-50% of patients do not accomplish sustained virological response with the present treatment warrant the need for novel anti-HCV therapies. The HCV serine protease and the RNA-dependent RNA polymerase have shown to be excellent targets for selective antiviral therapy. Early clinical studies have resulted in encouraging results. However, and not unexpectedly, preclinical evidence suggests that the virus may become rapidly resistant to such inhibitors. Therefore, combination therapy of drugs with different mode of action and resistance profiles may be required. This review focuses on the present status of these two families of HCV inhibitors that are in development.
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PMID:Novel protease and polymerase inhibitors for the treatment of hepatitis C virus infection. 1768 67

Leukocyte elastase (LE), a neutrophil serine protease, is known to cause alveolar wall destruction and alveolar hemorrhage in the lung, but recent evidence suggests that it may also produce a significant inflammatory response. The purpose of the current study was to (1) examine the relationship between LE-induced lung injury and specific markers of inflammation and cytokine/chemokine, and to (2) determine the potential of activated protein C (APC), a potent immunomodulator, to block the inflammatory response to LE. We treated the C57BL/6 mice with LE (10 U/kg, i.t.) and assessed the lung inflammation over 72 h. Total cells, total protein, and neutrophils were increased and peaked at 16 h in bronchial alveolar lavage fluid. Macrophages were also increased and peaked at 24 h. Administration of LE up-regulated the synthesis of proinflammatory cytokines, IL-1beta and IL-6, chemokines, keratinocyte-derived chemokine, and macrophage inflammatory protein 2 in bronchial alveolar lavage fluid, and their peaks were at 6 h. Furthermore, the mice were treated with APC at 0.2, 2.0, and 10 mg/kg (i.v.) after instillation of LE. Therapeutic treatment of APC at 2.0 and 10 mg/kg significantly attenuated the increases in all these parameters. Lung histology revealed that, in addition to inflammation, alveolar hemorrhage and alveolar wall destruction induced by LE were also attenuated by APC. Finally, the expression of tissue plasminogen activator and plasminogen activator inhibitor in whole lung of mice exposed to LE, detected by means of reverse-transcriptase-polymerase chain reaction, were not influenced by the treatment with APC. These data demonstrate that intratracheal administration of LE to mice causes a transient inflammatory response, and APC can play a protective role against LE-induced lung injury.
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PMID:Activated protein C attenuates leukocyte elastase-induced lung injury in mice. 1862 88

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