The ob gene product, leptin, is an important circulating signal for the regulation of body weight. To identify high affinity leptin-binding sites, we generated a series of leptin-alkaline phosphatase (AP) fusion proteins as well as [125I]leptin. After a binding survey of cell lines and tissues, we identified leptin-binding sites in the mouse choroid plexus. A cDNA expression library was prepared from mouse choroid plexus and screened with a leptin-AP fusion protein to identify a leptin receptor (OB-R). OB-R is a single membrane-spanning receptor most related to the gp130 signal-transducing component of the IL-6 receptor, the G-CSF receptor, and the LIF receptor. OB-R mRNA is expressed not only in choroid plexus, but also in several other tissues, including hypothalamus. Genetic mapping of the gene encoding OB-R shows that it is within the 5.1 cM interval of mouse chromosome 4 that contains the db locus.
The recent positional cloning of the mouse ob gene and its human homology has provided the basis to investigate the potential role of the ob gene product in body weight regulation. A biologically active form of recombinant mouse OB protein was overexpressed and purified to near homogeneity from a bacterial expression system. Peripheral and central administration of microgram doses of OB protein reduced food intake and body weight of ob/ob and diet-induced obese mice but not in db/db obese mice. The behavioral effects after brain administration suggest that OB protein can act directly on neuronal networks that control feeding and energy balance.
Hepatitis C virus (HCV) polymerase activity is essential for HCV replication. Targeted screening of nucleoside analogs identified R1479 (4-azidocytidine) as a specific inhibitor of HCV replication in the HCV subgenomic replicon system (IC 50 ؍ 1.28 M) with similar potency compared with 2-C-methylcytidine (IC 50 ؍ 1.13 M). R1479 showed no effect on cell viability or proliferation of HCV replicon or Huh-7 cells at concentrations up to 2 mM. HCV replicon RNA could be fully cleared from replicon cells after prolonged incubation with R1479. The corresponding 5-triphosphate derivative (R1479-TP) is a potent inhibitor of native HCV replicase isolated from replicon cells and of recombinant HCV polymerase (NS5B)-mediated RNA synthesis activity. R1479-TP inhibited RNA synthesis as a CTP-competitive inhibitor with a K i of 40 nM. On an HCV RNA-derived template substrate (complementary internal ribosome entry site), R1479-TP showed similar potency of NS5B inhibition compared with 3-dCTP. R1479-TP was incorporated into nascent RNA by HCV polymerase and reduced further elongation with similar efficiency compared with 3-dCTP under the reaction conditions. The S282T point mutation in the coding sequence of NS5B confers resistance to inhibition by 2-C-MeATP and other 2-methyl-nucleotides. In contrast, the S282T mutation did not confer cross-resistance to R1479.
Hepatitis C virus (HCV)2 infection is a major cause of chronic liver disease, cirrhosis, and hepatocellular carcinoma and is currently the leading cause of liver transplantation (1, 2). Viral genome sequence analysis established six HCV genotype classes (HCV genotypes 1-6), with genotypes 1-3 being the most prevalent in the United States, Europe, and Japan. Current treatment options available to HCV-infected persons are limited, and sustained virological response rates are particularly low for HCV genotype 1-infected patients. Only ϳ50% of individuals infected with HCV genotype 1 with serum viral titers of Ͼ2 ϫ 10 6 copies/ml achieved sustained virological response rates when treated with a combination of pegylated interferon-␣ and ribavirin (3, 4). Response rates are even lower in persons with HIV co-infection or cirrhosis and also decrease with age (1, 5-7). Urgently required improvements in anti-HCV therapy will depend on the development of novel therapeutic approaches, especially in difficult to treat populations.HCV is an enveloped (ϩ)-strand RNA virus that enters host cells via receptor-mediated endocytosis and replicates in the host cell cytoplasm. A membrane-associated replicase complex containing HCV genome-encoded nonstructural proteins and HCV genomic RNA in a tight complex is responsible for the formation of viral RNA for packaging into new virus particles during the HCV replication process. The viral NS5B protein contains the HCV polymerase active site within the replicase complex, an RNA-dependent RNA polymerase. The concept of polymerase inhibition to attain antiviral efficacy has been successfully established in other viral infections (human immunodefi...
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