Next, the TLC plate was developed in the solvent system with hexane/ethyl ether/acetic acid (80:20:1, em v /em / em v /em / em v /em ). NS5A and NS5B) [3,4]. Since all of viral NS proteins play an essential role in the viral RNA genome replication, targeting their specific functions has been proven as an effective strategy to develop different kinds of anti-HCV therapeutics. Until recently, the standard of care (SOC) for chronic hepatitis C patients was based on combined treatment of PEGylated interferon (PEG-IFN)- and ribavirin [5]. However, undesirable side effects including flu-like symptoms, anemia, depression and suicidal thoughts have been major concerns for this interferon-based combination therapy. Treatment with NS3 protease inhibitors (telaprevir and boceprevir)the first direct-acting antivirals (DAAs) for HCVwere associated with less severe side-effects. With the second generation of DAAs like NS5A (daclatasvir and ledipasvir) and an NS5B inhibitor (sofosbuvir), the SOC for patients has shifted towards a triple combination regimen composed of one DAA plus PEGylated IFN- and ribavirin [6]. Successful application of IFN-free combination treatment for 12 weeks using only ledipasvir (NS5A inhibitor) and sofosbuvir (NS5B polymerase inhibitor) has provided another treatment option to HCV patients depending on their infected viral genotypes [7]. However, in spite of their impressive high efficacy and good safety profiles, DAAs alone are not likely to play a central role in the Efinaconazole next stage of HCV patient care because of their high financial burden, which will limit their access to the majority of patients chronically infected with HCV. In addition, many patients and social activists raised concerns for exorbitant high costs of DDAs. Therefore, a Efinaconazole more affordable regimen for the treatment of HCV infection is still urgently desired. Diacylglycerol acyltransferases (DGATs) are enzymes located at endoplasmic reticulum. They catalyze the final step in the biosynthesis of triglyceride (TG) through combination of acyl coenzyme A and diglyceride [8]. Two different kinds of Efinaconazole DGATs including DGAT-1 and DGAT-2 have been shown to be directly involved in this biochemical lipid biosynthesis process. DGAT-1 is highly expressed in the small intestine, whereas DGAT-2 is primarily expressed in the liver [9]. Although they seem to perform a redundant task in TG metabolism in the hepatocyte, they were shown to play a critical role in overall secretion and deposition of TG. In addition, generation of sufficient amounts of TG is necessary for biogenesis Rabbit Polyclonal to SCARF2 of lipid droplet (LD) in the liver. Interestingly, LD was found to be a major site for HCV particle assembly and production [10,11]. Therefore, disruption of LD formation by various DGAT inhibitors has been envisaged as a plausible strategy to control HCV infection. However, in spite of its potent antiviral effect in vitro, the clinical trial of pradigastata commercially developed DGAT-1 inhibitorwas prematurely terminated due to lack of antiviral efficacy [12]. Its relatively high EC50 value in vitro (30 M) and suboptimal pharmacokinetic profile might contribute to the failure of its clinical application [12]. Therefore, there is still a need to identify DGAT inhibitors with an improved antiviral efficacy and pharmacokinetic property. In order to identify better DGAT inhibitors, we decided to utilize our DGAT inhibitor library composed of three different classes of twelve DGAT inhibitors based on their specificities against DGATs. We evaluated potential antiviral activities of three different classes of DGAT inhibitors [13,14,15]. As a result, we found that one of pan DGAT inhibitors, a 2-{[4-(adamant-1yl)phenoxy]methyl)- 0.01); Not significant (n.s.). (C) Determination of antiviral activity by dose response curve analysis. (D) Huh7.5 cells were infected with HCVcc and incubated with increasing concentrations of 10j for 72 h. Expressions of NS5A-GFP proteins were quantitated by western blot analysis.Calculated em p /em -values, which were less than 0.05 when Efinaconazole compared with a control, were considered statistically significant. three structural (core, E1 and E2) and six non-structural (NS) proteins (NS2, NS3, NS4A, NS4B, NS5A and NS5B) [3,4]. Since all of viral NS proteins play an essential role in the viral RNA genome replication, targeting their specific functions has been proven as an effective strategy to develop different kinds of anti-HCV therapeutics. Until recently, the standard of care (SOC) for chronic hepatitis C patients was based on combined treatment of PEGylated interferon (PEG-IFN)- and ribavirin [5]. However, undesirable side effects including flu-like symptoms, anemia, depression and suicidal thoughts have been major concerns for this interferon-based combination therapy. Treatment with NS3 protease inhibitors (telaprevir and boceprevir)the first direct-acting antivirals (DAAs) for HCVwere associated with less severe side-effects. With the second generation of DAAs like NS5A (daclatasvir and ledipasvir) and an NS5B inhibitor (sofosbuvir), the SOC for patients has shifted towards a triple combination regimen composed of one DAA plus PEGylated IFN- and ribavirin [6]. Successful application of IFN-free combination treatment for 12 weeks using only ledipasvir (NS5A inhibitor) and sofosbuvir (NS5B polymerase inhibitor) has provided another treatment option to HCV patients depending on their infected viral genotypes [7]. However, in spite of their impressive high efficacy and good safety profiles, DAAs alone are not likely to play a central role in the next stage of HCV patient care because of their high financial burden, which will limit their access to the majority of patients chronically infected with HCV. In addition, many patients and social activists raised concerns for exorbitant high costs of DDAs. Therefore, a more affordable regimen for the treatment of HCV infection is still urgently desired. Diacylglycerol acyltransferases (DGATs) are enzymes located at endoplasmic reticulum. They catalyze the final step in the biosynthesis of triglyceride (TG) through combination of acyl coenzyme A and diglyceride [8]. Two different kinds of DGATs including DGAT-1 and DGAT-2 have been shown to be directly involved in this biochemical lipid biosynthesis process. DGAT-1 is highly expressed in the small intestine, whereas DGAT-2 is primarily expressed in the liver [9]. Although they seem to perform a redundant task in TG metabolism in the hepatocyte, they were shown to play a critical role in overall secretion and deposition of TG. In addition, generation of sufficient amounts of TG is necessary for biogenesis of lipid droplet (LD) in the liver. Interestingly, LD was found to be a major site for HCV particle assembly and production [10,11]. Therefore, disruption of LD formation by various DGAT inhibitors has been envisaged as a plausible strategy to control HCV infection. However, in spite of its potent antiviral effect in vitro, the clinical trial of pradigastata commercially developed DGAT-1 inhibitorwas prematurely terminated due to lack of antiviral efficacy [12]. Its relatively high EC50 value in vitro (30 M) and suboptimal pharmacokinetic profile might contribute to the failure of its clinical application [12]. Therefore, there is still a need to identify DGAT inhibitors with an improved antiviral efficacy and pharmacokinetic property. In order to identify better DGAT inhibitors, we decided to utilize our DGAT inhibitor library composed of three different classes of twelve DGAT inhibitors based on their specificities against DGATs. We evaluated potential antiviral activities of three different classes of DGAT inhibitors [13,14,15]. As a result, we found that one of pan DGAT inhibitors, a 2-{[4-(adamant-1yl)phenoxy]methyl)- 0.01); Not significant (n.s.). (C) Determination of antiviral activity by dose response curve analysis. (D) Huh7.5 cells were infected with HCVcc and incubated with increasing concentrations of 10j for 72 h. Expressions of NS5A-GFP proteins were quantitated by western blot analysis using a GFP antibody. 2.2. 10j Reduces Expression Levels of HCV Proteins Due to the tight coupling of viral genome replication to its protein expression, inhibition of viral RNA genome replication leads to a subsequent reduction of viral protein expression. In order to see if inhibition of HCV replication by 10j translates into a loss of viral protein expression, we treated full-length genotype 2a (Huh7.5-J6/JFH1) as well as sub-genomic genotype 1b replicon (Huh7.5-Bart79I) cells with an increasing concentration of 10j. As expected, we were able to.