These results raise the question of what mechanism(s) STAT3 uses to exert its proviral effect. It is plausible that specific sets of STAT3-dependent target genes may be up-regulated in hepatocytes during HCV infection; this in turn would allow for the expression of host proteins that may assist in creating a cellular environment favorable for HCV replication. Alternatively, STAT3 dependent host cell factors, or STAT3 itself, may interact directly with viral proteins to enhance HCV
replication. One such example is that STAT3 is a known transcriptional activator of VEGF,[25] a protein capable of promoting HCV entry into hepatocytes in vivo.[26] Thus, it is conceivable that in the HCV-infected liver STAT3 activation may facilitate HCV entry into hepatocytes. Alternatively, RXDX-106 molecular weight STAT3 may impact the host antiviral response, as STAT3 has been recently described to act as a negative regulator of the type I interferon response, by way of direct suppression of the interferon-stimulated genes OAS, PKR, and IRF7.[27] We explored this possibility; however, we were unable to show in Huh-7 cells or primary human hepatocytes that inhibition of STAT3 activation in the presence of IFN-α resulted in increased expression of known anti-HCV ISGs (data not shown). We have demonstrated
in our study that STAT3 plays a role in HCV replication, as inhibition of STAT3 with the specific PF-02341066 supplier inhibitor STA-21 or siRNA-mediated knockdown of STAT3 markedly reduced HCV replication
in the genomic replicon system (50%) and in the infectious JFH-1 system 上海皓元医药股份有限公司 (70%). Moreover, we have shown that the converse set of experiments in which a constitutively active form of STAT3 is expressed both transiently and stably leads to increased HCV replication. Collectively, these results indicate that STAT3 is playing an important role in HCV RNA replication. However, as the effect of inhibition with STA-21 is greater in the context of the full life cycle of HCV, it is possible that STAT3 may also be acting at another stage of the HCV life cycle. We have shown that cell-to-cell spread of the virus is not affected by STA-21 inhibition of STAT3 and that STA-21 is still effective at inhibiting replication in an established infection. These findings suggest that STAT3 does not play a role in mediating HCV entry or spread in Huh-7.5 cells. However, in accordance with previous findings in the literature we have shown that STAT3 is likely to be involved in HCV RNA replication.[2] It is now becoming clear that STAT3 plays a direct and integral role in controlling the dynamics of the MT network. Activated STAT3 has been demonstrated to directly bind to, and attenuate the action of, STMN1, a known tubulin deploymerizer.[22, 23] As such, STAT3 positively regulates MT activity. The MT network and the process of MT polymerization is necessary for many viruses, including HCV, to establish a productive infection.