The ß4 subunit of Cav1.2 channels is required for an optimal interferon response in cardiac muscle cells.

ABSTRACT

The auxiliary ß4 subunit of the cardiac Cav1.2 channel plays a poorly understood role in gene transcription. Here, we characterized the regulatory effects of the ß4 subunit in H9c2 rat cardiac cells on the abundances of Ifnb mRNA [which encodes interferon-ß (IFN-ß)] and of the IFN-ß-related genes Ddx58, Ifitm3, Irf7, Stat2, Ifih1, and Mx1, as well as on the abundances of the antiviral proteins DDX58, IRF7, STAT2, and IFITM3. Knocking down the ß4 subunit in H9c2 cells reduced the expression of IFN-ß-stimulated genes. In response to inhibition of the kinase JAK1, the abundances of ß4 subunit mRNA and protein were decreased. ß4 subunit abundance was increased, and it translocated to the nucleus, in cells treated with IFN-ß, infected with dengue virus (DENV), or transfected with poly(IC), a synthetic analog of double-stranded RNA. Cells that surrounded the virus-infected cells showed translocation of ß4 subunit proteins to nuclei in response to spreading infection. We showed that the ß4 subunit interacted with the transcriptional regulator IRF7 and that the activity of an Irf7 promoter-driven reporter was increased in cells overexpressing the ß4 subunit. Last, overexpressing ß4 in undifferentiated and differentiated H9c2 cells reduced DENV infection and decreased the abundance of the viral proteins NS1, NS3, and E-protein. DENV infection and poly(IC) also increased the concentration of intracellular Ca2+ in these cells. These findings suggest that the ß4 subunit plays a role in promoting the expression of IFN-related genes, thereby reducing viral infection.