CX43 is essential for optimal cGAS function during cytosolic DNA-sensing

Abstract

Abstract During intracellular Chlamydia infection, cytosolic DNA is sensed by cyclic GMP-AMP synthase (cGAS) that catalyzes the synthesis of cGAMP from ATP and GTP. cGAMP is a key mediator of IFN beta expression during DNA sensing and can also transfer to adjacent uninfected cells through intercellular connexin gap-junctions to induce intrinsic immunity. In this study, we investigated the role of gap junction protein connexin 43 (CX43) during Chlamydia infection. Using RNA-in situ hybridization, we discovered a distinct intracellular contribution of CX43 in IFN beta expression in the infected cells and cells transfected with DNA, a function distinct from its intercellular gap-junction role affecting IFN beta expression in adjacent uninfected cell. CX43 is essential for IFN beta expression during DNA-sensing upstream of STING activation, but not required during RNA-sensing. CX43 co-localized with transfected DNA and on the chlamydial inclusion membrane with cGAS. CX43-depleted cells showed significantly reduced cGAMP production during DNA-sensing. CX43 forms hemichannels on intracellular membrane, which open and close to allow nucleotide transfer. Blocking this transport across CX43 hemichannel reduced IFN beta expression during infection and DNA-sensing, without altering CX43 localization. These results uncover a novel role of CX43 in cGAMP synthesis by cGAS during cytosolic DNA-sensing.