Mycobacterial peptidyl prolyl isomerase A activates STING‐TBK1‐IRF3 signaling to promote IFNβ release in macrophages

Peptidyl prolyl isomerases (PPIases) are well‐conserved protein‐folding enzymes that moonlight as regulators of bacterial virulence. Peptidyl prolyl isomerase A, PPiA (Rv0009) is a secretory protein of Mycobacterium tuberculosis that possesses sequence and structural similarity to eukaryotic cyclophilins. In this study, we validated the interaction of PPiA with stimulator of interferon genes (STING) using both, Escherichia coli‐based and mammalian in vitro expression systems. In vitro pull‐down assays confirmed that the cytosolic domain of STING interacts with PPiA, and moreover, we found that PPiA could induce dimerization of STING in macrophages. In silico docking analyses suggested that the PXXP (PDP) motif of PPiA is crucial for interaction with STING, and concordantly, mutations in the PDP domain (PPiA MUT‐II) abrogated this interaction, as well as the ability of PPiA to facilitate STING dimerization. In agreement with these observations, fluorescence microscopy demonstrated that STING and wild‐type PPiA, but not PPiA MUT‐II, could colocalize when expressed in HEK293 cells. Highlighting the importance of the PDP domain further, PPiA, but not PPiA MUT‐II could activate Tank binding kinase 1 (TBK1)‐interferon regulatory factor 3 (IRF3) signaling to promote the release of interferon‐beta (IFNβ). PPiA, but not PPiA MUT‐II expressed in Mycobacterium smegmatis induced IFNβ release and facilitated bacterial survival in macrophages in a STING‐dependent manner. The PPiA‐induced release of IFNβ was c‐GAS independent. We conclude that PPiA is a previously undescribed mycobacterial regulator of STING‐dependent type I interferon production from macrophages.