Chlamydia psittaci is an important pathogen that causes chronic and atypical pneumonia in humans. Autophagy and the unfolded protein response (UPR) are important mechanisms for regulating the growth of infectious parasitic pathogens in living cells. Here, we explored whether C. psittaci infection induced autophagy via the UPR and the effect of these cellular responses on the survival and replication of C. psittaci in human bronchial epithelial cells (HBEs). Not only were the numbers of autophagosomes and the expression of LC3-II and Beclin1 increased following C. psittaci infection of HBEs, but also the expression of p62 (also called sequestosome-1) was downregulated. Moreover, after C. psittaci infection, the UPR and UPR sensors PERK/eIF2α and IRE1α/XBP1 were activated, but not the ATF6 pathway. When either Bip siRNA was used to block normal initiation of the UPR, or activation of the PERK and IER1α pathways was blocked with specific inhibitors GSK2606414 and 4μ8C, the level of autophagy caused by C. psittaci infection was significantly inhibited. Furthermore, blocking activation of the UPR and associated pathways significantly reduced the number of C. psittaci inclusions. Our research suggests that the UPR, via the PERK and IRE1α, but not ATF6 signaling pathways, regulates HBE-cell autophagy induced by C. psittaci infection and the replication of C. psittaci.
Keywords: ATF6; Chlamydia psittaci; IRE1α; PERK; autophagy; unfolded protein reaction.