A cytomegalovirus immunevasin triggers integrated stress response-dependent reorganization of the endoplasmic reticulum

Abstract

ABSTRACTHuman cytomegalovirus (HCMV) encodes an ER-resident glycoprotein, UL148, which activates the unfolded protein response (UPR) but is fully dispensable for viral replication in cultured cells. Hence, its previously ascribed roles in immune evasion and modulation of viral cell tropism are hypothesized to cause ER stress. Here, we show that UL148 is necessary and sufficient to drive the formation of large ER-derived structures that occupy up to 7% of the infected cell cytosol. The structures are found to be sites where UL148 coalesces with cellular proteins involved in ER quality control, such as Hrd1 and EDEM1. Transmission electron microscopy analyses reveal the structures to be comprised of tortuous, densely packed and apparently collapsed ER membranes that connect to distended cisternae. During induced ectopic expression of UL148-GFP fusion protein, punctate signals traffic to accumulate at prominent structures that exhibit poor recovery of fluorescence after photobleaching. Small molecule blockade of the integrated stress response (ISR) prevents the formation of puncta, leading to a uniform reticular fluorescent signal. Accordingly, ISR inhibition during HCMV infection abolishes the coalescence of UL148 and Hrd1 into discrete structures, which argues that UL148 requires the ISR to cause ER reorganization. Given that UL148 stabilizes immature forms of a receptor binding subunit for a viral envelope glycoprotein complex important for HCMV infectivity, our results imply that stress-dependent ER remodeling contributes to viral cell tropism.IMPORTANCEPerturbations to ER morphology occur during infection with various intracellular pathogens and in certain genetic disorders. We identify that an HCMV gene product, UL148, profoundly reorganizes the ER during infection, and is sufficient to do so when expressed on its own. Our results reveal that UL148-dependent reorganization of the ER is a prominent feature of HCMV infected cells. Moreover, we find that this example of virally induced organelle remodeling requires the integrated stress response (ISR), a stress adaptation pathway that contributes to a number of disease states. Since ER reorganization accompanies the roles of UL148 in HCMV cell tropism and intracellular retention of the immune cell co-stimulatory ligand CD58, our results may have implications for understanding the mechanisms involved. Furthermore, our findings provide a basis to utilize UL148 as a tool to investigate organelle responses to stress and to identify novel drugs targeting the ISR.