Abstract
ABSTRACTHeterodimers of glycoproteins H (gH) and L (gL) comprise a basal element of the viral membrane fusion machinery conserved across herpesviruses. In human cytomegalovirus (HCMV), a glycoprotein encoded byUL116noncovalently assembles onto gH at a position similar to that occupied by gL, forming a heterodimer that is incorporated into virions. However, physiological roles for UL116 or its complex with gH remain to be identified. Here, we show that UL116 promotes the expression of gH/gL complexes and is required for the efficient production of infectious cell-free virions.UL116-nullmutants show a 10-fold defect in production of infectious cell-free virions from infected fibroblasts and epithelial cells. This defect is accompanied by reduced expression of the two disulfide-linked gH/gL complexes that play crucial roles in viral entry: the heterotrimer of gH/gL with glycoprotein O (gO) and the pentameric complex of gH/gL with UL128, UL130, and UL131. Furthermore, gH/UL116 complexes comprise a substantial constituent of virions since an abundant gH species not covalently linked to other glycoproteins, which has long been observed in the literature, is readily detected from wild-type but notUL116-nullvirions.Interestingly, UL116 co-immunoprecipitates with UL148, a viral ER resident glycoprotein previously shown to attenuate ER-associated degradation (ERAD) of gO, and we observe elevated levels of UL116 inUL148-nullvirions.Collectively, our findings suggest that UL116 may serve as a chaperone for gH to support the assembly, maturation, and incorporation of gH/gL complexes into virions.IMPORTANCEHCMV is a betaherpesvirus that causes dangerous opportunistic infections in immunocompromised patients, as well as in the immune-naive fetus and preterm infants. The potential of the virus to enter new host cells is governed in large part by two alternative viral glycoprotein H (gH) / glycoprotein L (gL) complexes that play important roles in entry: gH/gL/gO and gH/gL/UL128-131. A recently identified virion gH complex, comprised of gH bound to UL116, adds a new layer of complexity to the mechanisms that contribute to HCMV infectivity. Here, we show that UL116 promotes the expression of gH/gL complexes, and that UL116 interacts with the viral ER-resident glycoprotein UL148, a factor that supports the expression of gH/gL/gO. Overall, our results suggest that UL116 is a chaperone for gH. These findings have important implications for understanding of HCMV cell tropism as well as for the development of vaccines against the virus.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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