Characterization of gH/gL/pUL128-131 pentameric complex,gH/gL/gO trimeric complex,gB and gM/gN glycoproteins in a human cytomegalovirus using automated capillary western blots

Human cytomegalovirus (HCMV) is currently a major cause of congenital disease in newborns and organ failure in transplant recipients. Despite decades of efforts, an effective vaccine against HCMV has yet to be developed. However, the discovery of pentameric gH complex on viral surface which contains potent neutralizing epitopes may help enable development of an effective vaccine. In our company ongoing Phase II clinical trial of whole-live virus HCMV vaccine (V160), the pentameric gH complex has been restored on the surface of live attenuated AD169 virus strain. The reconstructed HCMV virus contains a variety of surface glycoproteins including pentameric gH/gL/gUL128-131 complex, trimeric gH/gL/gO complex, gB glycoprotein, and gM/gN heterodimer complex. To further characterize this virus and enable the monitoring of multiple viral antigens during vaccine process development an effective and efficient analytical strategy was required to detect and quantify several viral surface proteins. In this paper, we present an innovative approach based on capillary western blot technology that allows fast and accurate quantitation of pentameric gH/gL/gUL128-131 complex, trimeric gH/gL/gO complex, and gB glycoprotein. This method is suitable for analyzing target proteins in multiple sample types including supernatants from infected cell culture, purification intermediates, concentration bulk, and the final vaccine product. In addition, the capillary western blot-based technology identified a previously unknown biochemical profile present in some HCMV viruses: triplet gH peaks of viral surface proteins in non-reducing environment, which could potentially present a new strategy for specificity and identity testing.     

Structural and biochemical studies of HCMV gH/gL/gO and Pentamer reveal mutually exclusive cell entry complexes

Human cytomegalovirus (HCMV) is a major cause of morbidity and mortality in transplant patients and the leading viral cause of birth defects after congenital infection. The glycoprotein complexes gH/gL/gO and gH/gL/UL128/UL130/UL131A (Pentamer) are key targets of the human humoral response against HCMV and are required for HCMV entry into fibroblasts and endothelial/epithelial cells, respectively. We expressed and characterized soluble forms of gH/gL, gH/gL/gO, and Pentamer. Mass spectrometry and mutagenesis analysis revealed that gL-Cys144 forms disulfide bonds with gO-Cys351 in gH/gL/gO and with UL128-Cys162 in the Pentamer. Notably, Pentamer harboring the UL128-Cys162Ser/gL-Cys144Ser mutations had impaired syncytia formation and reduced interference of HCMV entry into epithelial cells. Electron microscopy analysis showed that HCMV gH/gL resembles HSV gH/gL and that gO and UL128/UL130/UL131A bind to the same site at the gH/gL N terminus. These data are consistent with gH/gL/gO and Pentamer forming mutually exclusive cell entry complexes and reveal the overall location of gH/gL-, gH/gL/gO-, and Pentamer-specific neutralizing antibody binding sites. Our results provide, to our knowledge, the first structural view of gH/gL/gO and Pentamer supporting the development of vaccines and antibody therapeutics against HCMV.Human cytomegalovirus (HCMV) is a member of the β-herpesvirus subfamily with >60% seropositivity in adults worldwide (1). HCMV infection is typically asymptomatic, but can cause severe disease or death in immunocompromised solid organ and hematopoietic stem cell transplant recipients. In addition, HCMV can infect the placenta and cross this barrier to infect developing fetuses, causing severe birth defects (2). Given the severity and importance of this disease, obtaining an effective vaccine is considered a public health priority (3).The ability of HCMV to cause disease in a wide range of organs and tissue types is reflected at the cellular level by the virus infecting epithelial cells, endothelial cells, fibroblasts, dendritic cells, hepatocytes, neurons, macrophages, and leukocytes (4). Similar to other herpesviruses, the envelope glycoproteins gB and gH/gL form the conserved fusion machinery required for viral entry (5, 6). Recent structural and mutagenesis analysis suggested that gB is responsible for mediating virus and host membrane fusion during viral entry (7, 8). The role of gH/gL in fusion is less clear because crystal structures of herpes simplex virus 2 (HSV-2), pseudo-rabies virus (PrV), and Epstein–Barr virus (EBV) gH/gL did not reveal any similarity to known viral fusion proteins (9–11). It has been proposed that gH/gL is involved in the entry process through activation of gB (12). In addition to gB and gH/gL, most herpesviruses encode additional glycoproteins that are able to interact with gH/gL and are capable of either mediating binding to specific cellular receptors or regulating the activity of the gH/gL–gB complex (5, 6).HCMV entry into both epithelial and endothelial cells requires a pentameric glycoprotein complex (Pentamer) formed between gH/gL and the UL128, UL130, and UL131A proteins (13, 14). Mutations in the UL131A–UL128 gene locus are sufficient to eliminate epithelial/endothelial tropism and occur spontaneously within only a few passages of wild-type (WT) HCMV in fibroblasts (15, 16). In addition, Pentamer cell surface overexpression interferes with HCMV entry into epithelial cells, but not into fibroblasts, suggesting the presence of a cell-type-specific Pentamer receptor (17).HCMV entry into fibroblasts is mediated by the gH/gL/gO complex at the cell surface at neutral pH (18–21). gO is a highly glycosylated protein and has been shown to covalently interact with gH/gL (22, 23). It has been proposed that gO might function as a molecular chaperone to promote gH/gL incorporation, but not gH/gL/gO, into the virion (21). However, it has been recently demonstrated that gH/gL/gO and Pentamer are much more abundant on the HCMV envelope than gH/gL alone (24).Highly potent HCMV-neutralizing monoclonal antibodies were isolated from the memory B-cell repertoire of HCMV-immune donors and shown to bind the Pentamer. These antibodies were capable of neutralizing HCMV infection of epithelial/endothelial cells, but not fibroblasts (25, 26). In addition, several studies have demonstrated that the Pentamer is the main target of the neutralizing humoral response to HCMV infection in epithelial/endothelial cells (27–29). Consistent with these observations, immunization with the Pentamer has been shown to elicit a strong neutralizing antibody response in mouse, rabbit, and rhesus macaque models (30–32). Together these data indicate that the Pentamer represents a key antigenic target for vaccine development against HCMV infection.Here we report the purification and biochemical characterization of HCMV gH/gL, gH/gL/gO, and Pentamer. In addition, we describe the architecture of these complexes by electron microscopy (EM) and characterize their interaction with MSL-109, a previously described HCMV-neutralizing antibody isolated from the spleen of a HCMV-seropositive individual (33, 34). Our data provide new insights into the structure and function of the HCMV gH/gL/gO and Pentamer complexes.     

Protection against Congenital CMV Infection Conferred by MVA-Vectored Subunit Vaccines Extends to a Second Pregnancy after Maternal Challenge with a Heterologous,Novel Strain Variant

Maternal reinfection of immune women with novel human cytomegalovirus (HCMV) strains acquired during pregnancy can result in symptomatic congenital CMV (cCMV) infection. Novel animal model strategies are needed to explore vaccine-mediated protections against maternal reinfection. To investigate this in the guinea pig cytomegalovirus (GPCMV) model, a strictly in vivo-passaged workpool of a novel strain, the CIDMTR strain (dose, 1 × 10⁷ pfu) was used to infect dams that had been challenged in a previous pregnancy with the 22122 strain, following either sham-immunization (vector only) or vaccination with MVA-vectored gB, gH/gL, or pentameric complex (PC) vaccines. Maternal DNAemia cleared by day 21 in the glycoprotein-vaccinated dams, but not in the sham-immunized dams. Mean pup birth weights were 72.85 ± 10.2, 80.0 ± 6.9, 81.4 ± 14.1, and 89.38 ± 8.4 g in sham-immunized, gB, gH/gL, and PC groups, respectively (p < 0.01 for control v. PC). Pup mortality in the sham-immunized group was 6/12 (50%), but reduced to 3/35 (8.6%) in combined vaccine groups (p = 0.0048). Vertical CIDMTR transmission occurred in 6/12 pups (50%) in the sham-vaccinated group, compared to 2/34 pups (6%) in the vaccine groups (p = 0.002). We conclude that guinea pigs immunized with vectored vaccines expressing 22122 strain-specific glycoproteins are protected after a reinfection with a novel, heterologous clinical isolate (CIDMTR) in a second pregnancy.     

人类疱疹病毒-6B包膜糖蛋白gO和gL在感染细胞中的表达与检测

目的 了解HHV-6B包膜糖蛋白gO和gL在感染细胞中的表达时间。为今后研发抗病毒药物提供实验依据。方法 采用免疫荧光染色法镜检不同时间段的HHV-6B感染细胞，并平行收集样本，用蛋白免疫印迹法对样本进行gO和gL的鉴定，以了解其表达状态。结果 荧光显微镜观察显示gO和gL开始表达的时间均是感染后20h，分别在120h、96h达到高峰。蛋白免疫印迹检测的结果基本与前者相符。结论 HHV-6B包膜糖蛋白gO和乒为病毒的晚期蛋白。     

Stability of human cytomegalovirus genotypes in persistently infected renal transplant recipients

Although most genes are highly conserved among strains of human cytomegalovirus (HCMV), several are unusually variable. By analyzing the sequence of two variable genes (UL146 and UL74) amplified directly from whole blood DNA extracts, multiple HCMV strains were detected in blood samples from 5/11 virus-infected renal transplant patients. These five patients were seronegative prior to transplantation and their likely acquisition of the virus was via the donated organ; HCMV-positive immunocompetent donors may thus be capable of harboring and transmitting multiple virus genotypes. In sequential samples taken up to 140 days post transplant no mutations in either gene were detected from 9/10 patients, and in the remaining patient a single nucleotide change was detected in UL146, and none in UL74. All sequences grouped into previously defined genotypes, with the detection of multiple members of the UL74 group 5 genotype establishing this previously tentative genotype. Additionally, identical sequences were identified in viruses from different patients, including examples from geographically distinct regions. Thus, although UL146 and UL74 exhibit impressive variation among strains, their sequences are maintained stably within and between infected individuals, suggesting that sequence differences between genotypes may be driven by differing gene function.     

High human cytomegalovirus loads and diverse linked variable genotypes in both HIV-1 infected and exposed, but uninfected, children in Africa

Human cytomegalovirus, HCMV, was analysed using real-time quantitative PCR in symptomatic or asymptomatic pediatric cohorts from HIV-1 infected, exposed (HIV-1+ mothers), or uninfected groups in Zambia, an HIV-1/AIDS endemic region of Africa. HCMV infections were identified in 94% samples from HIV-1+ respiratory pediatric mortalities, 50% with high DNA loads of 10³-10⁸ copies/10⁶ cells. In comparison, HCMV viremia with high DNA loads, indicative of acute infections, were in 10% hospitalised febrile infants, with 50% HIV-1+. Whereas high sera loads were in 1% of asymptomatic infants, with 2% HIV-1+, and higher levels in both HIV-1 infected or exposed, but negative infants. All 8 linked-hypervariable glycoprotein gN-gO genotypes were shown, including identification of a new gN4d group with gO5 linkage (previously only Merlin reference strain), and samples with multiple infections. Overall, this shows global genotypes in Africa (unlike some herpesviruses) and acute pediatric HCMV infections in both HIV-1+ plus exposed, but uninfected infants, an emerging group.