Your search keyword '"Envelope glycoprotein"' showing total 573 results

1. Rare twin cysteine residues in the HIV-1 envelope variable region 1 link to neutralization escape and breadth development

Author

Hesselman, Maria C., Zeeb, Marius, Rusert, Peter, Pasin, Chloé, Mamrosh, Jennifer, Kariuki, Samuel, Pichler, Ian, Sickmann, Michèle, Kaufmann, Masako M., Schmidt, Daniel, Friedrich, Nikolas, Metzner, Karin J., Rindler, Audrey, Kuster, Herbert, Adams, Craig, Thebus, Ruwayhida, Huber, Michael, Yerly, Sabine, Leuzinger, Karoline, Perreau, Matthieu, Koller, Roger, Dollenmaier, Günter, Frigerio, Simona, Westfall, Dylan H., Deng, Wenjie, deCamp, Allan C., Juraska, Michal, Edupuganti, Srilatha, Mgodi, Nyaradzo, Murrell, Hugh, Garrett, Nigel, Wagh, Kshitij, Mullins, James I., Williamson, Carolyn, Moore, Penny L., Günthard, Huldrych F., Kouyos, Roger D., and Trkola, Alexandra

Published

2025

2. Preliminary investigation and analysis of nucleotide site variability of nine glycoproteins on varicella-zoster virus envelope, Jilin Province, China, 2010-March 2024

Author

Li Xiran, Sun Hongyan, Qin Guixiang, Sun Ying, Li Xiang, Tian Xin, Han Mengying, Wang Ji, and Ji Shangwei

Subjects

Varicella zoster virus, Envelope glycoprotein, Mutation site, Medicine, Science

Abstract

Abstract Varicella is endemic worldwide. In China, varicella has not yet been included in the list of legal infectious diseases, nor has a unified national surveillance program been established. And the live attenuated varicella vaccine has not been included in routine immunization. In this study, we analyzed for the first time the varicella epidemiology in Jilin Province in the past 20 years, and the nucleotide site, amino acid site and N-glycosylation site variation of glycoprotein in varicella-zoster virus (VZV) surface 9 in the past 15 years. The results showed that the reported incidence of varicella in Jilin Province in the last 20 years was fluctuating above and below 20/100,000, especially after the epidemic of the COVID-19, and fatal cases appeared in individual years. The genotypic branching of VZV was monitored as Clade 2 in the last 15 years. 9 glycogen nucleotide sites of VZV had different degrees of variability, and the variability had specificity. Therefore, it gives us the idea that in order to reduce the incidence of varicella and herpes zoster, a provincial or even national surveillance program should be introduced as early as possible, and the dynamic monitoring of the variability of the nucleotide sites of VZV should be strengthened at the same time as the vaccine immunization strategy is introduced.

Published

2024

3. Antibodies against endogenous retroviruses.

Author

Chisca, Mihaela, Larouche, Jean‐David, Xing, Qi, and Kassiotis, George

Subjects

*RETROVIRUS diseases, *ENDOGENOUS retroviruses, *IMMUNE response, *HUMORAL immunity, *ANTIBODY formation

Abstract

Summary: The human genome harbors hundreds of thousands of integrations of ancient retroviruses, amassed over millions of years of evolution. To reduce further amplification in the genome, the host prevents transcription of these now endogenous retroviruses (ERVs) through epigenetic repression and, with evolutionary time, ERVs are incapacitated by accumulating mutations and deletions. However, several members of recently endogenized ERV groups still retain the capacity to produce viral RNA, retroviral proteins, and higher order structures, including virions. The retention of viral characteristics, combined with the reversible nature of epigenetic repression, particularly as seen in cancer, allow for immunologically unanticipated ERV expression, perceived by the adaptive immune system as a genuine retroviral infection, to which it has to respond. Accordingly, antibodies reactive with ERV antigens have been detected in diverse disorders and, occasionally, in healthy individuals. Although they are part of self, the retroviral legacy of ERV antigens, and association with and, possibly, causation of disease states may set them apart from typical self‐antigens. Consequently, the pathogenic or, indeed, host‐protective capacity of antibodies targeting ERV antigens is likely to be context‐dependent. Here, we review the immunogenicity of typical ERV proteins, with emphasis on the antibody response and its potential disease implications. [ABSTRACT FROM AUTHOR]

Published

2024

4. Conserved residues of the immunosuppressive domain of MLV are essential for regulating the fusion-critical SU-TM disulfide bond.

Author

Hogan, Victoria A., Harmon, Julia, Cid-Rosas, Miguel, Hall, Laura R., and Johnson, Welkin E.

Subjects

*ENDOGENOUS retroviruses, *MOUSE leukemia viruses, *INFLUENZA viruses, *HOSTS (Biology), *PEPTIDES, *MEMBRANE fusion

Abstract

The Env protein of murine leukemia virus (MLV) is the prototype of a large clade of retroviral fusogens, collectively known as gamma-type Envs. Gamma-type Envs are found in retroviruses and endogenous retroviruses (ERVs) representing a broad range of vertebrate hosts. All gamma-type Envs contain a highly conserved stretch of 26-residues in the transmembrane subunit (TM) comprising two motifs, a putative immunosuppressive domain (ISD) and a CX6CC motif. Extraordinary conservation of the ISD and its invariant association with the CX6CC suggests a fundamental contribution to Env function. To investigate ISD function, we characterized several mutants with single amino acid substitutions at conserved positions in the MLV ISD. A majority abolished infectivity, although we did not observe a corresponding loss in intrinsic ability to mediate membrane fusion. Ratios of the surface subunit (SU) to capsid protein (CA) in virions were diminished for a majority of the ISD mutants, while TM:CA ratios were similar to wild type. Specific loss of SU reflected premature isomerization of the labile disulfide bond that links SU and TM prior to fusion. Indeed, all non-infectious mutants displayed significantly lower disulfide stability than wild-type Env. These results reveal a role for ISD positions 2, 3, 4, 7, and 10 in regulating a late step in entry after fusion peptide insertion but prior to creation of the fusion pore. This implies that the ISD is part of a larger domain, comprising the ISD and CX6CC motifs, that is critical for the formation and regulation of the metastable, intersubunit disulfide bond. IMPORTANCE The gamma-type Env is a prevalent viral fusogen, found within retroviruses and endogenous retroviruses across vertebrate species and in filoviruses such as Ebolavirus. The fusion mechanism of gamma-type Envs is unique from other Class I fusogens such as those of influenza A virus and HIV-1. Gamma-type Envs contain a hallmark feature known as the immunosuppressive domain (ISD) that has been the subject of some controversy in the literature surrounding its putative immunosuppressive effects. Despite the distinctive conservation of the ISD, little has been done to investigate the role of this region for the function of this widespread fusogen. Our work demonstrates the importance of the ISD for the function of gamma-type Envs in infection, particularly in regulating the intermediate steps of membrane fusion. Understanding the fusion mechanism of gamma-type Envs has broad implications for understanding the entry of extant viruses and aspects of host biology connected to co-opted endogenous gamma-type Envs. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Furin Protease Dependence and Antiviral GBP2 Sensitivity of Murine Leukemia Virus Infection Are Determined by the Amino Acid Sequence at the Envelope Glycoprotein Cleavage Site.

Author

Kubo, Yoshinao, Hans, Manya Bakatumana, Nakamura, Taisuke, and Hayashi, Hideki

Subjects

*MOUSE leukemia viruses, *AMINO acid sequence, *VIRAL envelopes, *VIRUS diseases, *PROTEINS, *VIRAL envelope proteins

Abstract

Host restriction factor GBP2 suppresses the replication of the ecotropic Moloney murine leukemia virus (E-MLV) by inhibiting furin protease, which cleaves the viral envelope glycoprotein (Env) into surface (SU) and transmembrane (TM) subunits. We analyzed the impacts of GBP2 on the infection efficiency mediated by MLV Envs of different strains of ecotropic Moloney, polytropic Friend, amphotropic, and xenotropic MLV-related (XMRV) viruses. Interestingly, the Envs of ecotropic Moloney and polytropic Friend MLV were sensitive to the antiviral activity of GBP2, while XMRV and amphotropic Envs showed resistance. Consistent with the sensitivity to GBP2, the amino acid sequences of the sensitive Envs at the SU-TM cleavage site were similar, as were the sequences of the resistant Envs. SU-TM cleavage of the GBP2-sensitive Env protein was inhibited by furin silencing, whereas that of GBP2-resistant Env was not. The substitution of the ecotropic Moloney cleavage site sequence with that of XMRV conferred resistance to both GBP2 and furin silencing. Reciprocally, the substitution of the XMRV cleavage site sequence with that of the ecotropic sequence conferred sensitivity to GBP2 and furin silencing. According to the SU-TM cleavage site sequence, there were sensitive and resistant variants among ecotropic, polytropic, and xenotropic MLVs. This study found that the dependence of MLV Env proteins on furin cleavage and GBP2-mediated restriction is determined by the amino acid sequences at the SU-TM cleavage site. [ABSTRACT FROM AUTHOR]

Published

2024

6. Screening of Small-Molecule Libraries Using SARS-CoV-2-Derived Sequences Identifies Novel Furin Inhibitors.

Author

Jorkesh, Alireza, Rothenberger, Sylvia, Baldassar, Laura, Grybaite, Birute, Kavaliauskas, Povilas, Mickevicius, Vytautas, Dettin, Monica, Vascon, Filippo, Cendron, Laura, and Pasquato, Antonella

Subjects

*SARS-CoV-2 Omicron variant, *PROPIONIC acid, *SMALL molecules, *HIGH throughput screening (Drug development), *PEPTIDES

Abstract

SARS-CoV-2 is the pathogen responsible for the most recent global pandemic, which has claimed hundreds of thousands of victims worldwide. Despite remarkable efforts to develop an effective vaccine, concerns have been raised about the actual protection against novel variants. Thus, researchers are eager to identify alternative strategies to fight against this pathogen. Like other opportunistic entities, a key step in the SARS-CoV-2 lifecycle is the maturation of the envelope glycoprotein at the RARR685↓ motif by the cellular enzyme Furin. Inhibition of this cleavage greatly affects viral propagation, thus representing an ideal drug target to contain infection. Importantly, no Furin-escape variants have ever been detected, suggesting that the pathogen cannot replace this protease by any means. Here, we designed a novel fluorogenic SARS-CoV-2-derived substrate to screen commercially available and custom-made libraries of small molecules for the identification of new Furin inhibitors. We found that a peptide substrate mimicking the cleavage site of the envelope glycoprotein of the Omicron variant (QTQTKSHRRAR-AMC) is a superior tool for screening Furin activity when compared to the commercially available Pyr-RTKR-AMC substrate. Using this setting, we identified promising novel compounds able to modulate Furin activity in vitro and suitable for interfering with SARS-CoV-2 maturation. In particular, we showed that 3-((5-((5-bromothiophen-2-yl)methylene)-4-oxo-4,5 dihydrothiazol-2-yl)(3-chloro-4-methylphenyl)amino)propanoic acid (P3, IC50 = 35 μM) may represent an attractive chemical scaffold for the development of more effective antiviral drugs via a mechanism of action that possibly implies the targeting of Furin secondary sites (exosites) rather than its canonical catalytic pocket. Overall, a SARS-CoV-2-derived peptide was investigated as a new substrate for in vitro high-throughput screening (HTS) of Furin inhibitors and allowed the identification of compound P3 as a promising hit with an innovative chemical scaffold. Given the key role of Furin in infection and the lack of any Food and Drug Administration (FDA)-approved Furin inhibitor, P3 represents an interesting antiviral candidate. [ABSTRACT FROM AUTHOR]

Published

2024

7. Restoration of virulence in the attenuated Candid#1 vaccine virus requires reversion at both positions 168 and 427 in the envelope glycoprotein GPC.

Author

Nunberg, Jack H., Westover, Jonna B., Joanne York, Kie Hoon Jung, Bailey, Kevin W., Boardman, Kirsten M., Minghao Li, Furnell, Rachel S., Wasson, Samantha R., Murray, Justin S., Kaundal, Rakesh, Thomas, Aaron J., and Gowen, Brian B.

Subjects

*VIRAL vaccines, *TRANSMEMBRANE domains, *GUINEA pigs, *HEMORRHAGIC fever, *VIRUS diseases

Abstract

Live-attenuated virus vaccines provide long-lived protection against viral disease but carry inherent risks of residual pathogenicity and genetic reversion. The live-attenuated Candid#1 vaccine was developed to protect Argentines against lethal infection by the Argentine hemorrhagic fever arenavirus, Junín virus. Despite its safety and efficacy in Phase III clinical study, the vaccine is not licensed in the US, in part due to concerns regarding the genetic stability of attenuation. Previous studies had ident ified a single F427I mutation in the transmembrane domain of the Candid#1 envelope glycoprotein GPC as the key determinant of attenuation, as well as the propensity of this mutation to revert upon passage in cell culture and neonatal mice. To ascertain the consequences of this reversion event, we introduced the I427F mutation into recombinant Candid#1 (I427F rCan) and investigated the effects in two validated small-animal models: in mice expressing the essential virus receptor (human transferrin receptor 1; huTfR1) and in the conventional guinea pig model. We report that I427F rCan displays only modest virulence in huTfR1 mice and appears attenuated in guinea pigs. Reversion at another attenuating locus in Candid#1 GPC (T168A) was also examined, and a similar pattern was observed. By contrast, virus bearing both revertant mutations (A168T+I427F rCan) approached the lethal virulence of the pathogenic Romero strain in huTfR1 mice. Virulence was less extreme in guinea pigs. Our findings suggest that genetic stabilization at both positions is required to minimize the likelihood of reversion to virulence in a second-generation Candid#1 vaccine. IMPORTANCE Live-attenuated virus vaccines, such as measles/mumps/rubella and oral poliovirus, provide robust protection against disease but carry with them the risk of genetic reversion to the virulent form. Here, we analyze the genetics of reversion in the live-attenuated Candid#1 vaccine that is used to protect against Argentine hemorrhagic fever, an often-lethal disease caused by the Junín arenavirus. In two validated smallanimal models, we find that restoration of virulence in recombinant Candid#1 viruses requires back-mutation at two positions specific to the Candid#1 envelope glycoprotein GPC, at positions 168 and 427. Viruses bearing only a single change showed only modest virulence. We discuss strategies to genetically harden Candid#1 GPC against these two reversion events in order to develop a safer second-generation Candid#1 vaccine virus. [ABSTRACT FROM AUTHOR]

Published

2024

8. Evaluation of serum Epstein–Barr virus envelope glycoproteins antibodies and their association with systemic autoimmune diseases.

Author

Li, Hui‐Lan, Zhong, Lan‐Yi, Kang, Yin‐Feng, Yang, Yan‐Lan, Shi, Liang, Zhai, Ai‐Xia, Wu, Chao, Zeng, Mu‐Sheng, and Zhu, Qian‐Ying

Subjects

GLYCOPROTEINS, EPSTEIN-Barr virus, AUTOIMMUNE diseases, IMMUNOGLOBULINS, SYSTEMIC lupus erythematosus

Abstract

Systemic autoimmune diseases (SADs) are a growing spectrum of autoimmune disorders that commonly affect multiple organs. The role of Epstein–Barr virus (EBV) infection or reactivation as a trigger for the initiation and progression of SADs has been established, while the relationship between EBV envelope glycoproteins and SADs remains unclear. Here, we assessed the levels of IgG, IgA, and IgM against EBV glycoproteins (including gp350, gp42, gHgL, and gB) in serum samples obtained from patients with rheumatoid arthritis (RA) and systemic lupus erythematosus (SLE), and found that RA and SLE patients exhibited a statistically significant increase in the levels of 8 and 11 glycoprotein antibodies, respectively, compared to healthy controls (p < 0.05). The LASSO model identified four factors as significant diagnostic markers for RA: gp350 IgG, gp350 IgA, gHgL IgM, and gp42 IgA; whereas for SLE it included gp350 IgG, gp350 IgA, gHgL IgA, and gp42 IgM. Combining these selected biomarkers yielded an area under the curve (AUC) of 0.749 for RA and 0.843 for SLE. We subsequently quantified the levels of autoantibodies associated with SADs in mouse sera following immunization with gp350. Remarkably, none of the tested autoantibody levels exhibited statistically significant alterations. Elevation of glycoprotein antibody concentration suggests that Epstein–Barr virus reactivation and replication occurred in SADs patients, potentially serving as a promising biomarker for diagnosing SADs. Moreover, the absence of cross‐reactivity between gp350 antibodies and SADs‐associated autoantigens indicates the safety profile of a vaccine based on gp350 antigen. [ABSTRACT FROM AUTHOR]

Published

2024

9. Human MARCH1, 2, and 8 block Ebola virus envelope glycoprotein cleavage via targeting furin P domain.

Author

Yu, Changqing, Bai, Yuanzhe, Tan, Wenbo, Bai, Yu, Li, Xuemei, Zhou, Yulong, Zhai, Jingbo, Xue, Mengzhou, Tang, Yan‐Dong, Zheng, Chunfu, and Liu, Qiang

Abstract

Membrane‐associated RING‐CH (MARCH) family proteins were recently reported to inhibit viral replication through multiple modes. Previous work showed that human MARCH8 blocked Ebola virus (EBOV) glycoprotein (GP) maturation. Our study here demonstrates that human MARCH1 and MARCH2 share a similar pattern to MARCH8 in restricting EBOV GP‐pseudotyped viral infection. Human MARCH1 and MARCH2 retain EBOV GP at the trans‐Golgi network, reduce its cell surface display, and impair EBOV GP‐pseudotyped virions infectivity. Furthermore, we uncover that the host proprotein convertase furin could interact with human MARCH1/2 and EBOV GP intracellularly. Importantly, the furin P domain is verified to be recognized by MARCH1/2/8, which is critical for their blocking activities. Besides, bovine MARCH2 and murine MARCH1 also impair EBOV GP proteolytic processing. Altogether, our findings confirm that MARCH1/2 proteins of different mammalian origins showed a relatively conserved feature in blocking EBOV GP cleavage, which could provide clues for subsequent MARCHs antiviral studies and may facilitate the development of novel strategies to antagonize enveloped virus infection. [ABSTRACT FROM AUTHOR]

Published

2024

10. The important biological roles of Syncytin-1 of human endogenous retrovirus W (HERV-W) and Syncytin-2 of HERV-FRD in the human placenta development.

Author

Gholami barzoki, Mehdi, Shatizadeh Malekshahi, Somayeh, Heydarifard, Zahra, Mahmodi, Mohamad javad, and Soltanghoraee, Haleh

Abstract

Background: Human endogenous retroviruses (HERVs) entered the germ line by retroviral infection from a distant ancestor over 30 million years ago and constitute 8% of the human genome. The majorities of HERVs are non-protein coding and lack function because of the accumulation of mutations, insertions, deletions, and/or truncations. However, a small number of HERV genes carried ORFs with beneficial functions for the host. Methods & results: In this review, we summarize the structural and important biological roles of two HERV gene products termed Syncytin-1 and Syncytin-2 in human placenta development. Indeed, two retroviral gene products that have important roles in mammalian development, Syncytin-1 (HERV-W) and Syncytin-2 (HERV-FRD), are prime examples encoded by env genes and expressed in the placental trophoblasts. Several pivotal studies revealed that Syncytins are fundamental genes implicated in regulating trophoblast fusion and placenta morphogenesis. Conclusion: Interestingly, it has been suggested that syncytins may also be implicated in non-fusogenic activities leading to apoptosis, proliferation, and immunosuppressive activities. [ABSTRACT FROM AUTHOR]

Published

2023

11. KIF16B Mediates Anterograde Transport and Modulates Lysosomal Degradation of the HIV-1 Envelope Glycoprotein.

Author

Weaver, Nicholas, Hammonds, Jason, Lingmei Ding, Lerner, Grigoriy, Dienger-Stambaugh, Krista, and Spearman, Paul

Subjects

*MOLECULAR motor proteins, *HIV, *CELL membranes

Abstract

The human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) is incorporated into virions at the site of particle assembly on the plasma membrane (PM). The route taken by Env to reach the site of assembly and particle incorporation remains incompletely understood. Following initial delivery to the PM through the secretory pathway, Env is rapidly endocytosed, suggesting that recycling is required for particle incorporation. Endosomes marked by the small GTPase Rab14 have been previously shown to play a role in Env trafficking. Here, we examined the role of KIF16B, the molecular motor protein that directs outward movement of Rab14-dependent cargo, in Env trafficking. Env colocalized extensively with KIF16B1 endosomes at the cellular periphery, while expression of a motor-deficient mutant of KIF16B redistributed Env to a perinuclear location. The half-life of Env labeled at the cell surface was markedly reduced in the absence of KIF16B, while a normal half-life was restored through inhibition of lysosomal degradation. In the absence of KIF16B, Env expression on the surface of cells was reduced, leading to a reduction in Env incorporation into particles and a corresponding reduction in particle infectivity. HIV-1 replication in KIF16B knockout cells was substantially reduced compared to that in wild-type cells. These results indicated that KIF16B regulates an outward sorting step involved in Env trafficking, thereby limiting lysosomal degradation and enhancing particle incorporation. [ABSTRACT FROM AUTHOR]

Published

2023

12. SARS-CoV-2 S Mutations: A Lesson from the Viral World to Understand How Human Furin Works.

Author

Cassari, Leonardo, Pavan, Angela, Zoia, Giulia, Chinellato, Monica, Zeni, Elena, Grinzato, Alessandro, Rothenberger, Sylvia, Cendron, Laura, Dettin, Monica, and Pasquato, Antonella

Subjects

*SARS-CoV-2, *VIRAL envelope proteins, *AMINO acid sequence, *AMINO acid residues

Abstract

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is the etiological agent responsible for the worldwide pandemic and has now claimed millions of lives. The virus combines several unusual characteristics and an extraordinary ability to spread among humans. In particular, the dependence of the maturation of the envelope glycoprotein S from Furin enables the invasion and replication of the virus virtually within the entire body, since this cellular protease is ubiquitously expressed. Here, we analyzed the naturally occurring variation of the amino acids sequence around the cleavage site of S. We found that the virus grossly mutates preferentially at P positions, resulting in single residue replacements that associate with gain-of-function phenotypes in specific conditions. Interestingly, some combinations of amino acids are absent, despite the evidence supporting some cleavability of the respective synthetic surrogates. In any case, the polybasic signature is maintained and, as a consequence, Furin dependence is preserved. Thus, no escape variants to Furin are observed in the population. Overall, the SARS-CoV-2 system per se represents an outstanding example of the evolution of substrate–enzyme interaction, demonstrating a fast-tracked optimization of a protein stretch towards the Furin catalytic pocket. Ultimately, these data disclose important information for the development of drugs targeting Furin and Furin-dependent pathogens. [ABSTRACT FROM AUTHOR]

Published

2023

13. Efficient Gene Transfer to Kidney Using a Lentiviral Vector Pseudotyped with Zika Virus Envelope Glycoprotein.

Author

Liu, Jun, Mao, Yingying, Li, Qingqing, Qiu, Zhenzhen, Li, Jingjing, Li, Xiaoxin, Liang, Wenhan, Xu, Mingyu, Li, Andrew, Cai, Xiangsheng, Wu, Wangsheng, Chen, Huangyao, Yan, Renhe, Li, Jinlong, Gu, Weiwang, and Li, Hongwei

Subjects

*ZIKA virus, *GENETIC transformation, *GREEN fluorescent protein, *GENE expression, *VESICULAR stomatitis, *GENETIC vectors, *VIRAL envelope proteins

Abstract

Gene therapy's entrance into clinical settings has made it an ever more attractive field of study for various diseases. However, relatively little progress has been made in targeting kidney diseases due to poor gene delivery efficiency in renal cells. The development of novel gene therapy vectors for medical intervention to treat kidney diseases is needed. In this study, we designed and produced a pseudotyped lentiviral vector with envelope glycoproteins of Zika virus (ZIKV), and evaluated its potential use in viral vector entry, neutralization assay, and gene delivery especially in the renal context. The lentiviral vector, simplified as ZIKV-E, is pseudotyped with Env/G-TC representing the transmembrane (TM) and cytoplasmic (CY) domains of Env replaced with the TM and CY domains of the glycoprotein (G) of the vesicular stomatitis virus. In vivo results show that ZIKV-E induced efficient transduction in tubular epithelial cells in mouse kidneys, demonstrating >100-fold higher expression of exogenous green fluorescent protein gene compared with that achieved by vesicular stomatitis virus G (VSV-G) protein pseudotyped lentiviral vector. The results also showed that the vector ZIKV-E transduced cells in a pH-independent manner and the transduction was inhibited by anti-ZIKV Env domain III antibodies. Results also show that ZIKV-E can be used as a surrogate for studies of ZIKV entry mechanisms and neutralization antibody assay. In all, this study successfully demonstrated a novel pseudotyped lentiviral vector ZIKV-E for inducing high transduction efficiency in renal tubular epithelial cells that could serve as a foundation for gene therapy for the treatment of inherited renal diseases in humans. [ABSTRACT FROM AUTHOR]

Published

2022

14. Glycine Substitution at Helix-to-Coil Transitions Facilitates the Structural Determination of a Stabilized Subtype C HIV Envelope Glycoprotein

Author

Wyatt, Richard [The Scripps Research Inst., La Jolla, CA (United States); Scripps Center for HIV/AIDS Vaccine Immunology & Immunogen Discovery (CHAVI-ID), La Jolla, CA (United States)]

Published

2017

15. Quantification of the Impact of the HIV-1-Glycan Shield on Antibody Elicitation

Author

Kwong, Peter [National Inst. of Health (NIH), Bethesda, MD (United States). Vaccine Research Center, National Inst. of Allergy and Infectious Diseases; Columbia Univ., New York, NY (United States)]

Published

2017

16. A Broadly Neutralizing Antibody Targets the Dynamic HIV Envelope Trimer Apex via a Long, Rigidified, and Anionic β-Hairpin Structure

Author

Ward, Andrew [The Scripps Research Inst., La Jolla, CA (United States)]

Published

2017

17. Revisiting the dengue epidemic of 2011 in Paraguay: molecular epidemiology of dengue virus in the Asuncion metropolitan area

Author

Alejandra Rojas, Adriana Moreira Soares, Laura Patricia Mendoza, María Eugenia Acosta, Laura Aria, Malvina Páez, Lilian Herebia, María Asunción Vallejos, Yvalena de Guillén, and Victor Hugo Aquino

Subjects

Dengue virus, Molecular epidemiology, Envelope glycoprotein, Genetic diversity, Phylogenetic relationship, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Dengue is one of the most important re-emerging viral diseases and the most common human arthropod-borne viral infection worldwide. Any of the four Dengue virus serotypes (DENV-1 to 4) can cause asymptomatic infections or clinical manifestations that range in severity from a mild, self-limited illness, to a severe disease characterized by a shock syndrome that can lead to death. Paraguay suffers periodic epidemic outbreaks of dengue since 1988 when the DENV-1 was introduced in the country. Epidemics caused by all four serotypes have been reported and the country. Although dengue is endemic in Paraguay, few studies have described the molecular epidemiology of DENV in the country, which is important to understand the local and global spread, as well as the evolution of this pathogen. Methods This was a cross-sectional study of a convenience sample. Suspected dengue patients of any age were recruited from the Emergency Laboratory of the Central Hospital of the Institute of Social Welfare, Asuncion, Paraguay, from February to June of 2011. A DENV antigen test was used to confirm the infection. The protein E gene sequences of isolated viruses were sequenced for phylogenetic analysis. Results Dengue was confirmed in 55.1% of the participants (n = 98/178). The most frequent clinical findings were fever, headache, and myalgia. Identity analyses of the protein E gene sequence of 56 viruses isolated showed the circulation of DENV-1 (n = 45) and DENV-2 (n = 11) in the Asuncion metropolitan area in 2011. Molecular epidemiology analyses suggest that DENV-1 was introduced into Paraguay from Argentina, while the DENV-2 from Brazil, replacing previous virus lineages. Conclusions We have analyzed the molecular epidemiology of DENV-1 and DENV-2 isolated in Paraguay in 2011. We found strong evidence that DENV-1 was introduced into Paraguay from Argentina, while the DENV-2 from Brazil, replacing previous virus lineages. Molecular epidemiology studies are of great interest to analyze the dynamic of DENV spread, which are useful for early implementation of containment measures to reduce the risk of explosive epidemics caused by this virus.

Published

2021

18. Heterologous avian system for quantitative analysis of Syncytin-1 interaction with ASCT2 receptor

Author

Kryštof Štafl, Martin Trávníček, Dana Kučerová, Ľubomíra Pecnová, Veronika Krchlíková, Eliška Gáliková, Volodymyr Stepanets, Jiří Hejnar, and Kateřina Trejbalová

Subjects

Retroviral receptor, Envelope glycoprotein, Envelope-receptor interaction, ASCT2 (SLC1A5), Syncytin-1, Cell–cell fusion, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background Human Syncytin-1 is a placentally-expressed cell surface glycoprotein of retroviral origin. After interaction with ASCT2, its cellular receptor, Syncytin-1 triggers cell–cell fusion and formation of a multinuclear syncytiotrophoblast layer of the placenta. The ASCT2 receptor is a multi-spanning membrane protein containing a protruding extracellular part called region C, which has been suggested to be a retrovirus docking site. Precise identification of the interaction site between ASCT2 and Syncytin-1 is challenging due to the complex structure of ASCT2 protein and the background of endogenous ASCT2 gene in the mammalian genome. Chicken cells lack the endogenous background and, therefore, can be used to set up a system with surrogate expression of the ASCT2 receptor. Results We have established a retroviral heterologous chicken system for rapid and reliable assessment of ectopic human ASCT2 protein expression. Our dual-fluorescence system proved successful for large-scale screening of mutant ASCT2 proteins. Using this system, we demonstrated that progressive deletion of region C substantially decreased the amount of ASCT2 protein. In addition, we implemented quantitative assays to determine the interaction of ASCT2 with Syncytin-1 at multiple levels, which included binding of the soluble form of Syncytin-1 to ASCT2 on the cell surface and a luciferase-based assay to evaluate cell–cell fusions that were triggered by Syncytin-1. Finally, we restored the envelope function of Syncytin-1 in a replication-competent retrovirus and assessed the infection of chicken cells expressing human ASCT2 by chimeric Syncytin-1-enveloped virus. The results of the quantitative assays showed that deletion of the protruding region C did not abolish the interaction of ASCT2 with Syncytin-1. Conclusions We present here a heterologous chicken system for effective assessment of the expression of transmembrane ASCT2 protein and its interaction with Syncytin-1. The system profits from the absence of endogenous ASCT2 background and implements the quantitative assays to determine the ASCT2-Syncytin-1 interaction at several levels. Using this system, we demonstrated that the protruding region C was essential for ASCT2 protein expression, but surprisingly, not for the interaction with Syncytin-1 glycoprotein.

Published

2021

19. Viral and Host Factors Regulating HIV-1 Envelope Protein Trafficking and Particle Incorporation.

Author

Anokhin, Boris and Spearman, Paul

Subjects

*ENDOCYTOSIS, *HIV, *CELL membranes, *T cells, *GAG proteins, *PROTEINS

Abstract

The HIV-1 envelope glycoprotein (Env) is an essential structural component of the virus, serving as the receptor-binding protein and principal neutralizing determinant. Env trimers are incorporated into developing particles at the plasma membrane of infected cells. Incorporation of HIV-1 Env into particles in T cells and macrophages is regulated by the long Env cytoplasmic tail (CT) and the matrix region of Gag. The CT incorporates motifs that interact with cellular factors involved in endosomal trafficking. Env follows an unusual pathway to arrive at the site of particle assembly, first traversing the secretory pathway to the plasma membrane (PM), then undergoing endocytosis, followed by directed sorting to the site of particle assembly on the PM. Many aspects of Env trafficking remain to be defined, including the sequential events that occur following endocytosis, leading to productive recycling and particle incorporation. This review focuses on the host factors and pathways involved in Env trafficking, and discusses leading models of Env incorporation into particles. [ABSTRACT FROM AUTHOR]

Published

2022

20. Endocytosed HIV-1 Envelope Glycoprotein Traffics to Rab14+ Late Endosomes and Lysosomes to Regulate Surface Levels in T-Cell Lines.

Author

Hoffman, Huxley K., Aguilar, Rebekah S., Clark, Austin R., Groves, Nicholas S., Pezeshkian, Nairi, Bruns, Merissa M., and van Engelenburg, Schuyler B.

Subjects

*LYSOSOMES, *ANTIBODY-dependent cell cytotoxicity, *HIV, *T cells, *ENDOSOMES, *VIRAL envelopes

Abstract

Production of infectious HIV-1 particles requires incorporation of the viral envelope glycoprotein (Env) at the plasma membrane (PM) of infected CD41 T cells. Env trafficking to the PM exposes viral epitopes that can be exploited by the host immune system; however, HIV-1 can evade this response by endocytosis of excess Env from the PM. The fate of Env after internalization remains unclear, with evidence suggesting several different vesicular trafficking steps may be involved, including recycling pathways. To date, there have been very few studies documenting the trafficking pathways of native Env in infected T cells. Furthermore, it remains unclear whether there are T-cell-specific endosomal pathways regulating the fate of endocytic Env. Here, we use a pulse-labeling approach with a monovalent anti-Env Fab probe to characterize the trafficking of internalized Env within infected CD41 T-cell lines, together with CRISPR/Cas9-mediated endogenous protein tagging, to assess the role of host cell Rab GTPases in Env trafficking. We show that endocytosed Env traffics to Rab141 compartments that possess hallmarks of late endosomes and lysosomes. We also demonstrate that Env can recycle back to the PM, although we find that recycling does not occur at high rates when compared to the model recycling protein transferrin. These results help to resolve open questions about the fate and relevance of endocytosed Env in HIV-infected cells and suggest a novel role for Rab14 in a cell-type-specific late-endosomal/lysosomal trafficking pathway in T cells. IMPORTANCE HIV-1 envelope glycoprotein (Env) evades immune neutralization through many mechanisms. One immune evasion strategy may result from the internalization of excess surface-exposed Env to prevent antibody-dependent cellular cytotoxicity or neutralization. Characterization of the fate of endocytosed Env is critical to understand which vesicular pathways could be targeted to promote display of Env epitopes to the immune system. In this study, we characterize the endocytic fate of native Env, expressed from infected human T-cell lines. We demonstrate that Env is rapidly trafficked to a late-endosome/lysosome-like compartment and can be recycled to the cell surface for incorporation into virus assembly sites. This study implicates a novel intracellular compartment, marked by host-cell Rab14 GTPases, for the sequestration of Env. Therapeutic approaches aimed at mobilizing this intracellular pool of Env could lead to stronger immune control of HIV-1 infection via antibody-dependent cell-mediated cytotoxicity. [ABSTRACT FROM AUTHOR]

Published

2022

21. DNA priming immunization is more effective than recombinant protein vaccine in eliciting antigen-specific B cell responses

Author

Haiying Li, Shixia Wang, Guangnan Hu, Lu Zhang, Shuying Liu, and Shan Lu

Subjects

HIV-1, envelope glycoprotein, DNA vaccine, protein vaccine, heterologous prime – boost, antibody, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

While DNA prime-protein boost vaccination approach has been widely used in preclinical and clinical studies especially in the field of HIV vaccine development, the exact role of DNA immunization has not been fully identified. Our previous work demonstrated that DNA immunization was able to elicit T follicular helper (Tfh) cell responses and germinal center (GC) B cell development in a mouse model. In the current report, a mouse immunogenicity study was conducted to further ask whether DNA immunization is able to elicit antigen-specific B cell responses. Using HIV-1 Env as model antigen delivered in the form of DNA prime-protein boost, our data demonstrated that DNA prime was able to enhance the antigen-specific B cell responses for both Env-specific antibody secreting cells (ASC) and memory B cells. Furthermore, the DNA priming can greatly reduce the need of including an adjuvant as part of the recombinant protein vaccine boost formulation. Our findings revealed one mechanism that supports the value of DNA priming in assisting the inductin of high affinity and long lasting antigen specific antibody responses.

Published

2021

22. Inactivated whole hepatitis C virus vaccine employing a licensed adjuvant elicits cross-genotype neutralizing antibodies in mice.

Author

Pihl, Anne Finne, Feng, Shan, Offersgaard, Anna, Alzua, Garazi Peña, Augestad, Elias Honerød, Mathiesen, Christian Kjaerulff, Jensen, Tanja Bertelsen, Krarup, Henrik, Law, Mansun, Prentoe, Jannick, Christensen, Jan Pravsgaard, Bukh, Jens, and Gottwein, Judith Margarete

Subjects

*HEPATITIS C vaccines, *IMMUNOGLOBULINS, *VIRAL vaccines, *ALUMINUM hydroxide, *IMMUNE response

Abstract

A prophylactic vaccine is required to eliminate HCV as a global public health threat. We developed whole virus inactivated HCV vaccine candidates employing a licensed adjuvant. Further, we investigated the effects of HCV envelope protein modifications (to increase neutralization epitope exposure) on immunogenicity. Whole virus vaccine antigen was produced in Huh7.5 hepatoma cells, processed using a multistep protocol and formulated with adjuvant (MF-59 analogue AddaVax or aluminium hydroxide). We investigated the capacity of IgG purified from the serum of immunized BALB/c mice to neutralize genotype 1-6 HCV (by virus neutralization assays) and to bind homologous envelope proteins (by ELISA). Viruses used for immunizations were (i) HCV5aHi with strain SA13 envelope proteins and modification of an O-linked glycosylation site in E2 (T385P), (ii) HCV5aHi(T385) with reversion of T385P to T385, featuring the original E2 sequence determined in vivo and (iii) HCV5aHi(ΔHVR1) with deletion of HVR1. For these viruses, epitope exposure was investigated using human monoclonal (AR3A and AR4A) and polyclonal (C211 and H06) antibodies in neutralization assays. Processed HCV5aHi formulated with AddaVax induced antibodies that efficiently bound homologous envelope proteins and broadly neutralized cultured genotype 1-6 HCV, with half maximal inhibitory concentrations of between 14 and 192 μg/ml (mean of 36 μg/ml against the homologous virus). Vaccination with aluminium hydroxide was less immunogenic. Compared to HCV5aHi(T385) with the original E2 sequence, HCV5aHi with a modified glycosylation site and HCV5aHi(ΔHVR1) without HVR1 showed increased neutralization epitope exposure but similar immunogenicity. Using an adjuvant suitable for human use, we developed inactivated whole HCV vaccine candidates that induced broadly neutralizing antibodies, which warrant investigation in further pre-clinical studies. A vaccine against hepatitis C virus (HCV) is needed to prevent the estimated 2 million new infections and 400,000 deaths caused by this virus each year. We developed inactivated whole HCV vaccine candidates using adjuvants licensed for human use, which, following immunization of mice, induced antibodies that efficiently neutralized all HCV genotypes with recognized epidemiological importance. HCV variants with modified envelope proteins exhibited similar immunogenicity as the virus with the original envelope proteins. [Display omitted] • Efficient production of inactivated whole virus antigen for HCV vaccine candidates. • Whole inactivated HCV vaccines induce broadly neutralizing antibodies in mice. • Among adjuvants, AddaVax, analogue of licensed MF-59, shows the highest immunogenicity. • Modifications of HCV envelope proteins increase neutralization epitope exposure. • HCV with modified and original envelope proteins has similar immunogenicity. [ABSTRACT FROM AUTHOR]

Published

2022

23. Advances in HIV-1 Assembly.

Author

Lerner, Grigoriy, Weaver, Nicholas, Anokhin, Boris, and Spearman, Paul

Subjects

*HIV, *CAPSIDS, *CELL membranes, *GAG proteins, *INOSITOL, *EXTRACELLULAR matrix proteins, *GLYCOSAMINOGLYCANS

Abstract

The assembly of HIV-1 particles is a concerted and dynamic process that takes place on the plasma membrane of infected cells. An abundance of recent discoveries has advanced our understanding of the complex sequence of events leading to HIV-1 particle assembly, budding, and release. Structural studies have illuminated key features of assembly and maturation, including the dramatic structural transition that occurs between the immature Gag lattice and the formation of the mature viral capsid core. The critical role of inositol hexakisphosphate (IP6) in the assembly of both the immature and mature Gag lattice has been elucidated. The structural basis for selective packaging of genomic RNA into virions has been revealed. This review will provide an overview of the HIV-1 assembly process, with a focus on recent advances in the field, and will point out areas where questions remain that can benefit from future investigation. [ABSTRACT FROM AUTHOR]

Published

2022

24. Discovery of B-cell epitopes for development of dengue vaccines and antibody therapeutics.

Author

Anasir, Mohd Ishtiaq and Poh, Chit Laa

Subjects

*VACCINE development, *ARBOVIRUS diseases, *EPITOPES, *VIRUS diseases, *PEPTIDES, *THERAPEUTICS, *ANTIBODY formation, *MONOCLONAL antibodies

Abstract

Dengue is one of the most frequently transmitted viral infections globally which creates a serious burden to the healthcare system in many countries in the tropical and subtropical regions. To date, no vaccine has demonstrated balanced protection against the four dengue serotypes. Dengvaxia as the only vaccine that has been licensed for use in endemic areas has shown an increased risk in dengue-naïve vaccines to develop severe dengue. A crucial element in protection from dengue infection is the neutralizing antibody responses. Therefore, the identification of protective linear B-cell epitopes can guide vaccine design and facilitate the development of monoclonal antibodies as dengue therapeutics. This review summarizes the identification of dengue B-cell epitopes within the envelope (E) protein of dengue that can be incorporated into peptide vaccine constructs. These epitopes have been identified through approaches such as bioinformatics, three-dimensional structure analysis of antibody-dengue complexes, mutagenesis/alanine scanning and escape mutant studies. Additionally, the therapeutic potential of monoclonal antibodies targeting the E protein of dengue is reviewed. This can provide a basis for the design of future dengue therapies. [ABSTRACT FROM AUTHOR]

Published

2022

25. Convergent HIV-1 Evolution upon Targeted Destabilization of the gp120-gp41 Interface.

Author

de la Peña, Alba Torrents, Moral Sánchez, Iván del, Burger, Judith A., Bontjer, Ilja, Isik, Gözde, Eggink, Dirk, van Gils, Marit J., and Sanders, Rogier W.

Subjects

*CONVERGENT evolution, *HIGH throughput screening (Drug development), *HIV, *HETERODIMERS, *AIDS vaccines

Abstract

The HIV-1 envelope glycoprotein (Env) trimer is responsible for viral entry into target cells and is the sole target of neutralizing antibodies. The Env protein is therefore the focus of HIV-1 vaccine design. Env consists of two noncovalently linked subunits (gp120 and gp41) that form a trimer of heterodimers and this 6-subunit complex is metastable and conformationally flexible. Several approaches have been pursued to stabilize the Env trimer for vaccine purposes, which include structure-based design, high-throughput screening, and selection by mammalian cell display. Here, we employed directed virus evolution to improve Env trimer stability. Accordingly, we deliberately destabilized the Env gp120-gp41 interface by mutagenesis in the context of replicating HIV-1 LAI virus and virus evolution over time. We identified compensatory changes that pointed at convergent evolution, as they were largely restricted to specific Env regions, namely, the V1V2 domain of gp120 and the HR1 and HR2 domain of gp41. Specifically, S614G in V1V2 and Q567R in HR1 were frequently identified. Interestingly, the majority of the compensatory mutations were at distant locations from the original mutations and most likely strengthen intersubunit interactions. These results show how the virus can overcome Env instability and illuminate the regions that play a dominant role in Env stability. [ABSTRACT FROM AUTHOR]

Published

2021

26. Longitudinal Antigenic Sequences and Sites from Intra-Host Evolution (LASSIE) identifies immune-selected HIV variants

Author

Haynes, Barton [Duke Univ. Medical Center, Durham, NC (United States)]

Published

2015

27. Reverted HIV-1 Mutants in CD4+ T-Cells Reveal Critical Residues in the Polar Region of Viral Envelope Glycoprotein

Author

Wuxun Lu, Tai-Wei Li, Stacia Phillips, and Li Wu

Subjects

HIV-1, envelope glycoprotein, polar region, pseudotyping, reversion mutations, replication, Microbiology, QR1-502

Abstract

ABSTRACT HIV-1 envelope glycoprotein (Env) interacts with cell surface receptors and induces membrane fusion to enter cells and initiate infection. HIV-1 Env on virions comprises trimers of the gp120 and gp41 subunits. The polar region (PR) in the N-terminus of gp41 is composed of 17 conserved residues, including seven polar amino acids. We have reported that the PR is crucial for Env trimer stability and fusogenicity. Mutations of three highly conserved residues (S534P, T536A, or T538A) in the PR of HIV-1NL4-3 significantly decrease or eliminate viral infectivity due to defective fusion and increased gp120 shedding. To identify compensatory Env mutations that restore viral infectivity, we infected a CD4+ T-cell line with PR mutants pseudotyped with wild-type (WT) HIV-1 Env or vesicular stomatitis virus envelope glycoprotein (VSV-G). We found that PR mutant-infected CD4+ T-cells produced infectious viruses at 7 days postinfection (dpi). Sequencing of the env cDNA from cells infected with the recovered HIV-1 revealed that the S534P mutant reverted to serine or threonine at residue 534. Interestingly, the combined PR-mutant HIV-1 (S534P/T536A or S534P/T536A/T538A) recovered its infectivity and reverted to S534, but maintained the T536A or T538A mutation, suggesting that HIV-1 replication in CD4+ T-cells can tolerate T536A and T538A Env mutations, but not S534P. Moreover, VSV-G-pseudotyped HIV-1 mutants with a fusion-defective Env also recovered infectivity in CD4+ T-cells through reverted Env mutations. These new observations help define the Env residues critical for HIV-1 infection and demonstrate that Env-defective HIV-1 mutants can rapidly regain replication competency in CD4+ T-cells. IMPORTANCE Our previous mutagenesis study revealed that serine at position 534 of HIV-1 Env is critical for viral infectivity. We found that HIV-1 Env containing serine to proline mutation at position 534 (S534P) are incapable of supporting virus-cell and cell-cell fusion. To investigate whether these mutant viruses can recover infectivity and what amino acid changes account for recovered infectivity, we infected CD4+ T-cells with Env-mutant HIV-1 pseudotyped with WT HIV-1 Env or VSV-G and monitored cultures for the production of infectious viruses. Our results showed that most of the pseudotyped viruses recovered their infectivity within 1-week postinfection, and all the recovered viruses mutated proline at position 534. These observations help define the Env residues critical for HIV-1 replication. Because Env-defective HIV-1 mutants can rapidly regain replication competency in CD4+ T-cells, it is important to carefully monitor viral mutations for biosafety consideration when using HIV-1-derived lentivirus vectors pseudotyped with Env.

Published

2021

28. Pre-existing infant antibody-dependent cellular cytotoxicity associates with reduced HIV-1 acquisition and lower morbidity

Author

Allison S. Thomas, Yvetane Moreau, Wenqing Jiang, John E. Isaac, Alexander Ewing, Laura F. White, Athena P. Kourtis, and Manish Sagar

Subjects

HIV-1, antibody-dependent cellular cytotoxicity, neutralization, mother-to-child transmission, envelope glycoprotein, IgA, Medicine (General), R5-920

Abstract

Summary: In humans, pre-existing anti-HIV-1 neutralizing antibodies (nAbs) have not been associated with decreased HIV-1 acquisition. Here, we evaluate antibody-dependent cellular cytotoxicity (ADCC) present in pre-transmission infant and maternal plasma and breast milk (BM) against the contemporaneous maternal HIV-1 variants. HIV-1-exposed uninfected compared with HIV-1-exposed infected infants have higher ADCC and a combination of ADCC and nAb responses against their corresponding mother’s strains. ADCC does not correlate with nAbs, suggesting they are independent activities. The infected infants with high ADCC compared with low ADCC, but not those with higher ADCC plus nAbs, have lower morbidity up to 1 year after birth. A higher IgA to IgG ratio, observed in BM supernatants and in a higher proportion of the infected compared with the uninfected infants, associates with lower ADCC. Against the exposure strains, ADCC, more than nAbs, associates with both lower mother-to-child transmission and decreased post-infection infant morbidity.

Published

2021

29. Sequential Analysis of the N/O-Glycosylation of Heavily Glycosylated HIV-1 gp120 Using EThcD-sceHCD-MS/MS

Author

Yong Zhang, Shanshan Zheng, Wanjun Zhao, Yonghong Mao, Wei Cao, Wenjuan Zeng, Yueqiu Liu, Liqiang Hu, Meng Gong, Jingqiu Cheng, Younan Chen, and Hao Yang

Subjects

human immunodeficiency virus, envelope glycoprotein, N/O-glycosylation, EThcD-sceHCD-MS/MS, glycoproteomics, Immunologic diseases. Allergy, RC581-607

Abstract

Deciphering the glycosylation of the viral envelope (Env) glycoprotein is critical for evaluating viral escape from the host’s immune response and developing vaccines and antiviral drugs. However, it is still challenging to precisely decode the site-specific glycosylation characteristics of the highly glycosylated Env proteins, although glycoproteomics have made significant advances in mass spectrometry techniques and data analysis tools. Here, we present a hybrid dissociation technique, EThcD-sceHCD, by combining electron transfer/higher-energy collisional dissociation (EThcD) and stepped collision energy/higher-energy collisional dissociation (sceHCD) into a sequential glycoproteomic workflow. Following this scheme, we characterized site-specific N/O-glycosylation of the human immunodeficiency virus type 1 (HIV-1) Env protein gp120. The EThcD-sceHCD method increased the number of identified glycopeptides when compared with EThcD, while producing more comprehensive fragment ions than sceHCD for site-specific glycosylation analysis, especially for accurate O-glycosite assignment. Finally, eighteen N-glycosites and five O-glycosites with attached glycans were assigned unambiguously from heavily glycosylated gp120. These results indicate that our workflow can achieve improved performance for analysis of the N/O-glycosylation of a highly glycosylated protein containing numerous potential glycosites in one process. Knowledge of the glycosylation landscape of the Env glycoprotein will be useful for understanding of HIV-1 infection and development of vaccines and drugs.

Published

2021

30. Sequential Analysis of the N/O-Glycosylation of Heavily Glycosylated HIV-1 gp120 Using EThcD-sceHCD-MS/MS.

Author

Zhang, Yong, Zheng, Shanshan, Zhao, Wanjun, Mao, Yonghong, Cao, Wei, Zeng, Wenjuan, Liu, Yueqiu, Hu, Liqiang, Gong, Meng, Cheng, Jingqiu, Chen, Younan, and Yang, Hao

Subjects

SEQUENTIAL analysis, HIV, MASS spectrometry, HIV-1 glycoprotein 120, VIRAL envelopes

Abstract

Deciphering the glycosylation of the viral envelope (Env) glycoprotein is critical for evaluating viral escape from the host's immune response and developing vaccines and antiviral drugs. However, it is still challenging to precisely decode the site-specific glycosylation characteristics of the highly glycosylated Env proteins, although glycoproteomics have made significant advances in mass spectrometry techniques and data analysis tools. Here, we present a hybrid dissociation technique, EThcD-sceHCD, by combining electron transfer/higher-energy collisional dissociation (EThcD) and stepped collision energy/higher-energy collisional dissociation (sceHCD) into a sequential glycoproteomic workflow. Following this scheme, we characterized site-specific N/O-glycosylation of the human immunodeficiency virus type 1 (HIV-1) Env protein gp120. The EThcD-sceHCD method increased the number of identified glycopeptides when compared with EThcD, while producing more comprehensive fragment ions than sceHCD for site-specific glycosylation analysis, especially for accurate O-glycosite assignment. Finally, eighteen N-glycosites and five O-glycosites with attached glycans were assigned unambiguously from heavily glycosylated gp120. These results indicate that our workflow can achieve improved performance for analysis of the N/O-glycosylation of a highly glycosylated protein containing numerous potential glycosites in one process. Knowledge of the glycosylation landscape of the Env glycoprotein will be useful for understanding of HIV-1 infection and development of vaccines and drugs. [ABSTRACT FROM AUTHOR]

Published

2021

31. Revisiting the dengue epidemic of 2011 in Paraguay: molecular epidemiology of dengue virus in the Asuncion metropolitan area.

Author

Rojas, Alejandra, Moreira Soares, Adriana, Mendoza, Laura Patricia, Acosta, María Eugenia, Aria, Laura, Páez, Malvina, Herebia, Lilian, Vallejos, María Asunción, de Guillén, Yvalena, and Aquino, Victor Hugo

Subjects

DENGUE hemorrhagic fever, MOLECULAR epidemiology, DENGUE viruses, METROPOLITAN areas, DENGUE, VIRUS diseases

Abstract

Background: Dengue is one of the most important re-emerging viral diseases and the most common human arthropod-borne viral infection worldwide. Any of the four Dengue virus serotypes (DENV-1 to 4) can cause asymptomatic infections or clinical manifestations that range in severity from a mild, self-limited illness, to a severe disease characterized by a shock syndrome that can lead to death. Paraguay suffers periodic epidemic outbreaks of dengue since 1988 when the DENV-1 was introduced in the country. Epidemics caused by all four serotypes have been reported and the country. Although dengue is endemic in Paraguay, few studies have described the molecular epidemiology of DENV in the country, which is important to understand the local and global spread, as well as the evolution of this pathogen.Methods: This was a cross-sectional study of a convenience sample. Suspected dengue patients of any age were recruited from the Emergency Laboratory of the Central Hospital of the Institute of Social Welfare, Asuncion, Paraguay, from February to June of 2011. A DENV antigen test was used to confirm the infection. The protein E gene sequences of isolated viruses were sequenced for phylogenetic analysis.Results: Dengue was confirmed in 55.1% of the participants (n = 98/178). The most frequent clinical findings were fever, headache, and myalgia. Identity analyses of the protein E gene sequence of 56 viruses isolated showed the circulation of DENV-1 (n = 45) and DENV-2 (n = 11) in the Asuncion metropolitan area in 2011. Molecular epidemiology analyses suggest that DENV-1 was introduced into Paraguay from Argentina, while the DENV-2 from Brazil, replacing previous virus lineages.Conclusions: We have analyzed the molecular epidemiology of DENV-1 and DENV-2 isolated in Paraguay in 2011. We found strong evidence that DENV-1 was introduced into Paraguay from Argentina, while the DENV-2 from Brazil, replacing previous virus lineages. Molecular epidemiology studies are of great interest to analyze the dynamic of DENV spread, which are useful for early implementation of containment measures to reduce the risk of explosive epidemics caused by this virus. [ABSTRACT FROM AUTHOR]

Published

2021

32. Heterologous avian system for quantitative analysis of Syncytin-1 interaction with ASCT2 receptor.

Author

Štafl, Kryštof, Trávníček, Martin, Kučerová, Dana, Pecnová, Ľubomíra, Krchlíková, Veronika, Gáliková, Eliška, Stepanets, Volodymyr, Hejnar, Jiří, and Trejbalová, Kateřina

Subjects

MEMBRANE glycoproteins, CELL fusion, MUTANT proteins, MEMBRANE proteins, PROTEIN structure, VIRAL envelope proteins

Abstract

Background: Human Syncytin-1 is a placentally-expressed cell surface glycoprotein of retroviral origin. After interaction with ASCT2, its cellular receptor, Syncytin-1 triggers cell–cell fusion and formation of a multinuclear syncytiotrophoblast layer of the placenta. The ASCT2 receptor is a multi-spanning membrane protein containing a protruding extracellular part called region C, which has been suggested to be a retrovirus docking site. Precise identification of the interaction site between ASCT2 and Syncytin-1 is challenging due to the complex structure of ASCT2 protein and the background of endogenous ASCT2 gene in the mammalian genome. Chicken cells lack the endogenous background and, therefore, can be used to set up a system with surrogate expression of the ASCT2 receptor. Results: We have established a retroviral heterologous chicken system for rapid and reliable assessment of ectopic human ASCT2 protein expression. Our dual-fluorescence system proved successful for large-scale screening of mutant ASCT2 proteins. Using this system, we demonstrated that progressive deletion of region C substantially decreased the amount of ASCT2 protein. In addition, we implemented quantitative assays to determine the interaction of ASCT2 with Syncytin-1 at multiple levels, which included binding of the soluble form of Syncytin-1 to ASCT2 on the cell surface and a luciferase-based assay to evaluate cell–cell fusions that were triggered by Syncytin-1. Finally, we restored the envelope function of Syncytin-1 in a replication-competent retrovirus and assessed the infection of chicken cells expressing human ASCT2 by chimeric Syncytin-1-enveloped virus. The results of the quantitative assays showed that deletion of the protruding region C did not abolish the interaction of ASCT2 with Syncytin-1. Conclusions: We present here a heterologous chicken system for effective assessment of the expression of transmembrane ASCT2 protein and its interaction with Syncytin-1. The system profits from the absence of endogenous ASCT2 background and implements the quantitative assays to determine the ASCT2-Syncytin-1 interaction at several levels. Using this system, we demonstrated that the protruding region C was essential for ASCT2 protein expression, but surprisingly, not for the interaction with Syncytin-1 glycoprotein. [ABSTRACT FROM AUTHOR]

Published

2021

33. C-terminal Motifs of HIV-1 gp41 as Possible Determinants of Viral Pathogenesis.

Author

Narváez-Pardo, Jorge Andrés, Villarreal Camacho, José-Luis, Varela Prieto, Lourdes Luz, and Cervantes-Acosta, Guillermo

Subjects

*HIV, *IMMUNOLOGICAL deficiency syndromes, *AIDS, *GLYCOPROTEINS, *MICROBIAL virulence

Abstract

human immunodeficiency virus type 1 (HIV-1) is the etiological agent of acquired immunodeficiency syndrome (aids), a pandemic with high economic and social costs. The envelope glycoprotein (env) of the virus mediates the infectious process by binding to and entering the host cell, one of the main target components of studies since its discovery. Its endodomain or C-terminal tail (CTT) participates in late replicative cycle processes, such as intracellular trafficking, activation, and cell death, which occurs because it interacts with multiple cellular factors through motifs or signal sequences present throughout its structure. Although these interactions have not been fully understood at specific levels, studies over more than three decades leave no doubt that this domain plays a fundamental role in the biology of the virus and probably the development of the disease. This review describes the studies carried out to date that demonstrate the importance of the CTT, focusing on the motifs responsible for its interactions and its possible roles in the pathogenicity of the infection. [ABSTRACT FROM AUTHOR]

Published

2021

34. BIOINFORMATIC ANALYSIS OF ENVELOPE GLYCOPROTEIN E OF DUCK ENTERITIS VIRUS (DEV).

Author

Bindu, S. and Manikandan, R.

Subjects

GLYCOPROTEIN analysis, ENTERITIS, PROTEIN structure, EPITOPES, DUCK plague, PREVENTIVE medicine

Abstract

Duck viral enteritis (DVE) was caused by members of the genus Mardivirus of the subfamily Alphaherpesvirinae of the family Herpeviridae. This virus represents a huge problem on the economy of duck farming due to increased mortality rate. Vaccination against DVE is a crucial element in the control of the disease. The major target antigen is envelope glycoprotein, which is involved in cell infection, viral entry and virus maturation or escape. The aim of this study is to provide information regarding DEV-glycoprotein E using computational approaches to predict epitopes essential in stimulating the immune system. A total of 15 available virulent strains of DEV-gE sequences were retrieved from NCBI. Human MHC class-I alleles were used to predict CTL epitopes using the IEDB program. Several other online bioinformatic tools were used to predict antigen epitopes, identify potential N-and O-glycosylation sites, secondary and three-dimensional structures of the gE protein. Hence, this in silico approach aids in getting deeper knowledge and further insights into the functional study of DEV-gE protein. [ABSTRACT FROM AUTHOR]

Published

2021

35. HIV-1 Specific Antibody Titers and Neutralization among Chronically Infected Patients on Long-Term Suppressive Antiretroviral Therapy (ART): A Cross-Sectional Study

Author

Gach, Johannes S, Achenbach, Chad J, Chromikova, Veronika, Berzins, Baiba, Lambert, Nina, Landucci, Gary, Forthal, Donald N, Katlama, Christine, Jung, Barbara H, Murphy, Robert L, and Paxton, William A

Subjects

immunodeficiency-virus type-1, proximal external region, b-cell responses, potent neutralization, envelope glycoprotein, disease progression, elite suppressors, immune-responses, vaccine target, c infection

Published

2014

36. Passive immunization of macaques with polyclonal anti-SHIV IgG against a heterologous tier 2 SHIV: outcome depends on IgG dose

Author

Sholukh, Anton M, Byrareddy, Siddappa N, Shanmuganathan, Vivekanandan, Hemashettar, Girish, Lakhashe, Samir K, Rasmussen, Robert A, Watkins, Jennifer D, Vyas, Hemant K, Thorat, Swati, Brandstoetter, Tania, Mukhtar, Muhammad M, Yoon, John K, Novembre, Francis J, Villinger, Francois, Landucci, Gary, Forthal, Donald N, Ratcliffe, Sarah, Tuero, Iskra, Robert-Guroff, Marjorie, Polonis, Victoria R, Bilska, Miroslawa, Montefiori, David C, Johnson, Welkin E, Ertl, Hildegund C, and Ruprecht, Ruth M

Subjects

Macaque model, Heterologous R5 SHIV clade C challenge, SHIVIG, Passive immunization, Enhancement of infection, Non-human primate modelhiv-1/siv chimeric virus, clade-c infection, neutralizing antibodies, hiv-infection, rhesus macaques, nonneutralizing antibodies, replication-competent, envelope glycoprotein, mediated enhancement, vaccine development

Published

2014

37. A Human Antibody to the CD4 Binding Site of gp120 Capable of Highly Potent but Sporadic Cross Clade Neutralization of Primary HIV-1

Author

Gach, Johannes S, Quendler, Heribert, Tong, Tommy, Narayan, Kristin M, Du, Sean X, Whalen, Robert G, Binley, James M, Forthal, Donald N, Poignard, Pascal, Zwick, Michael B, and Pöhlmann, Stefan

Subjects

Immunodeficiency-Virus Type-1, Human Monoclonal-Antibodies, Proximal External Region, Immunoglobulin G1 B12, Envelope Glycoprotein, Vaccine Design, Particles Bearing, Structural Basis, Cell Responses, Recognition

Published

2013

38. Structural Domains of the Herpes Simplex Virus 1 gD Protein That Restrict Human Immunodeficiency Virus Particle Infectivity.

Author

Arachchige, Sachith Polpitiya, Henke, Wyatt, Kalamvoki, Maria, and Stephens, Edward B.

Subjects

*CHIMERIC proteins, *MUTANT proteins, *HIV, *HERPES simplex virus, *PROTEINS

Abstract

Previously, we showed that the presence of the herpes simplex virus 1 (HSV-1) gD glycoprotein but not gB potently restricted HIV-1 particle infectivity. This restriction was characterized by incorporation of HSV-1 gD and the exclusion of HIV-1 gp120/gp41 from budding virus particles. To determine the structural domains involved in gD restriction of HIV-1, a series of deletion mutants and chimeric proteins involving combinations between gD and the nonrestrictive gB were generated. Our results show that deletion of the cytoplasmic tail domain (CTD) of gD or replacement of the transmembrane domain (TMD) with the TMD from gB slightly reduced restriction activity. However, replacement of the gD CTD with that of gB resulted in lower cell surface expression, significantly less incorporation into HIV-1 particles, and inefficient restriction of the release of infectious HIV-1. Analysis of gB/gD chimeric proteins revealed that removal of the gB CTD or replacement with gD CTD resulted in enhanced surface expression and an increase in restriction activity. Finally, we show that expression of gD without other HSV-1 proteins resulted in gD fractionation into detergent-resistant membranes (DRM) and that gD colocalized with the raft marker GM1, which may partially explain its incorporation into budding virus particles. Taken together, our results suggest that expression of gD at the cell surface is likely a major factor, but other intrinsic properties are also involved in the gD-mediated restriction of HIV-1 particle infectivity. [ABSTRACT FROM AUTHOR]

Published

2021

39. Escape of HIV-1 Envelope Glycoprotein from Restriction of Infection by IFITM3.

Author

Drouin, Aurélie, Migraine, Julie, Durand, Marie-Alice, Moreau, Alain, Burlaud-Gaillard, Julien, Beretta, Maxime, Roingeard, Philippe, Bouvin-Pley, Mélanie, and Braibant, Martine

Subjects

*VIRAL envelope proteins, *HIV, *MEMBRANE proteins, *GOLGI apparatus, *VIRAL proteins, *VIRAL antibodies

Abstract

Interferon-induced transmembrane protein 3 (IFITM3) is a cellular factor that reduces HIV-1 infectivity by an incompletely understood mechanism. We show here that viruses differing only in the envelope glycoprotein (Env) expressed on their surface have different sensitivities to IFITM3. Measurements of the sensitivity of viruses to neutralizing antibodies showed that IFITM3 increased the sensitivity of IFITM3-sensitive viruses to PG16, which targets the V1V2 loop, suggesting that IFITM3 promotes exposure of the PG16 epitope of IFITM3-sensitive viruses. Exchanges of V1V2 loops between the Env proteins of sensitive and resistant viruses revealed that V1V2 and V3 act together to modulate viral sensitivity to IFITM3. Coimmunoprecipitation experiments showed that IFITM3 interacted with both the precursor (gp160) and cleaved (gp120) forms of Env from IFITM3-sensitive viruses but with only the precursor (gp160) form of Env from IFITM3-resistant viruses. This finding suggests that the interaction between the Env protein of resistant viruses and IFITM3 was inhibited once Env had been processed in the Golgi apparatus. This hypothesis was supported by immunofluorescence experiments, which showed a strong colocalization of IFITM3 with Env of sensitive viruses, but only weak colocalization with Env of resistant viruses on the plasma membrane of virus-producing cells. Together, these results indicate that IFITM3 interacts with Env, inducing conformational changes that may decrease viral infectivity. This antiviral action is, nevertheless, modulated by the nature of Env, in particular its V1V2 and V3 loops, which after maturation may be able to escape this interaction. IMPORTANCE Interferon-induced transmembrane protein 3 (IFITM3) is a cellular factor that reduces HIV-1 infectivity by an incompletely understood mechanism. This study aimed to elucidate the role of the HIV-1 envelope glycoprotein (Env) in determining viral susceptibility to IFITM3. We found that viruses differing only in Env expressed on their surface had different sensitivities to IFITM3. By comparing the Env proteins of viruses that were highly sensitive or resistant to IFITM3, we obtained new insight in the mechanisms by which HIV-1 escapes this protein. We showed that IFITM3 interacts with the Env protein of sensitive viruses in virion-producing cells, inducing conformational changes that may decrease viral infectivity. However, this antiviral action is modulated by the nature of Env, particularly the V1V2 and V3 loops, which may be able to escape this interaction after processing in the Golgi apparatus. [ABSTRACT FROM AUTHOR]

Published

2021

40. LCMV Glycosylation Modulates Viral Fitness and Cell Tropism

Author

Bonhomme, Cyrille J, Knopp, Kristeene A, Bederka, Lydia H, Angelini, Megan M, Buchmeier, Michael J, and Fujinami, Robert Shin

Subjects

Lymphocytic Choriomeningitis Virus, N-Linked Glycans, Membrane-Fusion, Envelope Glycoprotein, Hemorrhagic-Fever, Receptor-Binding, Hiv-1 Gp120, Lassa-Virus, West-Africa, Arenavirus

Published

2013

41. Single Amino Acids G196 and R198 in hr1 of Subgroup K Avian Leukosis Virus Glycoprotein Are Critical for Tva Receptor Binding

Author

Jian Chen, Jinqun Li, Lizhen Li, Peng Liu, Yong Xiang, and Weisheng Cao

Subjects

retrovirus, recombinant viruses, fluorescence-activated cell sorting, avian leukosis viruses, envelope glycoprotein, Microbiology, QR1-502

Abstract

Avian leukosis viruses (ALVs), a type of retrovirus responsible for various tumor diseases in chickens, are divided into 11 subgroups: ALV-A to ALV-K. After the envelope glycoproteins of ALV interact with the cellular receptor to initiate viral invasion, alterations in a few amino acids of the viral glycoproteins or cell receptors may trigger changes in their conformation and binding affinity. To identify the functional determinants of the ALV-K envelope protein that binds to Tva (a recently identified cellular receptor of ALV-K), using the strategy of continuous, segment-by-segment substitution of the gp85-encoded surface glycoprotein (SU) of ALV-K GDFX0602 with ALV-E ev-1 (using Tvb as the receptor), a series of chimeric soluble gp85 proteins were expressed for co-immunoprecipitation (co-IP) analysis and a series of recombinant viruses with replication-competent avian retrovirus vectors containing Bryan polymerase (RCASBP) as their skeleton were created for transfecting to DF-1 cells and titer determination. The co-IP analysis, fluorescence-activated cell sorting, and virus titer measurements revealed that the substitution of residues 194–198, 206–216 of hr1, residues 251–256 between hr1 and hr2, and residues 269–280 of hr2 were identified to reduce the binding of gp85 to Tva. The substitution of residues 194–221 in hr1 nullified the infectiveness of these viruses, similar to the effect of single amino acid mutations in K251E and L252I located between hr1 and hr2; continuous amino acid mutations in hr2 could not produce the same effect despite reducing their infectiveness. Finally, single amino acid mutations G196A and R198H nearly abolished the binding of gp85 to Tva and nullified the infectiveness of these viruses to DF-1. This study paves the way for exploring the molecular mechanisms of the binding of Tva to ALV-K SU.

Published

2020

42. In vitro inhibitory effect of maraviroc on the association of the simian immunodeficiency virus envelope glycoprotein with CCR5.

Author

Giraudy, Ignacio, Ovejero, César A., Affranchino, José L., and González, Silvia A.

Abstract

Asian macaques infected with simian immunodeficiency viruses (SIVs) isolated from African non-human primates develop a disease similar to human AIDS. SIV enters its target cells by binding to CD4 and a coreceptor, typically CCR5. Maraviroc is an entry inhibitor of human immunodeficiency virus type 1 (HIV-1) that prevents the interaction between CCR5 and the surface subunit gp120 of the viral envelope glycoprotein (Env). Thus far, the activity of maraviroc on SIV entry has been poorly studied. Here, we determined in vitro pharmacological parameters of the effect of maraviroc on the SIV Env association with CCR5. Cell-to-cell fusion inhibition assays were used to compare the susceptibility to maraviroc of the SIVsmmPBj Env-CCR5 interaction with that of HIV-1BaL Env. Analysis of dose–response curves and determination of IC50 values demonstrate that increasing concentrations of maraviroc inhibit the membrane fusion activity of SIVsmmPBj Env in a manner and to an extent similar to that of HIV-1BaL Env. [ABSTRACT FROM AUTHOR]

Published

2021

43. Single Amino Acids G196 and R198 in hr1 of Subgroup K Avian Leukosis Virus Glycoprotein Are Critical for Tva Receptor Binding.

Author

Chen, Jian, Li, Jinqun, Li, Lizhen, Liu, Peng, Xiang, Yong, and Cao, Weisheng

Subjects

AVIAN leukosis, AMINO acids, CHICKEN diseases, RECOMBINANT viruses, CELL receptors, VIRAL envelope proteins, VIRAL nonstructural proteins

Abstract

Avian leukosis viruses (ALVs), a type of retrovirus responsible for various tumor diseases in chickens, are divided into 11 subgroups: ALV-A to ALV-K. After the envelope glycoproteins of ALV interact with the cellular receptor to initiate viral invasion, alterations in a few amino acids of the viral glycoproteins or cell receptors may trigger changes in their conformation and binding affinity. To identify the functional determinants of the ALV-K envelope protein that binds to Tva (a recently identified cellular receptor of ALV-K), using the strategy of continuous, segment-by-segment substitution of the gp85-encoded surface glycoprotein (SU) of ALV-K GDFX0602 with ALV-E ev-1 (using Tvb as the receptor), a series of chimeric soluble gp85 proteins were expressed for co-immunoprecipitation (co-IP) analysis and a series of recombinant viruses with replication-competent avian retrovirus vectors containing Bryan polymerase (RCASBP) as their skeleton were created for transfecting to DF-1 cells and titer determination. The co-IP analysis, fluorescence-activated cell sorting, and virus titer measurements revealed that the substitution of residues 194–198, 206–216 of hr1, residues 251–256 between hr1 and hr2, and residues 269–280 of hr2 were identified to reduce the binding of gp85 to Tva. The substitution of residues 194–221 in hr1 nullified the infectiveness of these viruses, similar to the effect of single amino acid mutations in K251E and L252I located between hr1 and hr2; continuous amino acid mutations in hr2 could not produce the same effect despite reducing their infectiveness. Finally, single amino acid mutations G196A and R198H nearly abolished the binding of gp85 to Tva and nullified the infectiveness of these viruses to DF-1. This study paves the way for exploring the molecular mechanisms of the binding of Tva to ALV-K SU. [ABSTRACT FROM AUTHOR]

Published

2020

44. Envelope proteins as antiviral drug target.

Author

Verma, Jyoti, Subbarao, Naidu, and Rajala, Maitreyi S.

Subjects

*VIRAL envelope proteins, *CELL receptors, *ANTIVIRAL agents, *PROTEIN drugs, *CHIMERIC proteins

Abstract

Attachment of a virus with a specific receptor on the cell surface is the first and foremost step in virus infection. In case of enveloped viruses, their interaction with the host cell receptor is mediated by viral encoded glycoproteins on its envelope, a host derived lipid bilayer. Since, virus entry is a multistep process, after receptor recognition, envelope proteins mediate internalisation of virus particles into the host cell. Envelope glycoproteins are the first proteins that the host immune system encounters upon infection. Thus, envelope proteins are important drug target with multiple strategies to inhibit entry of the virus into the host. Currently, there are very few drugs that function as envelope protein inhibitors which are approved for human use. Here, we reviewed different classes of envelope proteins of various viruses and emphasised the use of small molecules to inhibit fusion of envelope proteins. Based on the available information in the literature, envelope proteins can be important drug targets and small molecules inhibitors can serve as potential antiviral drugs to block viral infection at an initial stage. [ABSTRACT FROM AUTHOR]

Published

2020

45. Probing Vulnerability of the gp41 C-Terminal Heptad Repeat as Target for Miniprotein HIV Inhibitors.

Author

Jurado, Samuel, Moog, Christiane, Cano-Muñoz, Mario, Schmidt, Sylvie, Laumond, Géraldine, Ruocco, Valentina, Standoli, Sara, Polo-Megías, Daniel, Conejero-Lara, Francisco, and Morel, Bertrand

Subjects

*HIV, *MEMBRANE fusion, *PEPTIDES

Abstract

One of the therapeutic strategies in HIV neutralization is blocking membrane fusion. In this process, tight interaction between the N-terminal and C-terminal heptad-repeat (NHR and CHR) regions of gp41 is essential to promote membranes apposition and merging. We have previously developed single-chain proteins (named covNHR) that accurately mimic the complete gp41 NHR region in its trimeric conformation. They tightly bind CHR-derived peptides and show a potent and broad HIV inhibitory activity in vitro. However, the extremely high binding affinity (sub-picomolar) is not in consonance with their inhibitory activity (nanomolar), likely due to partial or temporal accessibility of their target in the virus. Here, we have designed and characterized two single-chain covNHR miniproteins each encompassing one of the two halves of the NHR region and containing two of the four sub-pockets of the NHR crevice. The two miniproteins fold as trimeric helical bundles as expected but while the C-terminal covNHR (covNHR-C) miniprotein is highly stable, the N-terminal counterpart (covNHR-N) shows only marginal stability that could be improved by engineering an internal disulfide bond. Both miniproteins bind their respective complementary CHR peptides with moderate (micromolar) affinity. Moreover, the covNHR-N miniproteins can access their target in the context of trimeric native envelope proteins and show significant inhibitory activity for several HIV pseudoviruses. In contrast, covNHR-C cannot bind its target sequence and neither inhibits HIV, indicating a higher vulnerability of C-terminal part of CHR. These results may guide the development of novel HIV inhibitors targeting the gp41 CHR region. Unlabelled Image • Design, production and characterization of mini protein HIV inhibitors • Engineered disulfide bond increases conformational stability. • Protein stabilization enhances inhibitory capacity. • NHR coiled-coil of gp41 is composed of two subdomains with different conformational stability. • Vulnerability of the gp41 CHR region as inhibition target. [ABSTRACT FROM AUTHOR]

Published

2020

46. Bioorthogonal click labeling of an amber-free HIV-1 provirus for in-virus single molecule imaging.

Author

Ao, Yuanyun, Grover, Jonathan R., Gifford, Levi, Han, Yang, Zhong, Guohua, Katte, Revansiddha, Li, Wenwei, Bhattacharjee, Rajanya, Zhang, Baoshan, Sauve, Stephanie, Qin, Wenyi, Ghimire, Dibya, Haque, Md Anzarul, Arthos, James, Moradi, Mahmoud, Mothes, Walther, Lemke, Edward A., Kwong, Peter D., Melikyan, Gregory B., and Lu, Maolin

Subjects

*SINGLE molecules, *FLUORESCENCE resonance energy transfer, *SPIN labels, *HIV, *GENETIC code, *STRUCTURAL dynamics, *CLICK chemistry

Abstract

Structural dynamics of human immunodeficiency virus 1 (HIV-1) envelope (Env) glycoprotein mediate cell entry and facilitate immune evasion. Single-molecule FRET using peptides for Env labeling revealed structural dynamics of Env, but peptide use risks potential effects on structural integrity/dynamics. While incorporating noncanonical amino acids (ncAAs) into Env by amber stop-codon suppression, followed by click chemistry, offers a minimally invasive approach, this has proved to be technically challenging for HIV-1. Here, we develope an intact amber-free HIV-1 system that overcomes hurdles of preexisting viral amber codons. We achieved dual-ncAA incorporation into Env on amber-free virions, enabling single-molecule Förster resonance energy transfer (smFRET) studies of click-labeled Env that validated the previous peptide-based labeling approaches by confirming the intrinsic propensity of Env to dynamically sample multiple conformational states. Amber-free click-labeled Env also enabled real-time tracking of single virion internalization and trafficking in cells. Our system thus permits in-virus bioorthogonal labeling of proteins, compatible with studies of virus entry, trafficking, and egress from cells. [Display omitted] • We constructed an intact amber-free HIV-1 provirus for in-virus click labeling • System enables dual-ncAA insertion for biorthogonal click labeling on intact virions • smFRET of Env reinforced its structural dynamics observed via conventional labeling • Live cell imaging tracked amber-free click-labeled Env virions in cells Ao et al. developed an intact amber-free HIV-1 system that enables minimally invasive Env tagging by genetic code expansion and in-virus bioorthogonal click labeling for single-molecule FRET structural dynamics and advanced microscopy studies of virus entry, trafficking, and egress in living cells. [ABSTRACT FROM AUTHOR]

Published

2024

47. Incidence of avian leukosis virus infection in commercial broiler chicken

Author

Chitradevi, S., Raja, A., and Sukumar, K.

Published

2017

48. Reconstructing HIV

Author

Goodsell, David S. and Goodsell, David S.

Published

2016

49. Oncolytic herpes simplex virus tumor targeting and neutralization escape by engineering viral envelope glycoproteins

Author

Xiao-Qin Liu, Hong-Yi Xin, Yan-Ning Lyu, Zhao-Wu Ma, Xiao-Chun Peng, Ying Xiang, Ying-Ying Wang, Zi-Jun Wu, Jun-Ting Cheng, Jia-Fu Ji, Ji-Xin Zhong, Bo-Xu Ren, Xian-Wang Wang, and Hong-Wu Xin

Subjects

oncolytic virotherapy, herpes simplex virus, envelope glycoprotein, tumor targeting, immune escape, neutralization antibody, Therapeutics. Pharmacology, RM1-950

Abstract

Oncolytic herpes simplex viruses (oHSVs) have been approved for clinical usage and become more and more popular for tumor virotherapy. However, there are still many issues for the oHSVs used in clinics and clinical trials. The main issues are the limited anti-tumor effects, intratumor injection, and some side effects. To overcome such challenges, here we review the genetic engineering of the envelope glycoproteins for oHSVs to target tumors specifically, and at the same time we summarize the many neutralization antibodies against the envelope glycoproteins and align the neutralization epitopes with functional domains of the respective glycoproteins for future identification of new functions of the glycoproteins and future engineering of the epitopes to escape from host neutralization.

Published

2018

50. Screening of primary gp120 immunogens to formulate the next generation polyvalent DNA prime-protein boost HIV-1 vaccines

Author

Shixia Wang, Te-hui Chou, Anthony Hackett, Veronica Efros, Yan Wang, Dong Han, Aaron Wallace, Yuxin Chen, Guangnan Hu, Shuying Liu, Paul Clapham, James Arthos, David Montefiori, and Shan Lu

Subjects

antibody, dna vaccine, envelope glycoprotein, heterologous prime – boost, hiv-1, polyvalent, protein vaccine, vaccine, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Our previous preclinical studies and a Phase I clinical trial DP6-001 have indicated that a polyvalent Env formulation was able to elicit broadly reactive antibody responses including low titer neutralizing antibody responses against viral isolates of subtypes A, B, C and AE. In the current report, a panel of 62 gp120 immunogens were screened in a rabbit model to identify gp120 immunogens that can elicit improved binding and neutralizing antibody responses and some of them can be included in the next polyvalent formulation. Only about 19% of gp120 immunogens in this panel were able to elicit neutralizing antibodies against greater than 50% of the viruses included in a high throughput PhenoSense neutralization assay when these immuongens were tested as a DNA prime followed by a fixed 5-valent gp120 protein vaccine boost. The new polyvalent formulation, using five gp120 immunogens selected from this subgroup, elicited improved quality of antibody responses in rabbits than the previous DP6-001 formulation. More significantly, this new polyvalent formulation elicited higher antibody responses against a panel of gp70V1/V2 antigens expressing V1/V2 sequences from diverse subtypes. Bioinformatics analysis supports the design of a 4-valent or 5-valent formulation using gp120 immunogens from this screening study to achieve a broad coverage against 16 HIV-1 subtypes.

Published

2017