Charles D. Murin scite author profile

A substantial fraction of broadly neutralizing antibodies (bnAbs) in certain HIV-infected donors recognizes glycan-dependent epitopes on HIV-1 gp120. Here, we elucidate how bnAb PGT 135 recognizes its Asn332 glycan-dependent epitope from its crystal structure with gp120, CD4 and Fab 17b at 3.1 Å resolution. PGT 135 interacts with glycans at Asn332, Asn392 and Asn386, using long CDR loops H1 and H3 to penetrate the glycan shield to access the gp120 protein surface. Electron microscopy reveals PGT 135 can accommodate the conformational and chemical diversity of gp120 glycans by altering its angle of engagement. The combined structural studies of PGT 135, PGT 128 and 2G12 show this Asn332-dependent epitope is highly accessible and much more extensive than initially appreciated, allowing for multiple binding modes and varied angles of approach, thereby representing a supersite of vulnerability for antibody neutralization.

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Asymmetric recognition of the HIV-1 trimer by broadly neutralizing antibody PG9

Julien

Lee

Cupo

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

232

303

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PG9 is the founder member of an expanding family of glycandependent human antibodies that preferentially bind the HIV (HIV-1) envelope (Env) glycoprotein (gp) trimer and broadly neutralize the virus. Here, we show that a soluble SOSIP.664 gp140 trimer constructed from the Clade A BG505 sequence binds PG9 with high affinity (∼11 nM), enabling structural and biophysical characterizations of the PG9:Env trimer complex. The BG505 SOSIP.664 gp140 trimer is remarkably stable as assessed by electron microscopy (EM) and differential scanning calorimetry. EM, small angle X-ray scattering, size exclusion chromatography with inline multiangle light scattering and isothermal titration calorimetry all indicate that only a single PG9 fragment antigen-binding (Fab) binds to the Env trimer. An ∼18 Å EM reconstruction demonstrates that PG9 recognizes the trimer asymmetrically at its apex via contact with two of the three gp120 protomers, possibly contributing to its reported preference for a quaternary epitope. Molecular modeling and isothermal titration calorimetry binding experiments with an engineered PG9 mutant suggest that, in addition to the N156 and N160 glycan interactions observed in crystal structures of PG9 with a scaffolded V1/V2 domain, PG9 makes secondary interactions with an N160 glycan from an adjacent gp120 protomer in the antibody-trimer complex. Together, these structural and biophysical findings should facilitate the design of HIV-1 immunogens that possess all elements of the quaternary PG9 epitope required to induce broadly neutralizing antibodies against this region. R ational immunogen design is an increasingly promising approach for development of an effective human immunodeficiency virus-1 (HIV-1) vaccine. The recent discovery of many new and potent broadly neutralizing antibodies (bnAbs) has helped define conserved sites of vulnerability on the HIV-1 envelope (Env) glycoprotein (gp) complex that mediates viral entry into cells (refs. 1-6 and reviewed in refs. 7-11). Passive immunization studies show that sterilizing immunity can be achieved if sufficient amounts of bnAbs are present before virus challenge in macaques (12-16). Hence, intensive efforts are ongoing to design immunogens capable of re-eliciting these types of bnAbs by vaccination.The major difficulty in mounting an effective antibody response against HIV-1 resides in the multiple evasion strategies that have evolved in Env. An error-prone reverse transcriptase drives a high degree of Env sequence diversity (17-19). The few conserved regions of Env are shielded by an extensive array of glycans (20-24) and are often occluded by more variable structures, such as the V1-V5 loops. However, because some HIV-1-infected individuals can develop bnAbs over the course of infection, these various evasion strategies are not insurmountable (1,(25)(26)(27). Although bnAbs do not seem to confer significant protection against disease progression in infected individuals (28, 29), their induction through vaccination might prevent the acquisition of infection. ...

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Isolation of potent neutralizing antibodies from a survivor of the 2014 Ebola virus outbreak

Bornholdt

Turner

Murin

et al. 2016

Science

209

298

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Antibodies targeting the Ebola virus surface glycoprotein (EBOV GP) are implicated in protection against lethal disease, but the characteristics of the human antibody response to EBOV GP remain poorly understood. Here we isolated and characterized 349 GP-specific monoclonal antibodies (mAbs) from the peripheral B cells of a convalescent donor who survived the 2014 EBOV Zaire outbreak. Remarkably, 77% of the mAbs neutralize live EBOV and several mAbs exhibit unprecedented potency. Structures of selected mAbs in complex with GP reveal a site of vulnerability located in the GP stalk region proximal to the viral membrane. Neutralizing antibodies (NAbs) targeting this site show potent therapeutic efficacy against lethal EBOV challenge in mice. The results provide a framework for the design of new EBOV vaccine candidates and immunotherapies.

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Structures of protective antibodies reveal sites of vulnerability on Ebola virus

Murin¹,

Fusco²,

Bornholdt³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

174

251

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Ebola virus (EBOV) and related filoviruses cause severe hemorrhagic fever, with up to 90% lethality, and no treatments are approved for human use. Multiple recent outbreaks of EBOV and the likelihood of future human exposure highlight the need for pre-and postexposure treatments. Monoclonal antibody (mAb) cocktails are particularly attractive candidates due to their proven postexposure efficacy in nonhuman primate models of EBOV infection. Two candidate cocktails, MB-003 and ZMAb, have been extensively evaluated in both in vitro and in vivo studies. Recently, these two therapeutics have been combined into a new cocktail named ZMapp, which showed increased efficacy and has been given compassionately to some human patients. Epitope information and mechanism of action are currently unknown for most of the component mAbs. Here we provide single-particle EM reconstructions of every mAb in the ZMapp cocktail, as well as additional antibodies from MB-003 and ZMAb. Our results illuminate key and recurring sites of vulnerability on the EBOV glycoprotein and provide a structural rationale for the efficacy of ZMapp. Interestingly, two of its components recognize overlapping epitopes and compete with each other for binding. Going forward, this work now provides a basis for strategic selection of next-generation antibody cocktails against Ebola and related viruses and a model for predicting the impact of ZMapp on potential escape mutations in ongoing or future Ebola outbreaks.

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Antibodies from a Human Survivor Define Sites of Vulnerability for Broad Protection against Ebolaviruses

Wec

Herbert

Murin

et al. 2017

Cell

156

250

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SUMMARY Experimental monoclonal antibody (mAb) therapies have shown promise for treatment of lethal Ebola virus (EBOV) infections, but their species-specific recognition of the viral glycoprotein (GP) has limited their use against other divergent ebolaviruses associated with human disease. Here, we mined the human immune response to natural EBOV infection and identified mAbs with exceptionally potent pan-ebolavirus neutralizing activity and protective efficacy against three virulent ebolaviruses. These mAbs recognize an inter-protomer epitope in the GP fusion loop, a critical and conserved element of the viral membrane fusion machinery, and neutralize viral entry by targeting a proteolytically primed, fusion-competent GP intermediate (GPCL) generated in host cell endosomes. Only a few somatic hypermutations are required for broad antiviral activity, and germline-approximating variants display enhanced GPCL recognition, suggesting that such antibodies could be elicited more efficiently with suitably optimized GP immunogens. Our findings inform the development of both broadly effective immunotherapeutics and vaccines against filoviruses.

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Charles D. Murin

Supersite of immune vulnerability on the glycosylated face of HIV-1 envelope glycoprotein gp120

Asymmetric recognition of the HIV-1 trimer by broadly neutralizing antibody PG9

Isolation of potent neutralizing antibodies from a survivor of the 2014 Ebola virus outbreak

Structures of protective antibodies reveal sites of vulnerability on Ebola virus

Antibodies from a Human Survivor Define Sites of Vulnerability for Broad Protection against Ebolaviruses

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