Your search keyword '"soluble trimer"' showing total 4 results

1. Design of soluble HIV-1 envelope trimers free of covalent gp120-gp41 bonds with prevalent native-like conformation.

Author

Zhang, Peng, Gorman, Jason, Tsybovsky, Yaroslav, Lu, Maolin, Liu, Qingbo, Gopan, Vinay, Singh, Mamta, Lin, Yin, Miao, Huiyi, Seo, Yuna, Kwon, Alice, Olia, Adam S., Chuang, Gwo-Yu, Geng, Hui, Lai, Yen-Ting, Zhou, Tongqing, Mascola, John R., Mothes, Walther, Kwong, Peter D., and Lusso, Paolo

Abstract

Soluble HIV-1 envelope (Env) trimers may serve as effective vaccine immunogens. The widely utilized SOSIP trimers have been paramount for structural studies, but the disulfide bond they feature between gp120 and gp41 constrains intersubunit mobility and may alter antigenicity. Here, we report an alternative strategy to generate stabilized soluble Env trimers free of covalent gp120-gp41 bonds. Stabilization was achieved by introducing an intrasubunit disulfide bond between the inner and outer domains of gp120, defined as interdomain lock (IDL). Correctly folded IDL trimers displaying a native-like antigenic profile were produced for HIV-1 Envs of different clades. Importantly, the IDL design abrogated CD4 binding while not affecting recognition by potent neutralizing antibodies to the CD4-binding site. By cryoelectron microscopy, IDL trimers were shown to adopt a closed prefusion configuration, while single-molecule fluorescence resonance energy transfer documented a high prevalence of native-like conformation. Thus, IDL trimers may be promising candidates as vaccine immunogens. [Display omitted] • Introduction of an interdomain disulfide bond (IDL) stabilizes soluble HIV-1 envelope trimers • IDL trimers do not possess covalent bonds between gp120 and gp41 (such as the SOS) • IDL trimers from different HIV-1 clades display a native-like structure and antigenic profile • IDL trimers bind with high affinity to broad and potent neutralizing antibodies but not to CD4 Stabilized soluble HIV-1 envelope trimers may be effective vaccine components. Zhang et al. design stabilized soluble trimers without covalent bonds between gp120 and gp41 such as the SOS bridge, a constraint that may alter structure and antigenicity. Given their native-like conformation and lack of CD4 binding, these trimers may have vaccine immunogen potential. [ABSTRACT FROM AUTHOR]

Published

2024

2. Structure-Guided Redesign Improves NFL HIV Env Trimer Integrity and Identifies an Inter-Protomer Disulfide Permitting Post-Expression Cleavage

Author

Lifei Yang, Shailendra Kumar Sharma, Christopher Cottrell, Javier Guenaga, Karen Tran, Richard Wilson, Anna-Janina Behrens, Max Crispin, Natalia de Val, and Richard T. Wyatt

Subjects

HIV-1 Env, soluble trimer, vaccines, antigens, stability, antigenicity, Immunologic diseases. Allergy, RC581-607

Abstract

Soluble HIV-1 envelope glycoprotein (Env) trimers are under active investigation as vaccine candidates in relevant pre-clinical models. Like SOSIPs, the cleavage-independent native flexibly linked (NFL) trimers are faithful mimics of the Env spike. Here, we analyzed multiple new designs to explore alternative modifications, informing tertiary interactions, while maintaining NFL trimer homogeneity and integrity. Accordingly, we performed a proline (P) substitution screen in the gp41 heptad repeat 1 region, identifying other trimer-enhancing Ps, including L555P. This P improved trimer integrity compared to I559P in selected properties. Next, we screened 15 structure-guided potential cysteine pairs in gp140 and found that A501C-L663C (“CC2”) forms an inter-protomer disulfide bond that demonstrably increased NFL trimer thermostability. We combined these two approaches with trimer-derived substitutions, coupled with glycine substitutions at helix-to-coil transitions, developed by our group. To increase the exposure of the fusion peptide (FP) N-terminus, we engineered an enterokinase (EK) cleavage site upstream of the FP for controlled post-expression cleavage. In combination, the redesigns resulted in highly stable and homogeneous NFL mimics derived from different clades. Following recombinant EK cleavage, the NFL trimers retained covalent linkage, maintaining a native-like structure while displaying enhanced stability and favorable antigenic features. These trimers also displayed increased exposure of neutralizing epitopes in the FP and gp120/gp41 interface, while retaining other neutralizing epitopes and occluding non-neutralizing elements. This array of Env-structure-guided designs reveals additional interactive regions in the prefusion state of the HIV Env spike, affording the development of novel antigens and immunogens.

Published

2018

3. Structure-Guided Redesign Improves NFL HIV Env Trimer Integrity and Identifies an Inter-Protomer Disulfide Permitting Post-Expression Cleavage.

Author

Yang, Lifei, Sharma, Shailendra Kumar, Cottrell, Christopher, Guenaga, Javier, Tran, Karen, Wilson, Richard, Behrens, Anna-Janina, Crispin, Max, de Val, Natalia, and Wyatt, Richard T.

Subjects

ANTIGENS, IMMUNOGENETICS, DIGESTIVE enzymes

Abstract

Soluble HIV-1 envelope glycoprotein (Env) trimers are under active investigation as vaccine candidates in relevant pre-clinical models. Like SOSIPs, the cleavage-independent native flexibly linked (NFL) trimers are faithful mimics of the Env spike. Here, we analyzed multiple new designs to explore alternative modifications, informing tertiary interactions, while maintaining NFL trimer homogeneity and integrity. Accordingly, we performed a proline (P) substitution screen in the gp41 heptad repeat 1 region, identifying other trimer-enhancing Ps, including L555P. This P improved trimer integrity compared to I559P in selected properties. Next, we screened 15 structure-guided potential cysteine pairs in gp140 and found that A501C-L663C (“CC2”) forms an inter-protomer disulfide bond that demonstrably increased NFL trimer thermostability. We combined these two approaches with trimer-derived substitutions, coupled with glycine substitutions at helix-to-coil transitions, developed by our group. To increase the exposure of the fusion peptide (FP) N-terminus, we engineered an enterokinase (EK) cleavage site upstream of the FP for controlled post-expression cleavage. In combination, the redesigns resulted in highly stable and homogeneous NFL mimics derived from different clades. Following recombinant EK cleavage, the NFL trimers retained covalent linkage, maintaining a native-like structure while displaying enhanced stability and favorable antigenic features. These trimers also displayed increased exposure of neutralizing epitopes in the FP and gp120/gp41 interface, while retaining other neutralizing epitopes and occluding non-neutralizing elements. This array of Env-structure-guided designs reveals additional interactive regions in the prefusion state of the HIV Env spike, affording the development of novel antigens and immunogens. [ABSTRACT FROM AUTHOR]

Published

2018

4. Vaccination with a soluble recombinant hemagglutinin trimer protects pigs against a challenge with pandemic (H1N1) 2009 influenza virus

Author

Loeffen, W.L.A., de Vries, R.P., Stockhofe, N., van Zoelen-Bos, D., Maas, R., Koch, G., Moormann, R.J., Rottier, P.J.M., and de Haan, C.A.M.

Subjects

*INFLUENZA A virus, H1N1 subtype, *HEMAGGLUTININ, *RECOMBINANT blood proteins, *VIRAL replication, *RESPIRATORY infections, *STATISTICAL sampling, *CONTROL groups, *VACCINATION

Abstract

Abstract: In 2009 a new influenza A/H1N1 virus strain (“pandemic (H1N1) 2009”, H1N1v) emerged that rapidly spread around the world. The virus is suspected to have originated in swine through reassortment and to have subsequently crossed the species-barrier towards humans. Several cases of reintroduction into pigs have since been reported, which could possibly create a reservoir for human exposure or ultimately become endemic in the pig population with similar clinical disease problems as current swine influenza strains. A soluble trimer of hemagglutinin (HA), derived from the H1N1v, was used as a vaccine in pigs to investigate the extent to which this vaccine would be able to protect pigs against infection with the H1N1v influenza strain, especially with respect to reducing virus replication and excretion. In a group of unvaccinated control pigs, no clinical symptoms were observed, but (histo)pathological changes consistent with an influenza infection were found on days 1 and 3 after inoculation. Live virus was isolated from the upper and lower respiratory tract, with titres up to 106 TCID50 per gram of tissue. Furthermore, live virus was detected in brain samples. Control pigs were shedding live virus for up to 6 days after infection, with titres of up to 105 TCID50 per nasal or oropharyngeal swab. The soluble H1N1v HA trimer diminished virus replication and excretion after a double vaccination and subsequent challenge. Live virus could not be detected in any of the samples taken from the vaccinated pigs. Vaccines based on soluble HA trimers provide an attractive alternative to the current inactivated vaccines. [Copyright &y& Elsevier]

Published

2011