10.6084/M9.FIGSHARE.12091959
Qian Wang
Qian
Wang
Bingting Ma
Bingting
Ma
Qingtai Liang
Qingtai
Liang
Angqi Zhu
Angqi
Zhu
Hua Wang
Hua
Wang
Lili Fu
Lili
Fu
Xiaoxu Han
Xiaoxu
Han
Xuanling Shi
Xuanling
Shi
Ye Xiang
Ye
Xiang
Hong Shang
Hong
Shang
Linqi Zhang
Linqi
Zhang
Stabilized diverse HIV-1 envelope trimers for vaccine design
<p>One of the major goals in HIV-1 vaccine development is to achieve properly folded and stabilized envelope glycoprotein (Env) trimers that mimic the native Env on the mature virion. Here, we design and characterize uncleaved prefusion-optimized (UFO) trimers for 12 Envs currently circulating in China. Biochemical and biophysical characterization of these UFO trimers identified two subtype B/Bʹ Envs, CNE6 and MG13, which exhibited the highest trimer content and stability at a level comparable to the subtype A reference, BG505. Replacing the gp41 ectodomain (gp41<sub>ECTO</sub>) of CRF01_AE trimers with that of CNE6, MG13, and BG505 resulted in chimeric constructs with significantly improved trimer content and stability. Negative-stain electron microscopy (EM) confirmed the structural integrity of these chimeric UFO trimers with CNE6 gp41<sub>ECTO</sub>. Antibody binding assays showed that the chimeric trimers shared similar antigenic profiles to those with their original gp41<sub>ECTO</sub> domains. Our results thus revealed the intrinsic differences among HIV-1 Envs of diverse origins and the critical role of gp41<sub>ECTO</sub> in stabilizing the trimeric spike. By taking advantage of naturally stable Envs, gp41<sub>ECTO</sub> swapping may represent a universal approach for the generation of stable trimers with the desired structural and antigenic properties for downstream in vivo evaluation and vaccine development.</p>
Biophysics
Biochemistry
Medicine
Cell Biology
Biotechnology
Immunology
Mathematical Sciences not elsewhere classified
Infectious Diseases
Virology
Taylor & Francis
2020
2020-04-07
2023-05-30
Journal contribution
10262886 Bytes
10.1080/22221751.2020.1745093
CC BY 4.0