Your search keyword '"Lixiao Xing"' showing total 3 results

1. Alpaca-derived nanobody targeting the hydrophobic pocket of the HIV-1 gp41 NHR broadly neutralizes HIV-1 by blocking six-helix bundle formation

Author

Lujia Sun, Bo Chen, Xianbo Liu, Yun Zhu, Guangxu Zhang, Xiaoxing Liang, Lixiao Xing, Wei Xu, Shibo Jiang, and Xinling Wang

Subjects

HIV-1, Alpaca, Nanobody, gp41 NHR, Broadly neutralizing antibody, Microbiology, QR1-502, Genetics, QH426-470

Abstract

The highly conserved hydrophobic pocket region of HIV-1 gp41 NHR triple-stranded coiled coil is crucial for the binding of CHR to NHR to form a six-helix bundle (6-HB). This pocket is only exposed instantaneously during fusion, making it an ideal target for antibody drug design. However, IgG molecule is too big to enter the pocket during the fusion process. Therefore, to overcome the steric hindrance and kinetic obstacles caused by the formation of gp41 pre-hairpin fusion intermediate, we obtained nanobodies (Nbs) targeting NHR by immunizing alpaca with an NHR-trimer mimic. Specifically, we identified a Nb, Nb-172, that exhibited potent and broadly neutralizing activity against HIV-1 pseudoviruses, HIV-1 primary isolates, and T20-resistant HIV-1 strains. In addition, the combinatorial use of mD1.22 and Nb-172 exhibited synergism in inhibiting HIV-1 infection inactivating cell-free virions. Nb-172 can competitively bind to the hydrophobic pocket of gp41 NHR to inhibit 6-HB formation. These findings suggest that Nb-172 merits further investigation as a potential therapeutic for HIV-1 infection.

Published

2024

2. A highly potent and stable pan-coronavirus fusion inhibitor as a candidate prophylactic and therapeutic for COVID-19 and other coronavirus diseases

Author

Jie Zhou, Wei Xu, Zezhong Liu, Chao Wang, Shuai Xia, Qiaoshuai Lan, Yanxing Cai, Shan Su, Jing Pu, Lixiao Xing, Youhua Xie, Lu Lu, Shibo Jiang, and Qian Wang

Subjects

Coronavirus, Lipopeptide, SARS-CoV-2, Polyethylene glycol, Fusion inhibitor, Therapeutics. Pharmacology, RM1-950

Abstract

The development of broad-spectrum antivirals against human coronaviruses (HCoVs) is critical to combat the current coronavirus disease 2019 (COVID-19) pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and its variants, as well as future outbreaks of emerging CoVs. We have previously identified a polyethylene glycol-conjugated (PEGylated) lipopeptide, EK1C4, with potent pan-CoV fusion inhibitory activity. However, PEG linkers in peptide or protein drugs may reduce stability or induce anti-PEG antibodies in vivo. Therefore, we herein report the design and synthesis of a series of dePEGylated lipopeptide-based pan-CoV fusion inhibitors featuring the replacement of the PEG linker with amino acids in the heptad repeat 2 C-terminal fragment (HR2-CF) of HCoV-OC43. Among these lipopeptides, EKL1C showed the most potent inhibitory activity against infection by SARS-CoV-2 and its spike (S) mutants, as well as other HCoVs and some bat SARS-related coronaviruses (SARSr-CoVs) tested. The dePEGylated lipopeptide EKL1C exhibited significantly stronger resistance to proteolytic enzymes, better metabolic stability in mouse serum, higher thermostability than the PEGylated lipopeptide EK1C4, suggesting that EKL1C could be further developed as a candidate prophylactic and therapeutic for COVID-19 and other coronavirus diseases.

Published

2022

3. Molecular characterization of avian leukosis virus subgroup J in Chinese local chickens between 2013 and 2018

Author

Meige Ma, Mengmeng Yu, Fangfang Chang, Lixiao Xing, Yuanling Bao, Suyan Wang, Muhammad Farooque, Xinyi Li, Peng Liu, Yuntong Chen, Xiaole Qi, Qing Pan, Li Gao, Kai Li, Changjun Liu, Yanping Zhang, Hongyu Cui, Xiaomei Wang, Yanming Sun, and Yulong Gao

Subjects

subgroup J avian leukosis virus, Chinese local chicken, molecular characterization, molecular epidemiology, genetic evolution, Animal culture, SF1-1100

Abstract

Avian leukosis virus subgroup J (ALV-J) was first isolated from broiler chickens in China in 1999; subsequently, it was rapidly introduced into layer chickens and Chinese local chickens. Recently, the incidence of ALV-J in broiler and layer chickens has significantly decreased. However, it has caused substantial damage to Chinese local chickens, resulting in immense challenges to their production performance and breeding safety. To systematically analyze the molecular characteristics and the epidemic trend of ALV-J in Chinese local chickens, 260 clinical samples were collected for the period of 2013–2018; 18 ALV-J local chicken isolates were identified by antigen-capture enzyme-linked immunosorbent assay and subgroup A-, B-, and J-specific multiplex PCR. The whole genomic sequences of 18 isolates were amplified with PCR and submitted to GenBank. Approximately, 55.5% (10/18) of the 18 isolates demonstrated a relatively high homology (92.3–95.4%) with 20 ALV-J early-isolated local strains (genome sequences obtained from GenBank) in gp85 genes clustering in a separated branch. The 3ʹ untranslated region (3ʹ UTR) of the 18 isolates showed a 195–210 and 16–28 base pair deletion in the redundant transmembrane region and in direct repeat 1, respectively; 55.5% (10/18) of the 18 isolates retained the 147 residue E element. The U3 gene of 61.1% (11/18) of the 18 isolates shared high identity (94.6–97.3%) with ALV-J early-isolated local strains. These results implied that the gp85 and U3 of ALV-J local chicken isolates have rapidly evolved and formed a unique local chicken branch. In addition, it was determined that the gene deletion in the 3′UTR region currently serves as a unique molecular characteristic of ALV-J in China. Hence, the obtained results built on the existing ALV-J molecular epidemiological data and further elucidated the genetic evolution trend of ALV-J in Chinese local chickens.

Published

2020