Your search keyword '"Zhang, Huichang"' showing total 3 results

1. Porcine deltacoronavirus accessory protein NS6 harnesses VPS35-mediated retrograde trafficking to facilitate efficient viral infection.

Author

Fang P, Zhang H, Cheng T, Ding T, Xia S, Xiao W, Li Z, Xiao S, and Fang L

Subjects

Animals, Deltacoronavirus, Swine, Virus Replication, Coronavirus genetics, Coronavirus metabolism, Coronavirus Infections, Swine Diseases, Viral Regulatory and Accessory Proteins genetics, Viral Regulatory and Accessory Proteins metabolism, Vesicular Transport Proteins genetics, Vesicular Transport Proteins metabolism

Abstract

Importance: Retrograde transport has been reported to be closely associated with normal cellular biological processes and viral replication. As an emerging enteropathogenic coronavirus with zoonotic potential, porcine deltacoronavirus (PDCoV) has attracted considerable attention. However, whether retrograde transport is associated with PDCoV infection remains unclear. Our present study demonstrates that retromer protein VPS35 acts as a critical host factor that is required for PDCoV infection. Mechanically, VPS35 interacts with PDCoV NS6, mediating the retrograde transport of NS6 from endosomes to the Golgi and preventing it from lysosomal degradation. Recombinant PDCoVs with an NS6 deletion display resistance to VPS35 deficiency. Our work reveals a novel evasion mechanism of PDCoV that involves the manipulation of the retrograde transport pathway by VPS35, providing new insight into the mechanism of PDCoV infection., Competing Interests: The authors declare no conflict of interest.

Published

2023

2. Porcine deltacoronavirus accessory protein NS7a possesses the functional characteristics of a viroporin.

Author

Xia S, Fang P, Pan T, Xiao W, Zhang H, Zhu X, Xiao S, and Fang L

Subjects

Swine, Animals, Viroporin Proteins, Amino Acids metabolism, Alanine metabolism, Membrane Proteins metabolism, Ion Channels metabolism, Mammals, Coronavirus, Coronavirus Infections veterinary, Swine Diseases

Abstract

Viroporins are virus-encoded proteins that mediate ion channel (IC) activity, playing critical roles in virus entry, replication, pathogenesis, and immune evasion. Previous studies have shown that some coronavirus accessory proteins have viroporin-like activity. Porcine deltacoronavirus (PDCoV) is an emerging enteropathogenic coronavirus that encodes three accessory proteins, NS6, NS7, and NS7a. However, whether any of the PDCoV accessory proteins possess viroporin-like activity, and if so which, remains unknown. In this study, we analyzed the biochemical properties of the three PDCoV-encoded accessory proteins and found that NS7a could enhance the membrane permeability of both mammalian cells and Escherichia coli cells. Indirect immunofluorescence assay and co-immunoprecipitation assay results further indicated that NS7a is an integral membrane protein and can form homo-oligomers. A bioinformation analysis revealed that a putative viroporin domain (VPD) is located within amino acids 69-88 (aa69-88) of NS7a. Experiments with truncated mutants and alanine scanning mutagenesis additionally demonstrated that the amino acid residues 69 FLR 71 of NS7a are essential for its viroporin-like activity. Together, our findings are the first to demonstrate that PDCoV NS7a possesses viroporin-like activity and identify its key amino acid residues associated with viroporin-like activity., Competing Interests: Conflict of interest The authors declare that there are no conflicts of interest., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

3. Functions of Coronavirus Accessory Proteins: Overview of the State of the Art.

Author

Fang, Puxian, Fang, Liurong, Zhang, Huichang, Xia, Sijin, and Xiao, Shaobo

Subjects

CORONAVIRUSES, COVID-19, CYTOSKELETAL proteins, VIRUS diseases, VIRAL proteins, SARS-CoV-2, PROTEINS

Abstract

Coronavirus accessory proteins are a unique set of proteins whose genes are interspersed among or within the genes encoding structural proteins. Different coronavirus genera, or even different species within the same coronavirus genus, encode varying amounts of accessory proteins, leading to genus- or species-specificity. Though accessory proteins are dispensable for the replication of coronavirus in vitro, they play important roles in regulating innate immunity, viral proliferation, and pathogenicity. The function of accessory proteins on virus infection and pathogenesis is an area of particular interest. In this review, we summarize the current knowledge on accessory proteins of several representative coronaviruses that infect humans or animals, including the emerging severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), with an emphasis on their roles in interaction between virus and host, mainly involving stress response, innate immunity, autophagy, and apoptosis. The cross-talking among these pathways is also discussed. [ABSTRACT FROM AUTHOR]

Published

2021