Saved in:
Bibliographic Details
Main Authors: Yang, Jiyuan, Datta, Payel, Xia, Ke, Pomin, Vitor H, Wang, Chunyu, Qiao, Mingqiang, Linhardt, Robert J, Dordick, Jonathan S, Zhang, Fuming
Format: Artículo científico
Language:en
Published: Glycoconjugate journal 2024
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39680336/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266268221505538
author Yang, Jiyuan
Datta, Payel
Xia, Ke
Pomin, Vitor H
Wang, Chunyu
Qiao, Mingqiang
Linhardt, Robert J
Dordick, Jonathan S
Zhang, Fuming
author_facet Yang, Jiyuan
Datta, Payel
Xia, Ke
Pomin, Vitor H
Wang, Chunyu
Qiao, Mingqiang
Linhardt, Robert J
Dordick, Jonathan S
Zhang, Fuming
Yang, Jiyuan
Datta, Payel
Xia, Ke
Pomin, Vitor H
Wang, Chunyu
Qiao, Mingqiang
Linhardt, Robert J
Dordick, Jonathan S
Zhang, Fuming
collection PubMed - marine biology
contents Inhibition of sulfated glycans on the binding of dengue virus envelope protein to heparin. Yang, Jiyuan Datta, Payel Xia, Ke Pomin, Vitor H Wang, Chunyu Qiao, Mingqiang Linhardt, Robert J Dordick, Jonathan S Zhang, Fuming Heparin Viral Envelope Proteins Dengue Virus Protein Binding Polysaccharides Humans Heparan Sulfate Dengue viruses (DENV) are transmitted to humans through mosquito bites and infect millions globally. DENV uses heparan sulfate (HS) for attachment and cell entry by binding the envelope protein to highly sulfated HS on target cells. Therefore, inhibiting the binding between DENV and HS could be a promising strategy for preventing DENV infection. In the current study, the interactions between DENV envelope protein (from Type 2 DENV) and heparin (a surrogate for HS) were analyzed using competition solution SPR. Results demonstrate that heparin binds to DENV envelope protein with high affinity (K = 8.83 nM). Competitive Solution SPR assays using surface-immobilized heparin and a series of naturally-sourced and semi-synthetic sulfated glycans demonstrated significant inhibitory activity against the binding of DENV envelope proteins to heparin. This study of molecular interactions could provide insights into the development of therapeutics for DENV infection.
format Artículo científico
id pubmed_39680336
institution PubMed
language en
publishDate 2024
publisher Glycoconjugate journal
record_format pubmed
spellingShingle Inhibition of sulfated glycans on the binding of dengue virus envelope protein to heparin.
Yang, Jiyuan
Datta, Payel
Xia, Ke
Pomin, Vitor H
Wang, Chunyu
Qiao, Mingqiang
Linhardt, Robert J
Dordick, Jonathan S
Zhang, Fuming
Heparin
Viral Envelope Proteins
Dengue Virus
Protein Binding
Polysaccharides
Humans
Heparan Sulfate
Inhibition of sulfated glycans on the binding of dengue virus envelope protein to heparin. Yang, Jiyuan Datta, Payel Xia, Ke Pomin, Vitor H Wang, Chunyu Qiao, Mingqiang Linhardt, Robert J Dordick, Jonathan S Zhang, Fuming Heparin Viral Envelope Proteins Dengue Virus Protein Binding Polysaccharides Humans Heparan Sulfate Dengue viruses (DENV) are transmitted to humans through mosquito bites and infect millions globally. DENV uses heparan sulfate (HS) for attachment and cell entry by binding the envelope protein to highly sulfated HS on target cells. Therefore, inhibiting the binding between DENV and HS could be a promising strategy for preventing DENV infection. In the current study, the interactions between DENV envelope protein (from Type 2 DENV) and heparin (a surrogate for HS) were analyzed using competition solution SPR. Results demonstrate that heparin binds to DENV envelope protein with high affinity (K = 8.83 nM). Competitive Solution SPR assays using surface-immobilized heparin and a series of naturally-sourced and semi-synthetic sulfated glycans demonstrated significant inhibitory activity against the binding of DENV envelope proteins to heparin. This study of molecular interactions could provide insights into the development of therapeutics for DENV infection.
title Inhibition of sulfated glycans on the binding of dengue virus envelope protein to heparin.
topic Heparin
Viral Envelope Proteins
Dengue Virus
Protein Binding
Polysaccharides
Humans
Heparan Sulfate
url https://pubmed.ncbi.nlm.nih.gov/39680336/