The non-structural NS1 protein unique to respiratory syncytial virus: a two-state folding monomer in quasi-equilibrium with a stable spherical oligomer

Human respiratory syncytial virus (hRSV) is a major infectious agent that cause pediatric respiratory disease worldwide. Considered one of the main virulence factors of hRSV, NS1 is known to suppress type I interferon response and signaling, thus favoring immune evasion. This, together with the fact...

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Veröffentlicht in:	PloS one 2013-09, Vol.8 (9), p.e74338-e74338
Hauptverfasser:	Pretel, Esteban, Camporeale, Gabriela, de Prat-Gay, Gonzalo
Format:	Artikel
Sprache:	eng
Schlagworte:	Amyloid Amyloid - chemistry Analysis Biochemistry Biological response modifiers Circular Dichroism Dissociation Energy of dissociation Folding Free energy Genes Guanidine - pharmacology Homology Human papillomavirus Humans Hydrogen-Ion Concentration - drug effects Interferon Laboratories Localization Monomers NS1 protein Oligomerization Oligomers Pediatric diseases Perturbation methods Protein Denaturation - drug effects Protein folding Protein Folding - drug effects Protein Stability - drug effects Protein structure Protein Structure, Quaternary Protein Structure, Secondary Protein turnover Protein Unfolding - drug effects Proteins Respiratory diseases Respiratory syncytial virus Respiratory Syncytial Viruses - drug effects Respiratory Syncytial Viruses - metabolism Respiratory tract diseases Secondary structure Signaling Solubility Solvents Spectrometry, Fluorescence Stability analysis Temperature Viral Nonstructural Proteins - chemistry Viral Nonstructural Proteins - metabolism Virulence Virulence factors Viruses
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description	Human respiratory syncytial virus (hRSV) is a major infectious agent that cause pediatric respiratory disease worldwide. Considered one of the main virulence factors of hRSV, NS1 is known to suppress type I interferon response and signaling, thus favoring immune evasion. This, together with the fact that NS1 is unique to hRSV among paramyxoviruses, and that has no homology within databases, prompted us to investigate its conformational stability, equilibria and folding. Temperature cooperatively induces conformational changes leading to soluble spherical oligomers (NS1SOs) with amyloid-like or repetitive ß-sheet structures. The onset of the thermal transition is 45°C, and the oligomerization rate is increased by 25-fold from 40 to 46°C. Conformational stability analyzed by chemical perturbation of the NS1 monomer shows a two-state, highly reversible and cooperative unfolding, with a denaturant midpoint of 3.8 M, and a free energy change of 9.6±0.9 kcal⋅mol(-1). However, two transitions were observed in the chemical perturbation of NS1SOs: the first, from 2.0 to 3.0 M of denaturant, corresponds to a conformational transition and dissociation of the oligomers to the native monomer, indicating a substantial energy barrier. The second transition (2.0 to 3.5 M denaturant) corresponds to full unfolding of the native NS1 monomer. In addition, different cosolvent perturbations converged on the formation of ß-sheet enriched soluble oligomeric species, with secondary structure resembling those obtained after mild temperature treatment. Thus, a unique protein without homologs, structure or mechanistic information may switch between monomers and oligomers in conditions compatible with the cellular environment and be potentially modulated by crowding or compartmentalization. NS1 may act as a reservoir for increased levels and impact on protein turnover.
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Considered one of the main virulence factors of hRSV, NS1 is known to suppress type I interferon response and signaling, thus favoring immune evasion. This, together with the fact that NS1 is unique to hRSV among paramyxoviruses, and that has no homology within databases, prompted us to investigate its conformational stability, equilibria and folding. Temperature cooperatively induces conformational changes leading to soluble spherical oligomers (NS1SOs) with amyloid-like or repetitive ß-sheet structures. The onset of the thermal transition is 45°C, and the oligomerization rate is increased by 25-fold from 40 to 46°C. Conformational stability analyzed by chemical perturbation of the NS1 monomer shows a two-state, highly reversible and cooperative unfolding, with a denaturant midpoint of 3.8 M, and a free energy change of 9.6±0.9 kcal⋅mol(-1). 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chemistry</topic><topic>Analysis</topic><topic>Biochemistry</topic><topic>Biological response modifiers</topic><topic>Circular Dichroism</topic><topic>Dissociation</topic><topic>Energy of dissociation</topic><topic>Folding</topic><topic>Free energy</topic><topic>Genes</topic><topic>Guanidine - pharmacology</topic><topic>Homology</topic><topic>Human papillomavirus</topic><topic>Humans</topic><topic>Hydrogen-Ion Concentration - drug effects</topic><topic>Interferon</topic><topic>Laboratories</topic><topic>Localization</topic><topic>Monomers</topic><topic>NS1 protein</topic><topic>Oligomerization</topic><topic>Oligomers</topic><topic>Pediatric diseases</topic><topic>Perturbation methods</topic><topic>Protein Denaturation - drug effects</topic><topic>Protein folding</topic><topic>Protein Folding - drug effects</topic><topic>Protein Stability - drug effects</topic><topic>Protein structure</topic><topic>Protein Structure, Quaternary</topic><topic>Protein Structure, Secondary</topic><topic>Protein turnover</topic><topic>Protein Unfolding - 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Considered one of the main virulence factors of hRSV, NS1 is known to suppress type I interferon response and signaling, thus favoring immune evasion. This, together with the fact that NS1 is unique to hRSV among paramyxoviruses, and that has no homology within databases, prompted us to investigate its conformational stability, equilibria and folding. Temperature cooperatively induces conformational changes leading to soluble spherical oligomers (NS1SOs) with amyloid-like or repetitive ß-sheet structures. The onset of the thermal transition is 45°C, and the oligomerization rate is increased by 25-fold from 40 to 46°C. Conformational stability analyzed by chemical perturbation of the NS1 monomer shows a two-state, highly reversible and cooperative unfolding, with a denaturant midpoint of 3.8 M, and a free energy change of 9.6±0.9 kcal⋅mol(-1). However, two transitions were observed in the chemical perturbation of NS1SOs: the first, from 2.0 to 3.0 M of denaturant, corresponds to a conformational transition and dissociation of the oligomers to the native monomer, indicating a substantial energy barrier. The second transition (2.0 to 3.5 M denaturant) corresponds to full unfolding of the native NS1 monomer. In addition, different cosolvent perturbations converged on the formation of ß-sheet enriched soluble oligomeric species, with secondary structure resembling those obtained after mild temperature treatment. Thus, a unique protein without homologs, structure or mechanistic information may switch between monomers and oligomers in conditions compatible with the cellular environment and be potentially modulated by crowding or compartmentalization. NS1 may act as a reservoir for increased levels and impact on protein turnover.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>24058549</pmid><doi>10.1371/journal.pone.0074338</doi><tpages>e74338</tpages><oa>free_for_read</oa></addata></record>
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subjects	Amyloid Amyloid - chemistry Analysis Biochemistry Biological response modifiers Circular Dichroism Dissociation Energy of dissociation Folding Free energy Genes Guanidine - pharmacology Homology Human papillomavirus Humans Hydrogen-Ion Concentration - drug effects Interferon Laboratories Localization Monomers NS1 protein Oligomerization Oligomers Pediatric diseases Perturbation methods Protein Denaturation - drug effects Protein folding Protein Folding - drug effects Protein Stability - drug effects Protein structure Protein Structure, Quaternary Protein Structure, Secondary Protein turnover Protein Unfolding - drug effects Proteins Respiratory diseases Respiratory syncytial virus Respiratory Syncytial Viruses - drug effects Respiratory Syncytial Viruses - metabolism Respiratory tract diseases Secondary structure Signaling Solubility Solvents Spectrometry, Fluorescence Stability analysis Temperature Viral Nonstructural Proteins - chemistry Viral Nonstructural Proteins - metabolism Virulence Virulence factors Viruses
title	The non-structural NS1 protein unique to respiratory syncytial virus: a two-state folding monomer in quasi-equilibrium with a stable spherical oligomer
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