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DMSO might impact ligand binding, capsid stability, and RNA interaction in viral preparations

Dimethyl sulfoxide (DMSO) is a widely used solvent in drug research. However, recent studies indicate that even at low concentration DMSO might cause structural changes of proteins and RNA. The pyrazolopyrimidine antiviral OBR-5-340 dissolved in DMSO inhibits rhinovirus-B5 infection yet is inactive...

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Published in:	Scientific reports 2024-12, Vol.14 (1), p.30408-9
Main Authors:	Wald, Jiri, Goessweiner-Mohr, Nikolaus, Real-Hohn, Antonio, Blaas, Dieter, Marlovits, Thomas C.
Format:	Article
Language:	English
Subjects:	631/326/596/2148 631/535/1258/1259 Antiviral Agents - chemistry Antiviral Agents - pharmacology Binding Sites Capsid - chemistry Capsid - drug effects Capsid - metabolism Capsid Proteins - chemistry Capsid Proteins - metabolism Cryoelectron Microscopy Dimethyl sulfoxide Dimethyl Sulfoxide - chemistry Dimethyl Sulfoxide - pharmacology DMSO Electron microscopes Electron microscopy Fatty acids Genomes Heterogeneity HRV Humanities and Social Sciences Humans Hydrophobicity Infections Ligands Microscopy multidisciplinary Pocket factor Protein Binding Protein structure Proteins Rhinovirus Rhinovirus - drug effects Ribonucleic acid RNA RNA, Viral - chemistry RNA, Viral - metabolism Science Science (multidisciplinary) Solvents
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description	Dimethyl sulfoxide (DMSO) is a widely used solvent in drug research. However, recent studies indicate that even at low concentration DMSO might cause structural changes of proteins and RNA. The pyrazolopyrimidine antiviral OBR-5-340 dissolved in DMSO inhibits rhinovirus-B5 infection yet is inactive against RV-A89. This is consistent with our structural observation that OBR-5-340 is only visible at the pocket factor site in rhinovirus-B5 and not in RV-A89, where the hydrophobic pocket is collapsed. Here, we analyze the impact of DMSO in RV-A89 by high-resolution cryo-electron microscopy. Our 1.76 Å cryo-EM reconstruction of RV-A89 in plain buffer, without DMSO, reveals that the pocket-factor binding site is occupied by myristate and that the previously observed local heterogeneity at protein–RNA interfaces is absent. These findings suggest that DMSO elutes the pocket factor, leading to a collapse of the hydrophobic pocket of RV-A89. Consequently, the conformational heterogeneity observed at the RNA-protein interface in the presence of DMSO likely results from increased capsid flexibility due to the absence of the pocket factor and DMSO-induced affinity modifications. This local asymmetry may promote a directional release of the RNA genome during infection.
doi_str_mv	10.1038/s41598-024-81789-x
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However, recent studies indicate that even at low concentration DMSO might cause structural changes of proteins and RNA. The pyrazolopyrimidine antiviral OBR-5-340 dissolved in DMSO inhibits rhinovirus-B5 infection yet is inactive against RV-A89. This is consistent with our structural observation that OBR-5-340 is only visible at the pocket factor site in rhinovirus-B5 and not in RV-A89, where the hydrophobic pocket is collapsed. Here, we analyze the impact of DMSO in RV-A89 by high-resolution cryo-electron microscopy. Our 1.76 Å cryo-EM reconstruction of RV-A89 in plain buffer, without DMSO, reveals that the pocket-factor binding site is occupied by myristate and that the previously observed local heterogeneity at protein–RNA interfaces is absent. These findings suggest that DMSO elutes the pocket factor, leading to a collapse of the hydrophobic pocket of RV-A89. 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However, recent studies indicate that even at low concentration DMSO might cause structural changes of proteins and RNA. The pyrazolopyrimidine antiviral OBR-5-340 dissolved in DMSO inhibits rhinovirus-B5 infection yet is inactive against RV-A89. This is consistent with our structural observation that OBR-5-340 is only visible at the pocket factor site in rhinovirus-B5 and not in RV-A89, where the hydrophobic pocket is collapsed. Here, we analyze the impact of DMSO in RV-A89 by high-resolution cryo-electron microscopy. Our 1.76 Å cryo-EM reconstruction of RV-A89 in plain buffer, without DMSO, reveals that the pocket-factor binding site is occupied by myristate and that the previously observed local heterogeneity at protein–RNA interfaces is absent. These findings suggest that DMSO elutes the pocket factor, leading to a collapse of the hydrophobic pocket of RV-A89. 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subjects	631/326/596/2148 631/535/1258/1259 Antiviral Agents - chemistry Antiviral Agents - pharmacology Binding Sites Capsid - chemistry Capsid - drug effects Capsid - metabolism Capsid Proteins - chemistry Capsid Proteins - metabolism Cryoelectron Microscopy Dimethyl sulfoxide Dimethyl Sulfoxide - chemistry Dimethyl Sulfoxide - pharmacology DMSO Electron microscopes Electron microscopy Fatty acids Genomes Heterogeneity HRV Humanities and Social Sciences Humans Hydrophobicity Infections Ligands Microscopy multidisciplinary Pocket factor Protein Binding Protein structure Proteins Rhinovirus Rhinovirus - drug effects Ribonucleic acid RNA RNA, Viral - chemistry RNA, Viral - metabolism Science Science (multidisciplinary) Solvents
title	DMSO might impact ligand binding, capsid stability, and RNA interaction in viral preparations
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