Ultrastructural Aspects of Photodynamic Inactivation of Highly Pathogenic Avian H5N8 Influenza Virus.
Animals
Dogs
Glycoproteins
Influenza A Virus, H5N8 Subtype
/ radiation effects
Madin Darby Canine Kidney Cells
Microscopy, Electron, Transmission
Photosensitizing Agents
/ pharmacology
Reactive Oxygen Species
/ metabolism
Viral Matrix Proteins
/ ultrastructure
Virion
/ radiation effects
Virus Inactivation
/ radiation effects
H5N8
influenza
photodynamic inactivation
photosensitizer
transmission electron microscopy
Journal
Viruses
ISSN: 1999-4915
Titre abrégé: Viruses
Pays: Switzerland
ID NLM: 101509722
Informations de publication
Date de publication:
16 10 2019
16 10 2019
Historique:
received:
13
08
2019
revised:
15
10
2019
accepted:
15
10
2019
entrez:
19
10
2019
pubmed:
19
10
2019
medline:
29
9
2020
Statut:
epublish
Résumé
Ultrastructural studies revealing morphological differences between intact and photodynamically inactivated virions can point to inactivation mechanisms and molecular targets. Using influenza as a model system, we show that photodynamic virus inactivation is possible without total virion destruction. Indeed, irradiation with a relatively low concentration of the photosensitizer (octacationic octakis(cholinyl) zinc phthalocyanine) inactivated viral particles (the virus titer was determined in Madin Darby Canine Kidney (MDCK) cells) but did not destroy them. Transmission electron microscopy (TEM) revealed that virion membranes kept structural integrity but lost their surface glycoproteins. Such structures are known as "bald" virions, which were first described as a result of protease treatment. At a higher photosensitizer concentration, the lipid membranes were also destroyed. Therefore, photodynamic inactivation of influenza virus initially results from surface protein removal, followed by complete virion destruction. This study suggests that photodynamic treatment can be used to manufacture "bald" virions for experimental purposes. Photodynamic inactivation is based on the production of reactive oxygen species which attack and destroy biomolecules. Thus, the results of this study can potentially apply to other enveloped viruses and sources of singlet oxygen.
Identifiants
pubmed: 31623281
pii: v11100955
doi: 10.3390/v11100955
pmc: PMC6832225
pii:
doi:
Substances chimiques
Glycoproteins
0
Photosensitizing Agents
0
Reactive Oxygen Species
0
Viral Matrix Proteins
0
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Déclaration de conflit d'intérêts
The authors declare no conflict of interest.
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