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The Photosensitizer Octakis(cholinyl)zinc Phthalocyanine with Ability to Bind to a Model Spike Protein Leads to a Loss of SARS-CoV-2 Infectivity In Vitro When Exposed to Far-Red LED

Kirill Sharshov, Mariya V. Solomatina, Olga Kurskaya, I. B. Kovalenko, Ekaterina G. Kholina, Vladimir A. Fedorov, Г. А. Меерович, Andrew Rubin, M. G. Strakhovskaya

2021Viruses34 citationsDOIOpen Access PDF

Abstract

Photodynamic inactivation of pathogenic microorganisms can be successfully used to eradicate pathogens in localized lesions, infected liquid media, and on various surfaces. This technique utilizes the photosensitizer (PS), light, and molecular oxygen to produce reactive oxygen species that kill pathogens. Here, we used the PS, water soluble octakis(cholinyl)zinc phthalocyanine (Zn-PcChol8+), to inactivate an initial 4.75–5.00 IgTCID50/mL titer of SARS-CoV-2, thereby preventing viral infection when tested in Vero E6 cell cultures. Zn-PcChol8+ in a minimally studied concentration, 1 µM and LED 3.75 J/cm2, completely destroyed the infectivity of SARS-CoV-2. To detect possible PS binding sites on the envelope of SARS-CoV-2, we analyzed electrostatic potential and simulated binding of Zn-PcChol8+ to the spike protein of this coronavirus by means of Brownian dynamics software, ProKSim (Protein Kinetics Simulator). Most of the Zn-PcChol8+ molecules formed clusters at the upper half of the stalk within a vast area of negative electrostatic potential. Positioning of the PS on the surface of the spike protein at a distance of no more than 10 nm from the viral membrane may be favorable for the oxidative damage. The high sensitivity of SARS-CoV-2 to photodynamic inactivation by Zn-PcChol8+ is discussed with respect to the application of this PS to control the spread of COVID-19.

Topics & Concepts

PhotosensitizerInfectivityZincIn vitroPhthalocyaninePhotodynamic therapyChemistryCoronavirus disease 2019 (COVID-19)VirologyZinc fingerSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)BiophysicsPhotochemistryMedicineBiologyBiochemistryVirusPathologyOrganic chemistryTranscription factorDiseaseInfectious disease (medical specialty)GeneNanoplatforms for cancer theranosticsPhotodynamic Therapy Research StudiesPhotoacoustic and Ultrasonic Imaging
The Photosensitizer Octakis(cholinyl)zinc Phthalocyanine with Ability to Bind to a Model Spike Protein Leads to a Loss of SARS-CoV-2 Infectivity In Vitro When Exposed to Far-Red LED | Litcius