Inactivation of Streptomyces phage [varphi]C31 by 405 nm light: Requirement for exogenous photosensitizers?

Exposure to narrowband violet-blue light around 405 nm wavelength can induce lethal oxidative damage to bacteria and fungi, however effects on viruses are unknown. As photosensitive porphyrin molecules are involved in the microbicidal inactivation mechanism, and since porphyrins are absent in viruse...

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Bibliographic Details
Published in:Bacteriophage 2014-01, Vol.4 (3), p.e32129-1-e32129-6
Main Authors: Tomb, Rachael M, Maclean, Michelle, Herron, Paul R, Hoskisson, Paul A, MacGregor, Scott J, Anderson, John G
Format: Article
Language:English
Subjects:
Streptomyces
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Summary:Exposure to narrowband violet-blue light around 405 nm wavelength can induce lethal oxidative damage to bacteria and fungi, however effects on viruses are unknown. As photosensitive porphyrin molecules are involved in the microbicidal inactivation mechanism, and since porphyrins are absent in viruses, then any damaging effects of 405 nm light on viruses might appear unlikely. This study used the bacteriophage [varphi]C31, as a surrogate for non-enveloped double-stranded DNA viruses, to establish whether 405 nm light can induce virucidal effects. Exposure of [varphi]C31 suspended in minimal media, nutrient-rich media, and porphyrin solution, demonstrated differing sensitivity of the phage. Significant reductions in phage titer occurred when exposed in nutrient-rich media, with ~3-, 5- and 7-log sub(10) reductions achieved after exposure to doses of 0.3, 0.5 and 1.4 kJ/cm super(2), respectively. When suspended in minimal media a 0.3-log sub(10) reduction (P = 0.012) occurred after exposure to 306 J/cm super(2): much lower than the 2.7- and > 2.5-log sub(10) reductions achieved with the same dose in nutrient-rich, and porphyrin-supplemented media, suggesting inactivation is accelerated by the photo-activation of light-sensitive components in the media. This study provides the first evidence of the interaction of narrowband 405 nm light with viruses, and demonstrates that viral susceptibility to 405 nm light can be significantly enhanced by involvement of exogenous photosensitive components. The reduced susceptibility of viruses in minimal media, compared with that of other microorganisms, provides further evidence that the antimicrobial action of 405 nm light is predominantly due to the photo-excitation of endogenous photosensitive molecules such as porphyrins within susceptible microorganisms.
ISSN:2159-7073
2159-7081
DOI:10.4161/bact.32129