405 nm光对链霉菌噬菌体的灭活作用:对外源光敏剂的要求?

Bacteriophage Pub Date : 2014-07-28 eCollection Date: 2014-01-01 DOI:10.4161/bact.32129
Rachael M Tomb, Michelle Maclean, Paul R Herron, Paul A Hoskisson, Scott J MacGregor, John G Anderson
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引用次数: 30

摘要

暴露在405nm波长左右的窄波段紫蓝光下可以对细菌和真菌造成致命的氧化损伤,但对病毒的影响尚不清楚。由于光敏卟啉分子参与杀微生物失活机制,且病毒中不存在卟啉,因此405 nm光对病毒的破坏作用似乎不太可能发生。本研究以噬菌体h C31作为非包膜双链DNA病毒的替代物,验证405 nm光是否能诱导灭病毒作用。暴露于微量培养基、富营养培养基和卟啉溶液中,显示出噬菌体的不同敏感性。当暴露在富含营养的培养基中时,噬菌体滴度显著降低,暴露于0.3、0.5和1.4 kJ/cm2剂量后,噬菌体滴度分别降低了~3、5和7 log10。当悬浮在最小的培养基中时,暴露于306 J/cm2后,减少了0.3 log10 (P = 0.012),远低于相同剂量的富营养化和卟啉补充培养基中的2.7和> 2.5 log10减少,这表明介质中光敏成分的光活化加速了失活。本研究首次提供了窄带405 nm光与病毒相互作用的证据,并证明外源光敏成分的参与可以显著增强病毒对405 nm光的敏感性。与其他微生物相比,病毒在最小介质中的敏感性降低,进一步证明405 nm光的抗菌作用主要是由于敏感微生物内的内源性光敏分子(如卟啉)的光激发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Inactivation of <i>Streptomyces</i> phage ɸC31 by 405 nm light: Requirement for exogenous photosensitizers?

Inactivation of <i>Streptomyces</i> phage ɸC31 by 405 nm light: Requirement for exogenous photosensitizers?

Inactivation of <i>Streptomyces</i> phage ɸC31 by 405 nm light: Requirement for exogenous photosensitizers?

Inactivation of Streptomyces phage ɸC31 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 viruses, then any damaging effects of 405 nm light on viruses might appear unlikely. This study used the bacteriophage ɸC31, as a surrogate for non-enveloped double-stranded DNA viruses, to establish whether 405 nm light can induce virucidal effects. Exposure of ɸC31 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-log10 reductions achieved after exposure to doses of 0.3, 0.5 and 1.4 kJ/cm2, respectively. When suspended in minimal media a 0.3-log10 reduction (P = 0.012) occurred after exposure to 306 J/cm2: much lower than the 2.7- and > 2.5-log10 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.

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