Subdiffraction localization of a nanostructured photosensitizer in bacterial cells

Pietro Delcanale; Francesca Pennacchietti; Giulio Maestrini; Beatriz Rodríguez-Amigo; Paolo Bianchini; Alberto Diaspro; Alessandro Iagatti; Barbara Patrizi; Paolo Foggi; Monserrat Agut; Santi Nonell; Stefania Abbruzzetti; Cristiano Viappiani

doi:10.1038/srep15564

Subdiffraction localization of a nanostructured photosensitizer in bacterial cells

Pietro Delcanale
, Francesca Pennacchietti
, Giulio Maestrini
, Beatriz Rodríguez-Amigo
, Paolo Bianchini
, Alberto Diaspro^*
, Alessandro Iagatti
, Barbara Patrizi
, Paolo Foggi
, Monserrat Agut
, Santi Nonell
, Stefania Abbruzzetti
, Cristiano Viappiani

^*Autor/a de correspondencia de este trabajo

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

37 Citas (Scopus)

Resumen

Antibacterial treatments based on photosensitized production of reactive oxygen species is a promising approach to address local microbial infections. Given the small size of bacterial cells, identification of the sites of binding of the photosensitizing molecules is a difficult issue to address with conventional microscopy. We show that the excited state properties of the naturally occurring photosensitizer hypericin can be exploited to perform STED microscopy on bacteria incubated with the complex between hypericin and apomyoglobin, a self-assembled nanostructure that confers very good bioavailability to the photosensitizer. Hypericin fluorescence is mostly localized at the bacterial wall, and accumulates at the polar regions of the cell and at sites of cell wall growth. While these features are shared by Gram-negative and Gram-positive bacteria, only the latter are effectively photoinactivated by light exposure.

Idioma original	Inglés
Número de artículo	15564
Número de páginas	9
Publicación	Scientific Reports
Volumen	5
DOI	https://doi.org/10.1038/srep15564
Estado	Publicada - 23 oct 2015

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title = "Subdiffraction localization of a nanostructured photosensitizer in bacterial cells",

abstract = "Antibacterial treatments based on photosensitized production of reactive oxygen species is a promising approach to address local microbial infections. Given the small size of bacterial cells, identification of the sites of binding of the photosensitizing molecules is a difficult issue to address with conventional microscopy. We show that the excited state properties of the naturally occurring photosensitizer hypericin can be exploited to perform STED microscopy on bacteria incubated with the complex between hypericin and apomyoglobin, a self-assembled nanostructure that confers very good bioavailability to the photosensitizer. Hypericin fluorescence is mostly localized at the bacterial wall, and accumulates at the polar regions of the cell and at sites of cell wall growth. While these features are shared by Gram-negative and Gram-positive bacteria, only the latter are effectively photoinactivated by light exposure.",

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AU - Pennacchietti, Francesca

AU - Maestrini, Giulio

AU - Rodríguez-Amigo, Beatriz

AU - Bianchini, Paolo

AU - Diaspro, Alberto

AU - Iagatti, Alessandro

AU - Patrizi, Barbara

AU - Foggi, Paolo

AU - Agut, Monserrat

AU - Nonell, Santi

AU - Abbruzzetti, Stefania

AU - Viappiani, Cristiano

PY - 2015/10/23

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N2 - Antibacterial treatments based on photosensitized production of reactive oxygen species is a promising approach to address local microbial infections. Given the small size of bacterial cells, identification of the sites of binding of the photosensitizing molecules is a difficult issue to address with conventional microscopy. We show that the excited state properties of the naturally occurring photosensitizer hypericin can be exploited to perform STED microscopy on bacteria incubated with the complex between hypericin and apomyoglobin, a self-assembled nanostructure that confers very good bioavailability to the photosensitizer. Hypericin fluorescence is mostly localized at the bacterial wall, and accumulates at the polar regions of the cell and at sites of cell wall growth. While these features are shared by Gram-negative and Gram-positive bacteria, only the latter are effectively photoinactivated by light exposure.

AB - Antibacterial treatments based on photosensitized production of reactive oxygen species is a promising approach to address local microbial infections. Given the small size of bacterial cells, identification of the sites of binding of the photosensitizing molecules is a difficult issue to address with conventional microscopy. We show that the excited state properties of the naturally occurring photosensitizer hypericin can be exploited to perform STED microscopy on bacteria incubated with the complex between hypericin and apomyoglobin, a self-assembled nanostructure that confers very good bioavailability to the photosensitizer. Hypericin fluorescence is mostly localized at the bacterial wall, and accumulates at the polar regions of the cell and at sites of cell wall growth. While these features are shared by Gram-negative and Gram-positive bacteria, only the latter are effectively photoinactivated by light exposure.

KW - Singlet oxygen

KW - Photodynamic therapy

KW - Sted microscopy

KW - In-vitro

KW - Hypericin

KW - Fluorescence

KW - Absorption

KW - Complex

KW - Photophysics

KW - Hypocrellin

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Subdiffraction localization of a nanostructured photosensitizer in bacterial cells

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