Antioxidant β-carotene does not quench singlet oxygen in mammalian cells

Bosio, Gabriela Natalia; Breitenbach, Thomas; Parisi, Julieta Marcia; Reigosa, Miguel Antonio; Blaikie, Frances H.; Pedersen, Brian W.; Silva, Elsa F. F.; Martire, Daniel Osvaldo; Ogilby, Peter R.

info:eu-repo/semantics/article

Fecha

2013-01

Registro en:

Bosio, Gabriela Natalia; Breitenbach, Thomas; Parisi, Julieta Marcia; Reigosa, Miguel Antonio; Blaikie, Frances H.; et al.; Antioxidant β-carotene does not quench singlet oxygen in mammalian cells; American Chemical Society; Journal of the American Chemical Society; 135; 1; 1-2013; 272-279

0002-7863

http://hdl.handle.net/11336/83535

CONICET Digital

CONICET

https://repositorioslatinoamericanos.uchile.cl/handle/2250/4383802

Autor

Bosio, Gabriela Natalia

Breitenbach, Thomas

Parisi, Julieta Marcia

Reigosa, Miguel Antonio

Blaikie, Frances H.

Pedersen, Brian W.

Silva, Elsa F. F.

Martire, Daniel Osvaldo

Ogilby, Peter R.

Institución

Consejo Nacional de Investigaciones Científicas y Tecnológicas (Argentina)

Resumen

Carotenoids, and β-carotene in particular, are important natural antioxidants. Singlet oxygen, the lowest excited state of molecular oxygen, is an intermediate often involved in natural oxidation reactions. The fact that β-carotene efficiently quenches singlet oxygen in solution-phase systems is invariably invoked when explaining the biological antioxidative properties of β-carotene. We recently developed unique microscope-based time-resolved spectroscopic methods that allow us to directly examine singlet oxygen in mammalian cells. We now demonstrate that intracellular singlet oxygen, produced in a photosensitized process, is in fact not efficiently deactivated by β-carotene. This observation requires a re-evaluation of β-carotene's role as an antioxidant in mammalian systems and now underscores the importance of mechanisms by which β-carotene inhibits radical reactions.

Materias

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