info:eu-repo/semantics/article
Nitric oxide is reduced to HNO (azanone) by ascorbic acid, tyrosine, and other alcohols. A new route for azanone formation in biological media.
Fecha
2015-03Registro en:
Suarez, Sebastian; Neuman, Nicolás Ignacio; Marti, Marcelo Adrian; Álvarez, Lucía; Bikiel, Damian Ezequiel; et al.; Nitric oxide is reduced to HNO (azanone) by ascorbic acid, tyrosine, and other alcohols. A new route for azanone formation in biological media.; American Chemical Society; Journal of the American Chemical Society; 137; 14; 3-2015; 4720-4727
0002-7863
CONICET Digital
CONICET
Autor
Suarez, Sebastian
Neuman, Nicolás Ignacio
Marti, Marcelo Adrian
Álvarez, Lucía
Bikiel, Damian Ezequiel
Brondino, Carlos Dante
Ivanovic Burmazovic, Ivana
Miljkovic, Jan Lj.
Filipovic, Milos R.
Marti, Marcelo Adrian
Doctorovich, Fabio
Resumen
The role of NO in biology is well established. However, an increasing body of evidence suggests that azanone (HNO), could also be involved in biological processes, some of which are attributed to NO. In this context, one of the most important and yet unanswered questions is whether and how HNO is produced in vivo. A possible route concerns the chemical or enzymatic reduction of NO. In the present work, we have taken advantage of a selective HNO sensing method, to show that NO is reduced to HNO by biologically relevant alcohols with moderate reducing capacity, such as ascorbate or tyrosine. The proposed mechanism involves a nucleophilic attack to NO by the alcohol, coupled to a proton transfer (PCNA: proton-coupled nucleophilic attack) and a subsequent decomposition of the so-produced radical to yield HNO and an alkoxyl radical. (Graph Presented).