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A novel cryo-reduction method to investigate the molecular mechanism of nitric oxide synthases

Sophie Bernad 1 Albane Brunel 2 Pierre Dorlet 2 Cécile Sicard-Roselli 1, * J. Santolini 2, *
* Corresponding author
2 LSOD - Stress Oxydants et Détoxication
B3S - Département Biochimie, Biophysique et Biologie Structurale
Abstract : Nitric oxide synthases (NOSs) are hemoproteins responsible for the biosynthesis of NO in mammals. They catalyze two successive oxidation reactions. The mechanism of oxygen activation is based on the transfer of two electrons and two protons. Despite structural analogies with cytochromes P450, the molecular mechanism of NOS remains yet to be elucidated. Because of extremely high reaction rates, conventional kinetics methods failed to trap and characterize the major reaction intermediates. Cryo-reduction methods offer a possibility to circumvent this technological lock, by triggering oxygen activation at cryogenic temperatures by using water radiolysis. However, this method is not adapted to the NOS mechanism because of the high instability of the initial Fe(II)O2 complex (extremely fast autoxidation and/or reaction with the cofactor H4B). This imposed a protocol with a stable Fe(II)O2 complex (observed only for one NOS-like protein) and that excludes any redox role for H4B. A relevant approach to the NOS mechanism would use H4B to provide the (second) electron involved in oxygen activation; water radiolysis would thus provide the first electron (heme reduction). In this context, we report here an investigation of the first electron transfer by this alternative approach, i.e., the reduction of native NOS by water radiolysis. We combined EPR and resonance Raman spectroscopies to analyze NOS reduction for a combination of different substrates, cofactor, and oxygen concentrations, and for different NOS isoforms. Our results show that cryo-reduction of native NOS is achieved for all conditions that are relevant to the investigation of the NOS mechanism.
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Sophie Bernad, Albane Brunel, Pierre Dorlet, Cécile Sicard-Roselli, J. Santolini. A novel cryo-reduction method to investigate the molecular mechanism of nitric oxide synthases. Journal of Physical Chemistry B, American Chemical Society, 2012, 116 (19), pp.5595-603. ⟨10.1021/jp300749b⟩. ⟨cea-01233665⟩

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