Chemical biology of nitric oxide: Regulation and protective and toxic mechanisms

Publisher Summary This chapter discusses the important aspects of the solution chemistry of nitrogen oxide (NO) and reactive nitrogen oxide species (RNOS), biochemical targets of NO and intermediates in the autoxidation (NO X ), and the effect of NO in the presence of other toxic molecules, such as reactive oxygen species (ROS). There are two types of nitric-oxide synthase: constitutive (cNOS) and inducible (iNOS). Since cNOS generates low levels of NO, direct effects rather than indirect effects of NO would be particularly relevant. In case of iNOS, considerably higher concentrations of NO are formed for longer periods of time; therefore, both direct and indirect effects could be relevant. This chapter discusses, from a chemical perspective, those processes that are involved in the interactions with key cellular components as well as detoxification and control of NO in vivo . Defining the chemical, biochemical, and cellular pathways of NO quantitatively can provide insights into the role that NO plays in the etiology of various diseases that in turn can provide a basis for the development of new therapeutic agents. The chemical biology of NO will provide the understanding as to how NO can be regulatory, toxic, and protective in biological systems.