Adenosine kinase inhibitors.

Adenosine (ADO) is an endogenous modulator of intercellular signaling that provides homeostatic reductions in cell excitability during tissue stress and trauma. The inhibitory actions of ADO are mediated by interactions with specific cell-surface G-protein coupled receptors regulating membrane cation flux, polarization, and the release of excitatory neurotransmitters. ADO kinase (AK; EC 2.7.1.20) is the key intracellular enzyme regulating intra- and extracellular ADO concentrations. Inhibition of AK produces marked increases in extracellular ADO levels that are localized to cells and tissues undergoing accelerated ADO release. Thus AK inhibition represents a mechanism to selectively enhance the protective actions of ADO during tissue trauma without producing the nonspecific effects associated with the systemic administration of ADO receptor agonists. During the last 10 years, specific inhibitors of AK based on the endogenous purine nucleoside substrate, ADO, have been developed. Potent AK inhibitors have recently been synthesized that demonstrate high specificity for this enzyme as compared to other ADO metabolic enzymes, transporters, and receptors. In both in vitro and in vivo models, AK inhibitors have been shown to potently increase ADO concentrations in a tissue and event specific fashion and to demonstrate potential clinical utility in animal models of epilepsy, ischemia, pain, and inflammation. AK inhibitors have demonstrated superior efficacy in these models as compared to other mechanisms of modulating ADO availability, and these agents exhibit reduced side-effect liabilities compared to direct acting ADO receptor agonists. The preclinical profile of AK inhibitors indicate that these agents may have therapeutic utility in a variety of central and peripheral diseases associated with cellular trauma and inflammation. Clinical trials are currently underway to evaluate the efficacy of AK inhibitors in seizure disorders and pain.