The Physiological Role of Adenosine In The Central Nervous System

Publisher Summary This chapter discusses the physiological role of adenosine in the central nervous system (CNS). In particular, the chapter's attention is directed to the actions of adenosine and related purines in the CNS. One of the major advances in the understanding of purine actions in the central nervous system is the characterization of high affinity specific receptors for purines in brain membranes. The physiological actions of purines, the receptors and biochemical actions that underlie these functional responses and behavioral responses to purinergic drugs are considered. There are three different adenosine receptor sites in brain, which can be distinguished primarily by their effects upon adenylate cyclase, their pharmacological properties, and by their ability to bind labeled analogs of adenosine. One of the best-characterized physiological actions of adenosine is the inhibition of the release of neurotransmitters, an action that has been unequivocally established at many peripheral synapses. If one thing remains clear, it is that purines have a multitude of complex actions at every level, including the biochemical, physiological, and behavioral. There remains little question, but that adenosine or other purines constitute important and rather ubiquitous regulators of neuronalactivity in brain. Despite the evidence that purines play a significant role in neural function, it has remained difficult to define the functional role(s) of purines in brain.