Adenosine has a significant role in many functions of the central nervous system. Behaviorally, adenosine and adenosine analogs have marked depressant effects. Electrophysiologically, adenosine reduces spontaneous neuronal activity and inhibits transsynaptic potentials $\text{via}$ interaction with extracellular receptors. Biochemically, adenosine inhibits adenylate cyclase $\text{via}$ a “high” affinity receptor, and activates adenylate cyclase $\text{via}$ a “low” affinity receptor. These receptors, called “A₁” and “A₂” respectively, show differing profiles for activation by adenosine analogs. Radioactive N⁶-cyclohexyladenosine binds selectively to the “high” affinity receptor. One major class of antagonists is known at adenosine receptors: the alkylxanthines, including caffeine and theophylline. Radioactive 1,3-diethyl-8-phenylxanthine, a particularly potent antagonist, appears to bind to both low and high affinity adenosine receptors. Behavioral, electrophysiological, and biochemical effects of alkylxanthines are consistent with the hypothesis that the central stimulatory actions of caffeine and theophylline are due in large part to antagonism of central adenosine receptors.