The contribution of blockade of adenosine A₁ and A_2A receptor to the psychostimulant effects of caffeine is still a matter of debate. When analyzing motor activity in rats, acutely administered caffeine shows a profile of a non-selective adenosine receptor antagonist, although with preferential A₁ receptor antagonism. On the other hand, tolerance to the effects of A₁ receptor blockade seems to be mostly responsible for the tolerance to the motor-activating effects of caffeine, while the residual motor-activating effects of caffeine in tolerant individuals seem to involve A_2A receptor blockade. These behavioral studies correlate with in vivo microdialysis experiments that suggest that A₁ receptor-mediated modulation of striatal glutamate release is involved in the psychostimulant effects of caffeine. Experiments in transfected cells demonstrate the ability of A₁ receptors to heteromerize with A_2A receptors and the A₁-A_2A receptor heteromer can be biochemically identified in the striatum, in striatal glutamatergic terminals. The striatal A₁-A_2A receptor heteromer provides a "concentration-dependent switch" mechanism by which low and high concentrations of synaptic adenosine produce the opposite effects on glutamate release. The analysis of the function of A₁-A_2A receptor heteromers during chronic treatment with caffeine gives new clues about the well-known phenomenon of tolerance to the psychostimulant effects of caffeine.