The cerebellar inositol 1,4,5-trisphosphate (InsP3) receptor is a high molecular weight glycoprotein abundantly expressed in Purkinje cells. The subunit structure of the InsP3 receptor protein was examined by cross-linking experiments. Agarose-polyacrylamide gel electrophoresis of the cross-linked materials demonstrated that the cerebellar InsP3 receptor protein is composed of four noncovalently bound identical subunits each with a Mr of 320,000 in both purified and microsome-bound states. Chromatography of the purified receptor on a calmodulin-Sepharose column demonstrated a Ca2(+)-dependent interaction of the InsP3 receptor with calmodulin. Photoaffinity labeling of the cerebellar microsomal fraction with [alpha-32P]8-azidoadenosine 5'-triphosphate revealed the presence of ATP-binding site in the InsP3 receptor. Scatchard analysis of the purified InsP3 receptor revealed the Bmax and Kd values for ATP binding of 2.3 pmol/micrograms and 17 microM, respectively. Reconstitution of the purified InsP3 receptor into the planar lipid bilayer indicated channel activity in the purified receptor. It exhibited a calcium conductance (26 pS in 53 mM Ca2+) and sodium conductance (21 pS in 100-500 mM asymmetric Na+ solutions) with permeability ratios of PCa/PTris = 6.3 and PNa/PCl = 5.4. The purified channel was activated with submillimolar ATP in the presence of InsP3 and modified to reach a large conductance state.