Striatal dopamine innervation and receptor density: regional effects of the weaver mutation.

Mice homozygous for the autosomal recessive gene weaver (wv) exhibit a regionally specific depletion of forebrain dopamine (DA). DA is reduced approximately 70% in the dorsal striatum of homozygotes (wv/wv) relative to heterozygous (+/wv) controls while DA content in ventral striatum is relatively unchanged. The goal of the present study was to determine the regional effects of the weaver mutation on striatal DA receptors and DA uptake sites using quantitative autoradiography. Catecholamine histofluorescence was used to examine midbrain DA-containing cell bodies. Compared to behaviorally normal (+/-) littermates, the binding of [3H]spiroperidol to D2 sites was significantly increased in the dorsal but not ventral striatum of wv/wv mice. Binding of the D1 ligand, [3H]SCH23390, was significantly decreased throughout the striatum of wv/wv mice. The binding of [3H]mazindol to DA uptake sites was dramatically reduced in all wv/wv striatal regions except the ventrolateral portion. Compared to +/- littermates, wv/wv mice had far fewer fluorescent cell bodies in the substantia nigra and a less pronounced reduction of ventral tegmental area fluorescent somata. These findings support the hypothesis that heterogeneities exist in the genetic control of the mesotelencephalic DA system. The results underscore the usefulness of the weaver mouse in the study of mesostriatal sub-systems, receptor regulation, and potentially as a model of human neuropathologies that affect distinct populations of cells in the mesotelencephalic system.