Neurobiology of Disease (Sep 2020)

Dopamine D1-D2 receptor heteromer expression in key brain regions of rat and higher species: Upregulation in rat striatum after cocaine administration

  • Ahmed Hasbi,
  • Meenalochani Sivasubramanian,
  • Marija Milenkovic,
  • Kristina Komarek,
  • Bertha K. Madras,
  • Susan R. George

Journal volume & issue
Vol. 143
p. 105017

Abstract

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Background: Dopamine receptors interact with other receptors to form heterooligomers. One such complex, the D1-D2 heteromer, demonstrated in cultured striatal neurons and rat striatum has been linked to drug addiction, Parkinson's disease, schizophrenia, depression and anhedonia. Methods: D1-D2 heteromer expression was evaluated using in situ proximity ligation assay, in parallel with cellular colocalization of D1 and D2 mRNA using in situ hybridization in 19 different key rat brain regions. Expression in higher species and changes in rat striatum after repeated cocaine administration were evaluated. Results: Differences in D1-D2 heteromer expression in striatal subregions are documented in higher species with nonhuman primate and human demonstrating higher density of heteromer-expressing neurons compared to rodents. All species had higher density of D1-D2 neurons in nucleus accumbens compared to dorsal striatum. Multiple other brain regions are identified where D1-D2 heteromer is expressed, prominently in cerebral cortical subregions including piriform, medial prefrontal, orbitofrontal and others; subcortical regions such as claustrum, amygdala and lateral habenula. Three categories of regions are identified: D1-D2 heteromer expressed despite little to no observed D1/D2 mRNA colocalization, likely representing heteromer on neuronal projections from other brain regions; D1-D2 heteromer originating locally with the density of neurons expressing heteromer matching neurons with colocalized D1/D2 mRNA; regions with both a local origin and targeted inputs projecting from other regions. Repeated cocaine administration significantly increased density of neurons expressing D1-D2 heteromer and D1/D2 mRNA colocalization in rat striatum, with changes in both direct and indirect pathway neurons. Conclusion: The dopamine D1-D2 heteromer is expressed in key brain cortical and subcortical regions of all species examined. Species differences in striatum revealed greater abundance in human>nonhuman-primate>rat>mouse, suggesting an evolutionary biologic role for the D1-D2 heteromer in higher CNS function. Its upregulation in rat striatum following cocaine points to regulatory significance with possible relevance for clinical disorders such as drug addiction. The dopamine D1-D2 receptor heteromer may represent a potential target for neuropsychiatric and neurodegenerative disorders, given its distribution in highly relevant brain regions.

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