The netrin receptor DCC is required in the pubertal organization of mesocortical dopamine circuitry

Abstract

Netrins are guidance cues involvedinneural connectivity.Wehave shownthat the netrin-1 receptor DCC (deletedin colorectal cancer) is involvedinthefunctionalorganizationofthemesocorticolimbic dopamine(DA)system.Adult micewithaheterozygousloss-of-function mutation in dcc exhibit changes in indexes of DA function, including DA-related behaviors. These phenotypes are only observed after puberty,acritical periodinthe maturationofthe mesocortical DAprojection. Here, weexamined whether dcc heterozygous mice exhibit structural changes in medial prefrontal cortex (mPFC) DA synaptic connectivity, before and after puberty. Stereological counts of tyrosine-hydroxylase (TH)-positive varicosities were increased in the cingulate 1 and prelimbic regions of the pregenual mPFC. dcc heterozygous mice also exhibited alterations in the size, complexity, and dendritic spine density of mPFC layer V pyramidal neuron basilar dendritic arbors. Remarkably, these presynaptic and postsynaptic partner phenotypes were not observed in juvenile mice, suggesting that DCC selectively influences the extensive branching and synaptic differentiation that occurs in the maturing mPFC DA circuitatpuberty.Immunolabelingexperimentsinwild-typemice demonstratedthat DCCissegregatedtoTH-positivefibersinnervating the nucleus accumbens, with only scarce DCC labeling in mPFC TH-positive fibers. Netrin had an inverted target expression pattern. Thus, DCC-mediated netrin-1 signaling may influence the formation/maintenance of mesocorticolimbic DA topography. In support of this, we report that dcc heterozygous mice exhibit a twofold increase in the density of mPFC DCC/TH-positive varicosities. Our results implicate DCC-mediated netrin-1 signaling in the establishment of mPFC DA circuitry during puberty. © 2011 the authors.