Shared Neuroanatomy, Separate Mechanism: in vivo ERK and mTOR Manipulations Reveal Female-Specific Molecular Signaling for Auditory Forebrain-Dependent Learning in Juveniles

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Shared Neuroanatomy, Separate Mechanism: in vivo ERK and mTOR Manipulations Reveal Female-Specific Molecular Signaling for Auditory Forebrain-Dependent Learning in Juveniles

Authors

Maheshwar, K. V.; Chari, S.; London, S. E.

Abstract

Developmental experience can produce lasting changes in neural function and behavior. Zebra finch offers a powerful model for identifying the molecular mechanisms underlying this process. Both juvenile male and female zebra finches perform developmental sensory song learning that influences their adult behaviors: in males, the structure of the song they sing and in female, the song preferences they exhibit (females cannot sing). The auditory forebrain, a region distinct from but connected to nodes of the male singing circuitry, is required for male sensory song learning. Song experience induces epigenetic, genomic, molecular, cellular and systems-level alterations in the auditory forebrain of males. Much less evidence is available for females. Although epigenetic and molecular data implicate the auditory forebrain in female sensory song learning, there has been no causal test of its role. Further, molecular evidence indicates the potential for distinct mechanisms for male and female sensory song learning, even though they learn during a largely overlapping developmental period. We used pharmacological manipulations of the ERK and mTOR cascades in the auditory forebrain of juvenile females during controlled tutoring, and an operant assay for adult song preference, to test the causal role of the auditory forebrain and the two cascades known to be required for male sensory song learning. We demonstrate that the auditory forebrain is required for female sensory song learning, and that while ERK signaling is necessary for both sexes, that of mTOR is sex specific. Results raise implications for alternative molecular cascade cross-talks and protein synthesis processes that successfully support the developmental learning at the same age and brain region.

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