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Prefrontal cortex molecular clock modulates development of depression-like phenotype and rapid antidepressant response in mice.

Nature communications (2024-08-24)
David H Sarrazin, Wilf Gardner, Carole Marchese, Martin Balzinger, Chockalingam Ramanathan, Marion Schott, Stanislav Rozov, Maxime Veleanu, Stefan Vestring, Claus Normann, Tomi Rantamäki, Benedicte Antoine, Michel Barrot, Etienne Challet, Patrice Bourgin, Tsvetan Serchov
RÉSUMÉ

Depression is associated with dysregulated circadian rhythms, but the role of intrinsic clocks in mood-controlling brain regions remains poorly understood. We found increased circadian negative loop and decreased positive clock regulators expression in the medial prefrontal cortex (mPFC) of a mouse model of depression, and a subsequent clock countermodulation by the rapid antidepressant ketamine. Selective Bmal1KO in CaMK2a excitatory neurons revealed that the functional mPFC clock is an essential factor for the development of a depression-like phenotype and ketamine effects. Per2 silencing in mPFC produced antidepressant-like effects, while REV-ERB agonism enhanced the depression-like phenotype and suppressed ketamine action. Pharmacological potentiation of clock positive modulator ROR elicited antidepressant-like effects, upregulating plasticity protein Homer1a, synaptic AMPA receptors expression and plasticity-related slow wave activity specifically in the mPFC. Our data demonstrate a critical role for mPFC molecular clock in regulating depression-like behavior and the therapeutic potential of clock pharmacological manipulations influencing glutamatergic-dependent plasticity.

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Anti-GFAP Antibody, Cy3 Conjugate, from mouse, CY3 conjugate
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Anticorps anti-GluR1-NT (NT), clone RH95, clone RH95, from mouse