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Ellen Appleton

Department of Clinical Neuroscience, Karolinska Institutet, Stockholm, Sweden.

1 paper in the library · 5 citations · publishing 2025

Papers

Enduring modulation of dorsal raphe nuclei regulates (R,S)-ketamine-mediated resilient stress-coping behavior.

Molecular psychiatry June 1, 2025 Anderson Camargo, Anna Nilsson, Reza Shariatgorji et al. 5 citations

Prophylactic ketamine administration buffers passive stress-induced maladaptive behaviors caused by chronic stress exposure. It also prevents stress-induced disturbances of tryptophan metabolism in the dorsal raphe nuclei (DRN) and blocks the reduction of the protein p11 in that region. p11 deficiency increases susceptibility to stress-related depression-like behaviors, and these effects depend partly on p11 function in serotonergic neurons. Viral-mediated reduction of p11 in the DRN produces a stress-susceptible phenotype. The pro-resilience effect of ketamine is lost when p11 is selectively deleted in serotonergic neurons, revealing a previously unexplored role of the DRN circuit in regulating stress susceptibility and ketamine's resilience-enhancing actions.