4.7 Article

Opposite Molecular Signatures of Depression in Men and Women

Journal

BIOLOGICAL PSYCHIATRY
Volume 84, Issue 1, Pages 18-27

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.biopsych.2018.01.017

Keywords

Corticolimbic; Depression; Genetics; Meta-analysis; Mood disorders; Sex difference

Funding

  1. National Institute of Mental Health [MH084060, MH085111, MH103473]
  2. NARSAD Distinguished Scientist Award
  3. Brain and Behavior Research Foundation
  4. Pfizer

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BACKGROUND: Major depressive disorder (MDD) affects women approximately twice as often as men. Women are three times as likely to have atypical depression, with hypersomnia and weight gain. This suggests that the molecular mechanisms of MDD may differ by sex. METHODS: To test this hypothesis, we performed a large-scale gene expression meta-analysis across three corticolimbic brain regions: the dorsolateral prefrontal cortex, subgenual anterior cingulate cortex, and basolateral amygdala (26 men, 24 women with MDD and sex-matched control subjects). Results were further analyzed using a threshold-free approach, Gene Ontology, and cell type-specific analyses. A separate dataset was used for independent validation (13 MDD subjects/sex and 22 control subjects [13 men, 9 women]). RESULTS: Of the 706 genes differentially expressed in men with MDD and 882 genes differentially expressed in women with MDD, only 21 were changed in the same direction in both sexes. Notably, 52 genes displayed expression changes in opposite directions between men and women with MDD. Similar results were obtained using a thresholdfree approach, in which the overall transcriptional profile of MDD was opposite in men and women. Gene Ontology indicated that men with MDD had decreases in synapse-related genes, whereas women with MDD exhibited transcriptional increases in this pathway. Cell type-specific analysis indicated that men with MDD exhibited increases in oligodendrocyte-and microglia-related genes, while women with MDD had decreases in markers of these cell types. CONCLUSIONS: The brain transcriptional profile of MDD differs greatly by sex, with multiple transcriptional changes in opposite directions between men and women with MDD.

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