TY - JOUR T1 - PTSD blood transcriptome mega-analysis: Shared inflammatory pathways across biological sex and modes of traumas JF - bioRxiv DO - 10.1101/123182 SP - 123182 AU - Michael S. Breen AU - Daniel S. Tylee AU - Adam X. Maihofer AU - Thomas C. Neylan AU - Divya Mehta AU - Elisabeth Binder AU - Sharon D. Chandler AU - Jonathan L. Hess AU - William S. Kremen AU - Victoria B. Risbrough AU - Christopher H. Woelk AU - Dewleen G. Baker AU - Caroline M. Nievergelt AU - Ming T. Tsuang AU - Joseph D. Buxbaum AU - Stephen J. Glatt Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/07/30/123182.abstract N2 - Transcriptome-wide screens of peripheral blood during the onset and development of posttraumatic stress disorder (PTSD) indicate widespread immune dysregulation. However, little is known as to whether biological sex and the type of traumatic event influence shared or distinct biological pathways in PTSD. We performed a combined analysis of five independent PTSD blood transcriptome studies covering seven types of trauma in 229 PTSD and 311 comparison individuals to synthesize the extant data. Analyses by trauma type revealed a clear pattern of PTSD gene expression signatures distinguishing interpersonal (IP)-related traumas from combat-related traumas. Co-expression network analyses integrated all data and identified distinct gene expression perturbations across sex and modes of trauma in PTSD, including one wound-healing module down-regulated in men exposed to combat traumas, one IL12-mediated signaling module up-regulated in men exposed to IP-related traumas, and two modules associated with lipid metabolism and MAPK-activity up-regulated in women exposed to IP-related traumas. Remarkably, a high degree of sharing of transcriptional dysregulation across sex and modes of trauma in PTSD was also observed converging on common signaling cascades, including cytokine, innate immune and type I interferon pathways. Collectively, these findings provide a broad view of immune dysregulation in PTSD and demonstrate inflammatory pathways of molecular convergence and specificity, which may inform mechanisms and diagnostic biomarkers for the disorder. ER -