Abstract
Deployed soldiers are at risk of developing stress-related conditions, including posttraumatic stress disorder (PTSD), major depressive disorder (MDD), and severe fatigue. We previously observed condition- and cell-specific differences in sensitivity of immune cells for regulation by glucocorticoids (GCs) pre-deployment between male soldiers with and without subsequent development of high levels of these stress-related symptoms. Here we investigated whether these pre-deployment dysregulations in GC-sensitivity of immune cells persisted after return from military deployment.
In a prospective, longitudinal study including 721 male and female soldiers, the in vitro GC-sensitivity of monocytes and T-cells was assessed prior to deployment and one and six months post-deployment. Differences in the longitudinal course of sensitivity for regulation by dexamethasone (DEX) of LPS-stimulated TNF-α production and PHA-stimulated T-cell proliferation between soldiers with and without subsequent symptom development were investigated using linear mixed models. Within the whole group, DEX-sensitivity of monocytes was significantly decreased at six months post-deployment compared to the assessments pre-deployment and one month post-deployment. The DEX-sensitivity of T-cells did not significantly change over time. Participants developing high levels of PTSD symptoms showed high DEX-sensitivity of T-cells, while participants developing high levels of depressive symptoms showed low DEX-sensitivity of T-cells before deployment that persisted at the two time points after return. In addition, participants developing severe fatigue had low DEX-sensitivity of monocytes at all assessments.
Our finding that the previously observed pre-deployment group differences in peripheral GC-sensitivity persisted until at least six months after return indicates that in vitro GC-sensitivity of T-cells and monocytes may represent a persistent biological vulnerability factor for development of stress-related conditions PTSD, depression and fatigue.
In a prospective, longitudinal study including 721 male and female soldiers, the in vitro GC-sensitivity of monocytes and T-cells was assessed prior to deployment and one and six months post-deployment. Differences in the longitudinal course of sensitivity for regulation by dexamethasone (DEX) of LPS-stimulated TNF-α production and PHA-stimulated T-cell proliferation between soldiers with and without subsequent symptom development were investigated using linear mixed models. Within the whole group, DEX-sensitivity of monocytes was significantly decreased at six months post-deployment compared to the assessments pre-deployment and one month post-deployment. The DEX-sensitivity of T-cells did not significantly change over time. Participants developing high levels of PTSD symptoms showed high DEX-sensitivity of T-cells, while participants developing high levels of depressive symptoms showed low DEX-sensitivity of T-cells before deployment that persisted at the two time points after return. In addition, participants developing severe fatigue had low DEX-sensitivity of monocytes at all assessments.
Our finding that the previously observed pre-deployment group differences in peripheral GC-sensitivity persisted until at least six months after return indicates that in vitro GC-sensitivity of T-cells and monocytes may represent a persistent biological vulnerability factor for development of stress-related conditions PTSD, depression and fatigue.
Original language | English |
---|---|
Pages (from-to) | 513-524 |
Journal | Psychoneuroendocrinology |
Volume | 51 |
DOIs | |
Publication status | Published - Sept 2014 |
Externally published | Yes |