Project: Psychoimmunological and psychoenergetic correlates of depression
Research questions and key findings
Chronic inflammatory processes and accelerated cell aging are important biological mechanisms that could explain the development of depression on a biological level and mediate the development of typical comorbid diseases. So far, our group observed alterations in telomere length and mitochondrial functioning of immune cells in depressed patients. In addition, changes in the N-glycan profile were found in women with depression.
- 04/2009-03/2014 DFG Emmy Noether Junior Research Group within the DFG Research Unit Science of Social Stress on the topic of stress- and trauma-associated immunological changes and their effects on health
- 04/2019-03/2024 EU ERC Consolidator Grant “Major depression as a metabolic disorder: The role of oxygen homeostasis and mitochondrial bioenergetics in depression etiology and therapy”, Kolassa, I.-T.
- Boeck, C., Salinas-Manrique, J., Calzia, E., Radermacher, P., von Arnim, C. A. F., Detlef, D., Kolassa, I.-T., Karabatsiakis, A. (2018). Targeting the association between telomere length and immune-cellular bioenergetics in female patients with major depressive disorder. Scientific Reports, e9419.
- Boeck, C., Pfister, S., Bürkle, A., Vanhooren, V., Libert, C., Salinas-Manrique, J., Dietrich, D. E., Kolassa, I.-T., Karabatsiakis, A. (2018). Alterations of the serum N-glycan profile in female patients with Major Depressive Disorder. Journal of Affective Disorders, 234, 139-147.
- Karabatsiakis, A., Kolassa, I.-T., Kolassa, S., Rudolph, K.-L., Dietrich, D. E. (2014). Telomere shortening in leukocyte subpopulations in depression. BMC Psychiatry, 14(1): e192.
- Karabatsiakis, A., Boeck, C., Manrique, J.S., Kolassa, S., Calzia, E., Dietrich, D.E., Kolassa, I.-T. (2014). Mitochondrial respiration in peripheral blood mononuclear cells correlates with depressive subsymptoms and severity of major depression. Translational Psychiatry, 4:e397.