Objective:
To investigate molecular changes associated with chronic posttraumatic stress disorder (PTSD) and their potential link to accelerated biological aging.
Approach:
- Study Population: Analyzed plasma samples from 393 World Trade Center responders, including 232 PTSD patients and 161 trauma-exposed controls.
- Methodology: Utilized the SomaScan platform to measure 9,404 protein analytes and performed targeted metabolomic profiling of 145 metabolites.
- Primary Outcome: Identified differential protein and metabolite expression associated with PTSD.
- Secondary Analyses: Evaluated integrated proteomic-metabolomic networks, enriched biological pathways, and organ-specific proteomic aging.
Key Findings:
- 121 significantly altered protein analytes corresponding to 114 unique proteins and seven differentially expressed metabolites were identified.
- Alterations in proteins NCAN, BCAN, NCAM1, and GDF15 were prominent.
- Increased metabolites included lactate, glutamic acid, cystathionine, hydroxylysine, proline, and sphingomyelin, while serotonin levels decreased.
- Molecular signatures were associated with alterations in energy metabolism, amino acid metabolism, oxidative stress, and neuronal signaling.
- Accelerated biological aging was observed among PTSD patients, particularly in the pancreas and lungs.
Interpretation:
Chronic PTSD may be linked to coordinated redox-metabolic alterations and accelerated biological aging across multiple organ systems.
Limitations:
- Cross-sectional design limits conclusions about causality or temporal relationships.
- Study population was exclusively World Trade Center responders, limiting generalizability.
- Plasma-based biomarkers may not fully reflect biological processes in specific organs or the brain.
- Residual confounding could not be excluded.
Conclusion:
Longitudinal studies are needed to determine if these molecular signatures predict disease progression, treatment response, or long-term health outcomes.
Sources:
This content is an AI-generated, fully rewritten summary based on a published scholarly article. It does not reproduce the original text and is not a substitute for the original publication. Readers are encouraged to consult the source for full context, data, and methodology.