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Hair follicle gene expression profiling: A novel system for exploring biomarkers in military operational stress disorders
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Journal of Molecular Biomarkers & Diagnosis

ISSN: 2155-9929

Open Access

Hair follicle gene expression profiling: A novel system for exploring biomarkers in military operational stress disorders


6th International Conference on Biomarkers & Clinical Research

August 31-September 02, 2015 Toronto, Canada

Jing Zhang1, Sarah J Wallace1, Ingrid Smith2, Maria Y Shiu2,3, Alex P DiBattista2,3, Christina Powlesland2, Cathy Boscarino2, Shawn G Rhind2,3 and Valerie S Langlois1

1Royal Military College of Canada, Canada 2Defence Research and Development Canada, Canada 3University of Toronto, Canada

Posters-Accepted Abstracts: J Mol Biomark Diagn

Abstract :

Military personnel commonly exposed to operational stressors (example, intense physical exertion, sleep deprivation and fatigue) during both training activities and combat operations, which are often, associated with mental health disorders including depression and post-traumatic stress disorder. As psycho-physiological changes driven by molecular mechanisms, it is useful to assess corresponding adaptations in gene expression profiles for a better understanding of such responses. Thus, we explored human hair follicles as a robust and accessible biomarker system for both characterization and diagnostic purposes. Four healthy male volunteers performed a 2-week period of high-intensity interval training (HIIT) as an easily quantifiable and reproducible physical stress model. RNA-sequencing was conducted on an Illumina MiSeq platform using the total RNA libraries prepared from the hair follicles collected from the vertex area of the scalp pre- and post-HIIT. The resulting RNA sequences aligned to the human genome. Differential expression (DE) analyzed for protein coding RNA (mRNA), miRNA and long non-coding RNA (lncRNA). Gene ontology (GO) term analysis also conducted. Based on the DE mRNA results, the GO term enrichment showed 192 positively affected terms (example, hormonal control), while 387 (example, immune system process) were negatively enriched upon HIIT. Regarding to miRNA, 48 related GO terms (example, antioxidant response) enriched. We also identified 249 differentially expressed lncRNAs including those involved in RNA processing (example, RMRP). Overall, this study demonstrates that human hair follicles are a valuable resource inproviding molecular signatures linked to operational stress disorders.

Biography :

Jing Zhang is a recent PhD graduate from Carleton University under Dr. Kenneth Storey’s supervision and joined Dr. Valerie Langlois’ group as a Post-doctoral fellow in the fall of 2013. His field is molecular physiology and previous work includes investigating molecular mechanisms behind survival adaptions under extreme environmental conditions in various stress tolerant animal models. Currently, he is focusing on exploring the potential of hair follicle as a diagnostic tool for military activity-related medical conditions including traumatic brain injury (TBI) and operational stress disorders using transcriptomic approaches.

Email: jing.zhang@rmc.ca

Google Scholar citation report
Citations: 2054

Journal of Molecular Biomarkers & Diagnosis received 2054 citations as per Google Scholar report

Journal of Molecular Biomarkers & Diagnosis peer review process verified at publons

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