Suicide is the 3rd leading cause of death in the US ages between 15-34 years and about one million people commit suicide every year world-wide. Thus, there is a desperate need for identifying risk factors and for non- invasive, reliable biomarkers that can be used for early detection of suicidality and treatment response. Recently, microRNAs (miRNAs) have emerged as an important class of small non-coding RNAs that bind to 3' UTR of mRNAs and suppress the translation and/or stability of specific target genes. Since miRNAs show a highly regulated expression, they contribute in the development and maintenance of a specific transcriptome and thus have the unique ability to influence physiological and disease phenotypes. Our recent studies show that the expression of a group of miRNAs is altered in brain of depressed subjects and that they are involved in coping response to stress. In addition, our preliminary data indicate that a subset of miRNAs is specifically altered in brain of suicide subjects regardless of psychopathology, suggesting that miRNAs can distinguish suicidality. Recently, circulating miRNAs are under intense investigation and have been extremely useful in detecting and following the course of various diseases. Neural miRNAs are responsive to environmental, synaptic, and pathological changes and can be actively secreted by cells such as exosomes from brain into blood. These exosomes bear cell-type specific surface markers. Using a neural specific surface marker, we successfully isolated neural-derived exosomes and found that these exosomes are enriched with miRNAs/mRNAs that are expressed in brain. Using this novel approach we aim to examine whether neural- derived exosomal miRNAs are differentially expressed that are specific to suicidal ideation or behavior, and which by affecting specific mRNA targets and pathways, are associated with suicidal behavior and response to ketamine. We will examine the following groups of subjects: 1) major depressive disorder (MDD) with a recent suicide attempt (in past 2 weeks), 2) MDD with serious ideation without recent suicide attempt (in the past 6 months), 3) MDD without clinically significant suicidal ideation or suicide attempt in the past 6 months, and 4) healthy controls. Both suicidal and non-suicidal MDD will be given ketamine (0.5 mg/kg, IV) and blood drawn at 30 and 180 min post-infusion to measure changes in miRNAs. We also propose a parallel human postmortem brain study to examine whether changes in miRNAs in suicidality correspond to miRNA changes in brain by comparing dlPFC and hippocampus from MDD suicide, MDD non-suicide, and control subjects. With this we attempt to achieve: 1) whether suicidal ideation or behavior is associated with differences in the expression of specific miRNAs, 2) whether anti-suicidal/antidepressant effects of ketamine is associated with miRNAs changes, and 3) whether miRNA/mRNA-regulatory pathways contribute to suicide pathogenesis and treatment response. Our study will provide a novel avenue for the development of miRNAs as ''molecular tool'' to identify suicidality and treatment response and in generating target based therapies to treat this devastating disorder.

Public Health Relevance

Our proposed study will provide novel avenues for the development of miRNAs as ''molecular tools'' to diagnose suicidal behavior and therapeutic response of anti-suicidal agents with the potential to generate new molecular-based therapies to treat this devastating disorder.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
5R01MH107183-04
Application #
9459995
Study Section
Neural Basis of Psychopathology, Addictions and Sleep Disorders Study Section (NPAS)
Program Officer
Meinecke, Douglas L
Project Start
2015-04-01
Project End
2020-03-31
Budget Start
2018-04-01
Budget End
2019-03-31
Support Year
4
Fiscal Year
2018
Total Cost
Indirect Cost
Name
University of Alabama Birmingham
Department
Psychiatry
Type
Schools of Medicine
DUNS #
063690705
City
Birmingham
State
AL
Country
United States
Zip Code
35294
Ludwig, Birgit; Dwivedi, Yogesh (2018) The concept of violent suicide, its underlying trait and neurobiology: A critical perspective. Eur Neuropsychopharmacol 28:243-251
Wang, Qingzhong; Roy, Bhaskar; Turecki, Gustavo et al. (2018) Role of Complex Epigenetic Switching in Tumor Necrosis Factor-? Upregulation in the Prefrontal Cortex of Suicide Subjects. Am J Psychiatry 175:262-274
Ludwig, Birgit; Roy, Bhaskar; Dwivedi, Yogesh (2018) Role of HPA and the HPG Axis Interaction in Testosterone-Mediated Learned Helpless Behavior. Mol Neurobiol :
Dwivedi, Yogesh (2018) MicroRNAs in depression and suicide: Recent insights and future perspectives. J Affect Disord 240:146-154
Roy, Bhaskar; Wang, Qingzhong; Dwivedi, Yogesh (2018) Long Noncoding RNA-Associated Transcriptomic Changes in Resiliency or Susceptibility to Depression and Response to Antidepressant Treatment. Int J Neuropsychopharmacol 21:461-472
Ii Timberlake, Matthew; Dwivedi, Yogesh (2018) Linking unfolded protein response to inflammation and depression: potential pathologic and therapeutic implications. Mol Psychiatry :
Timberlake 2nd, Matthew; Prall, Kevin; Roy, Bhaskar et al. (2018) Unfolded protein response and associated alterations in toll-like receptor expression and interaction in the hippocampus of restraint rats. Psychoneuroendocrinology 89:185-193
Wang, Qingzhong; Shelton, Richard C; Dwivedi, Yogesh (2018) Interaction between early-life stress and FKBP5 gene variants in major depressive disorder and post-traumatic stress disorder: A systematic review and meta-analysis. J Affect Disord 225:422-428
Roy, Bhaskar; Wang, Qingzhong; Palkovits, Miklos et al. (2017) Altered miRNA expression network in locus coeruleus of depressed suicide subjects. Sci Rep 7:4387
Wang, Qingzhong; Dwivedi, Yogesh (2017) Transcriptional profiling of mitochondria associated genes in prefrontal cortex of subjects with major depressive disorder. World J Biol Psychiatry 18:592-603

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