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Epigenomics Volume 12, 2020 - Issue 24
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Systematic Review

Biomarkers for Suicidal Behavior: miRNAs and their Potential for Diagnostics through Liquid Biopsy – a Systematic Review

Katarina Kouter1 University of Ljubljana, Faculty of Medicine, Institute of Biochemistry and Molecular Genetics, Medical Centre for Molecular Biology, Vrazov trg 2, SI-1000 Ljubljana, SloveniaORCID Iconhttps://orcid.org/0000-0002-1051-959XView further author information
ORCID Icon &
Alja Videtič Paska1 University of Ljubljana, Faculty of Medicine, Institute of Biochemistry and Molecular Genetics, Medical Centre for Molecular Biology, Vrazov trg 2, SI-1000 Ljubljana, SloveniaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-1182-5417View further author information
ORCID Icon
Pages 2219-2235 | Received 15 May 2020, Accepted 04 Oct 2020, Published online: 22 Dec 2020

References

  • World Health Organization . Global Health Estimates (2018). www.who.int/healthinfo/global_burden_disease/en/
  • Marusic A , FarmerA. Genetic risk factors as possible causes of the variation in European suicide rates. Br. J. Psychiatry179, 194–196 (2001).
  • Bertolote JM , FleischmannA. Suicidal behavior prevention: WHO perspectives on research. Am. J. Med. Genet. C, Semin. Med. Genet.133C(1), 8–12 (2005).
  • Brent DA , MannJJ. Family genetic studies, suicide, and suicidal behavior. Am. J. Med. Genet. C Semin. Med. Genet.133C(1), 13–24 (2005).
  • Bondy B , BuettnerA , ZillP. Genetics of suicide. Molec. Psychiatry11(4), 336–351 (2006).
  • Brezo J , ParisJ , TureckiG. Personality traits as correlates of suicidal ideation, suicide attempts, and suicide completions: a systematic review. Acta Psychiat. Scand.113(3), 180–206 (2006).
  • Agerbo E , NordentoftM , MortensenPB. Familial, psychiatric, and socioeconomic risk factors for suicide in young people: nested case-control study. Brit. Med. J.325(7355), 74 (2002).
  • Qin P , AgerboE , MortensenPB. Suicide risk in relation to family history of completed suicide and psychiatric disorders: a nested case-control study based on longitudinal registers. Lancet360(9340), 1126–1130 (2002).
  • Qin P , AgerboE , MortensenPB. Suicide risk in relation to socioeconomic, demographic, psychiatric, and familial factors: a national register-based study of all suicides in Denmark, 1981–1997. Am. J. Psychiatry160(4), 765–772 (2003).
  • Runeson B , AsbergM. Family history of suicide among suicide victims. Am. J. Psychiatry160(8), 1525–1526 (2003).
  • Tidemalm D , RunesonB , WaernMet al. Familial clustering of suicide risk: a total population study of 11.4 million individuals. Psycholog. Med.41(12), 2527–2534 (2011).
  • Voracek M , LoiblLM. Genetics of suicide: a systematic review of twin studies. Wiener klinische Wochenschrift119(15–16), 463–475 (2007).
  • Von Borczyskowski A , LindbladF , VinnerljungBet al. Familial factors and suicide: an adoption study in a Swedish national cohort. Psycholog. Med.41(4), 749–758 (2011).
  • Asberg M , TraskmanL , ThorenP. 5-HIAA in the cerebrospinal fluid. A biochemical suicide predictor?Arch. Gen. Psychiatry33(10), 1193–1197 (1976).
  • Zai CC , DeLuca V , StraussJet al. Genetic factors and suicidal behavior. In: The Neurobiological Basis of Suicide.DwivediY ( Ed.). CRC Press, FL, USA (2012).
  • Andriessen K , Videtic-PaskaA. Genetic vulnerability as a distal risk factor for suicidal behaviour: historical perspective and current knowledge. Zdravstveno varstvo54(3), 238–251 (2015).
  • Van Vliet J , OatesNA , WhitelawE. Epigenetic mechanisms in the context of complex diseases. Cell. Molec. Life Sci.64(12), 1531–1538 (2007).
  • Relton CL , DaveySmith G. Two-step epigenetic Mendelian randomization: a strategy for establishing the causal role of epigenetic processes in pathways to disease. Int. J. Epidemiol.41(1), 161–176 (2012).
  • Diamantopoulos MA , TsiakanikasP , ScorilasA. Non-coding RNAs: the riddle of the transcriptome and their perspectives in cancer. Ann. Transl. Med.6(12), 241 (2018).
  • Kozomara A , BirgaoanuM , Griffiths-JonesS. MIRbase: from microRNA sequences to function. Nucleic Acids Res.47(D1), D155–D162 (2019).
  • Saeedi S , IsraelS , NagyC , TureckiG. The emerging role of exosomes in mental disorders. Transl. Psychiatry9(1), 122 (2019).
  • Gruzdev SK , YakovlevAA , DruzhkovaTAet al. The missing link: how exosomes and miRNAs can help in bridging psychiatry and molecular biology in the context of depression, bipolar disorder and schizophrenia. Cell. Molec. Neurobiol.39(6), 729–750 (2019).
  • Serafini G , PompiliM , InnamoratiMet al. The role of microRNAs in synaptic plasticity, major affective disorders and suicidal behavior. Neurosci. Res.73(3), 179–190 (2012).
  • Moher D , LiberatiA , TetzlaffJet al. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. PLoS Med.6(7), e1000097 (2009).
  • Hong QN , FàbreguesS , BartlettGet al. The mixed methods appraisal tool (MMAT) version 2018 for information professionals and researchers. Educat. Informat.34, 1–7 (2018).
  • Aschrafi A , VerheijenJM , GordebekePMet al. MicroRNA-326 acts as a molecular switch in the regulation of midbrain urocortin 1 expression. J. Psychiatry Neurosci.41(5), 342–353 (2016).
  • Belzeaux R , FioriLM , LopezJPet al. Predicting worsening suicidal ideation with clinical features and peripheral expression of messenger RNA and microRNA during antidepressant treatment. J. Clin. Psychiatry80(3), 18m12556 (2019).
  • Lopez JP , FioriLM , GrossJAet al. Regulatory role of mirnas in polyamine gene expression in the prefrontal cortex of depressed suicide completers. Int. J. Neuropsychopharmacol.17(1), 23–32 (2014).
  • Maussion G , YangJ , YerkoVet al. Regulation of a truncated form of tropomyosin-related kinase b (TRKb) by hsa-miR-185* in frontal cortex of suicide completers. PLoS ONE.7(6), e39301 (2012).
  • Gorinski N , BijataM , PrasadSet al. Attenuated palmitoylation of serotonin receptor 5-HT1a affects receptor function and contributes to depression-like behaviors. Nat. Commun.10(1), 3924 (2019).
  • Wang Q , RoyB , TureckiGet al. Role of complex epigenetic switching in tumor necrosis factor-α up-regulation in the prefrontal cortex of suicide subjects. Am. J. Psychiatry175(3), 262–274 (2018).
  • Lopez JP , FioriLM , CruceanuCet al. MicroRNAs 146a/b-5 and 425-3p and 24-3p are markers of antidepressant response and regulate MAPK/Wnt-system genes. Nat. Commun.8, 15497 (2017).
  • Torres-Berrio A , LopezJP , BagotRCet al. DCC confers susceptibility to depression-like behaviors in humans and mice and is regulated by miR-218. Biol. Psychiatry81(4), 306–315 (2017).
  • Pantazatos SP , HuangYY , RosoklijaGBet al. Whole-transcriptome brain expression and exon-usage profiling in major depression and suicide: evidence for altered glial, endothelial and ATPase activity. Molec. Psychiatry22(5), 760–773 (2017).
  • Pantazatos SP , AndrewsSJ , Dunning-BroadbentJet al. Isoform-level brain expression profiling of the spermidine/spermine N1-acetyltransferase1 (Sat1) gene in major depression and suicide. Neurobiol. Dis.79, 123–134 (2015).
  • Smalheiser NR , LugliG , RizaviHSet al. MicroRNA expression is down-regulated and reorganized in prefrontal cortex of depressed suicide subjects. PLoS ONE7(3), e33201 (2012).
  • Roy B , WangQ , PalkovitsMet al. Altered miRNA expression network in locus coeruleus of depressed suicide subjects. Sci. Rep.7(1), 4387 (2017).
  • Smalheiser NR , LugliG , ZhangHet al. Expression of microRNAs and other small RNAs in prefrontal cortex in schizophrenia, bipolar disorder and depressed subjects. PLoS ONE9(1), e86469 (2014).
  • Zhang Y , ZhaoY , TianCet al. Differential exosomal microRNA profile in the serum of a patient with depression. Eur. J. Psychiatry32(3), 105–112 (2017).
  • Du Y , YuY , HuYet al. Genome-wide, integrative analysis implicates exosome-derived microRNA dysregulation in schizophrenia. Schizophr. Bull.45(6), 1257–1266 (2019).
  • Banigan MG , KaoPF , KozubekJAet al. Differential expression of exosomal microRNAs in prefrontal cortices of schizophrenia and bipolar disorder patients. PLoS ONE8(1), e48814 (2013).
  • Choi JL , KaoPF , ItriagoEet al. MiR-149 and miR-29c as candidates for bipolar disorder biomarkers. Am. J. Med. Genet. B Neuropsychiatr. Genet.174(3), 315–323 (2017).
  • Ceylan D , TufekciKU , KeskinogluPet al. Circulating exosomal microRNAs in bipolar disorder. J. Affect. Disord.262, 99–107 (2020).
  • Fries GR , LimaCNC , ValvassoriSSet al. Preliminary investigation of peripheral extracellular vesicles’ microRNAs in bipolar disorder. J. Affect. Disord.255, 10–14 (2019).
  • Dwivedi Y . Brain-derived neurotrophic factor in suicide pathophysiology. In: The Neurobiological Basis of SuicideDwivediY ( Ed.). CRC Press/Taylor&Francis, Boca Raton (FL) (2012).
  • Brundin L , ErhardtS , BrylevaEYet al. The role of inflammation in suicidal behaviour. Acta Psychiatr. Scand.132(3), 192–203 (2015).
  • Flory JD , DonohueD , MuhieSet al. Gene expression associated with suicide attempts in US veterans. Translat. Psychiatry7(9), e1226–e1226 (2017).
  • Fiori LM , TureckiG. Implication of the polyamine system in mental disorders. J. Psychiatry Neurosci.33(2), 102–110 (2008).
  • Chandley MJ , SzebeniA , SzebeniKet al. Elevated gene expression of glutamate receptors in noradrenergic neurons from the locus coeruleus in major depression. Int. J. Neuropsychopharmacol.17(10), 1569–1578 (2014).
  • Roy B , YoshinoY , AllenLet al. Exploiting circulating microRNAs as biomarkers in psychiatric disorders. Molec. Diagn. Therap.24(3), 279–298 (2020).
  • Finnerty JR , WangWX , HebertSSet al. The miR-15/107 group of microRNA genes: evolutionary biology, cellular functions, and roles in human diseases. J. Molec. Biol.402(3), 491–509 (2010).
  • Brites D , FernandesA. Neuroinflammation and depression: microglia activation, extracellular microvesicles and microRNA dysregulation. Front. Cell. Neurosci.9, 476 (2015).
  • Qin XY , WuHT , CaoCet al. A meta-analysis of peripheral blood nerve growth factor levels in patients with schizophrenia. Molec. Psychiatry22(9), 1306–1312 (2017).
  • Valvezan AJ , KleinPS. Gsk-3 and Wnt signaling in neurogenesis and bipolar disorder. Front. Molec. Neurosci.5, 1 (2012).
  • Consortium RN , PetrovAI , KaySJEet al.RNAcentral: an international database of ncRNA sequences. Nucleic Acids Res.43(Database issue), D123–129 (2015).
  • Bauer ME , TeixeiraAL. Inflammation in psychiatric disorders: what comes first?Ann. NY Acad. Sci.1437(1), 57–67 (2019).
  • Kapinas K , KesslerCB , DelanyAM. MiR-29 suppression of osteonectin in osteoblasts: regulation during differentiation and by canonical Wnt signaling. J. Cell. Biochem.108(1), 216–224 (2009).
  • Brown RAM , EpisMR , HorshamJLet al. Total RNA extraction from tissues for microRNA and target gene expression analysis: not all kits are created equal. BMC Biotechnol.18(1), 16 (2018).
  • Thery C , WitwerKW , AikawaEet al. Minimal Information for Studies of Extracellular Vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines. J. Extracell. Vesicles7(1), 1535750 (2018).
  • Gao L , JiangF. MicroRNA (miRNA) profiling. Method. Molec. Biol.1381, 151–161 (2016).
  • Venigalla H , MekalaHM , HassanMet al. An update on biomarkers in psychiatric disorders—are we aware, do we use in our clinical practice. Mental Health Fam. Med.13, 471–479 (2017).
  • Saliminejad K , KhorramKhorshid HR , GhaffariSH. Why have microRNA biomarkers not been translated from bench to clinic?Future Oncol.15(8), 801–803 (2019).
  • Van Den Berg MMJ , KrauskopfJ , RamaekersJG , KleinjansJCS , PrickaertsJ , BriedeJJ. Circulating microRNAs as potential biomarkers for psychiatric and neurodegenerative disorders. Prog. Neurobiol.185, 101732 (2020).
  • Backes C , MeeseE , KellerA. Specific miRNA disease biomarkers in blood, serum and plasma: challenges and prospects. Molec. Diagn. Ther.20(6), 509–518 (2016).
  • Ku CS , CooperDN , PatrinosGP. The rise and rise of exome sequencing. Public Health Genom.19(6), 315–324 (2016).
  • Pennisi E . Genomics. Encode project writes eulogy for junk DNA. Science.337(6099), 1159–1161 (2012).
  • Griffiths-Jones S , GrocockRJ , Van DongenS , BatemanA , EnrightAJ. MiRbase: MicroRNA sequences, targets and gene nomenclature. Nucleic Acids Res.34(Database issue), D140–144 (2006).
  • Liu C , BaiB , SkogerboGet al. NONCODE: an integrated knowledge database of non-coding RNAs. Nucleic Acids Res.33(Database issue), D112–115 (2005).
  • Jeppesen DK , FenixAM , FranklinJLet al. Reassessment of exosome composition. Cell177(2), 428–445e418 (2019).
  • Roy B , DwivediY. Understanding the neuroepigenetic constituents of suicide brain. Prog. Molec. Biol. Transl.157, 233–262 (2018).

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