Expression of microRNAs and Other Small RNAs in Prefrontal Cortex in Schizophrenia, Bipolar Disorder and Depressed Subjects
Because of the role played by miRNAs in post-transcriptional regulation of an array of genes, their impact in neuropsychiatric disease pathophysiology has increasingly been evident. In the present study, we assessed microRNA expression in prefrontal cortex (Brodmann area 10) of a well-characterized...
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| Published in | PloS one Vol. 9; no. 1; p. e86469 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Public Library of Science
27.01.2014
Public Library of Science (PLoS) |
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| Abstract | Because of the role played by miRNAs in post-transcriptional regulation of an array of genes, their impact in neuropsychiatric disease pathophysiology has increasingly been evident. In the present study, we assessed microRNA expression in prefrontal cortex (Brodmann area 10) of a well-characterized cohort of major depressed, bipolar, and schizophrenia subjects (obtained from Stanley Neuropathology Consortium; n = 15 in each group), using high throughput RT-PCR plates. Discrete miRNA alterations were observed in all disorders, as well as in suicide subjects (pooled across diagnostic categories) compared to all non-suicide subjects. The changes in the schizophrenia group were partially similar to those in the bipolar group, but distinct from changes in depression and suicide. Intriguingly, those miRNAs which were down-regulated in the schizophrenia group tended to be synaptically enriched, whereas up-regulated miRNAs tended not to be. To follow this up, we purified synaptosomes from pooled samples of the schizophrenia vs. control groups and subjected them to Illumina deep sequencing. There was a significant loss of small RNA expression in schizophrenia synaptosomes only for certain sequence lengths within the miRNA range. Moreover, 73 miRNAs were significantly down-regulated whereas only one was up-regulated. Strikingly, across all expressed miRNAs in synaptosomes, there was a significant inverse correlation between the fold-change of a given miRNA seen in schizophrenia and its synaptic enrichment ratio observed in controls. Thus, synaptic miRNAs tended to be down-regulated in schizophrenia, and the more highly synaptically enriched miRNAs tended to show greater down-regulation. These findings point to some deficit in miRNA biogenesis, transport, processing or turnover in schizophrenia that is selective for the synaptic compartment. A novel class of ncRNA-derived small RNAs, shown to be strongly induced during an early phase of learning in mouse, is also expressed in man, and at least one representative (SNORD85) was strongly down-regulated in schizophrenia synaptosomes. |
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| AbstractList | Because of the role played by miRNAs in post-transcriptional regulation of an array of genes, their impact in neuropsychiatric disease pathophysiology has increasingly been evident. In the present study, we assessed microRNA expression in prefrontal cortex (Brodmann area 10) of a well-characterized cohort of major depressed, bipolar, and schizophrenia subjects (obtained from Stanley Neuropathology Consortium; n = 15 in each group), using high throughput RT-PCR plates. Discrete miRNA alterations were observed in all disorders, as well as in suicide subjects (pooled across diagnostic categories) compared to all non-suicide subjects. The changes in the schizophrenia group were partially similar to those in the bipolar group, but distinct from changes in depression and suicide. Intriguingly, those miRNAs which were down-regulated in the schizophrenia group tended to be synaptically enriched, whereas up-regulated miRNAs tended not to be. To follow this up, we purified synaptosomes from pooled samples of the schizophrenia vs. control groups and subjected them to Illumina deep sequencing. There was a significant loss of small RNA expression in schizophrenia synaptosomes only for certain sequence lengths within the miRNA range. Moreover, 73 miRNAs were significantly down-regulated whereas only one was up-regulated. Strikingly, across all expressed miRNAs in synaptosomes, there was a significant inverse correlation between the fold-change of a given miRNA seen in schizophrenia and its synaptic enrichment ratio observed in controls. Thus, synaptic miRNAs tended to be down-regulated in schizophrenia, and the more highly synaptically enriched miRNAs tended to show greater down-regulation. These findings point to some deficit in miRNA biogenesis, transport, processing or turnover in schizophrenia that is selective for the synaptic compartment. A novel class of ncRNA-derived small RNAs, shown to be strongly induced during an early phase of learning in mouse, is also expressed in man, and at least one representative (SNORD85) was strongly down-regulated in schizophrenia synaptosomes. Because of the role played by miRNAs in post-transcriptional regulation of an array of genes, their impact in neuropsychiatric disease pathophysiology has increasingly been evident. In the present study, we assessed microRNA expression in prefrontal cortex (Brodmann area 10) of a well-characterized cohort of major depressed, bipolar, and schizophrenia subjects (obtained from Stanley Neuropathology Consortium; n = 15 in each group), using high throughput RT-PCR plates. Discrete miRNA alterations were observed in all disorders, as well as in suicide subjects (pooled across diagnostic categories) compared to all non-suicide subjects. The changes in the schizophrenia group were partially similar to those in the bipolar group, but distinct from changes in depression and suicide. Intriguingly, those miRNAs which were down-regulated in the schizophrenia group tended to be synaptically enriched, whereas up-regulated miRNAs tended not to be. To follow this up, we purified synaptosomes from pooled samples of the schizophrenia vs. control groups and subjected them to Illumina deep sequencing. There was a significant loss of small RNA expression in schizophrenia synaptosomes only for certain sequence lengths within the miRNA range. Moreover, 73 miRNAs were significantly down-regulated whereas only one was up-regulated. Strikingly, across all expressed miRNAs in synaptosomes, there was a significant inverse correlation between the fold-change of a given miRNA seen in schizophrenia and its synaptic enrichment ratio observed in controls. Thus, synaptic miRNAs tended to be down-regulated in schizophrenia, and the more highly synaptically enriched miRNAs tended to show greater down-regulation. These findings point to some deficit in miRNA biogenesis, transport, processing or turnover in schizophrenia that is selective for the synaptic compartment. A novel class of ncRNA-derived small RNAs, shown to be strongly induced during an early phase of learning in mouse, is also expressed in man, and at least one representative (SNORD85) was strongly down-regulated in schizophrenia synaptosomes.Because of the role played by miRNAs in post-transcriptional regulation of an array of genes, their impact in neuropsychiatric disease pathophysiology has increasingly been evident. In the present study, we assessed microRNA expression in prefrontal cortex (Brodmann area 10) of a well-characterized cohort of major depressed, bipolar, and schizophrenia subjects (obtained from Stanley Neuropathology Consortium; n = 15 in each group), using high throughput RT-PCR plates. Discrete miRNA alterations were observed in all disorders, as well as in suicide subjects (pooled across diagnostic categories) compared to all non-suicide subjects. The changes in the schizophrenia group were partially similar to those in the bipolar group, but distinct from changes in depression and suicide. Intriguingly, those miRNAs which were down-regulated in the schizophrenia group tended to be synaptically enriched, whereas up-regulated miRNAs tended not to be. To follow this up, we purified synaptosomes from pooled samples of the schizophrenia vs. control groups and subjected them to Illumina deep sequencing. There was a significant loss of small RNA expression in schizophrenia synaptosomes only for certain sequence lengths within the miRNA range. Moreover, 73 miRNAs were significantly down-regulated whereas only one was up-regulated. Strikingly, across all expressed miRNAs in synaptosomes, there was a significant inverse correlation between the fold-change of a given miRNA seen in schizophrenia and its synaptic enrichment ratio observed in controls. Thus, synaptic miRNAs tended to be down-regulated in schizophrenia, and the more highly synaptically enriched miRNAs tended to show greater down-regulation. These findings point to some deficit in miRNA biogenesis, transport, processing or turnover in schizophrenia that is selective for the synaptic compartment. A novel class of ncRNA-derived small RNAs, shown to be strongly induced during an early phase of learning in mouse, is also expressed in man, and at least one representative (SNORD85) was strongly down-regulated in schizophrenia synaptosomes. |
| Audience | Academic |
| Author | Rizavi, Hooriyah Zhang, Hui Dwivedi, Yogesh Cook, Edwin H. Lugli, Giovanni Smalheiser, Neil R. |
| AuthorAffiliation | Department of Psychiatry and Psychiatric Institute, University of Illinois at Chicago, Chicago, Illinois, United States of America National Institutes of Health, United States of America |
| AuthorAffiliation_xml | – name: National Institutes of Health, United States of America – name: Department of Psychiatry and Psychiatric Institute, University of Illinois at Chicago, Chicago, Illinois, United States of America |
| Author_xml | – sequence: 1 givenname: Neil R. surname: Smalheiser fullname: Smalheiser, Neil R. – sequence: 2 givenname: Giovanni surname: Lugli fullname: Lugli, Giovanni – sequence: 3 givenname: Hui surname: Zhang fullname: Zhang, Hui – sequence: 4 givenname: Hooriyah surname: Rizavi fullname: Rizavi, Hooriyah – sequence: 5 givenname: Edwin H. surname: Cook fullname: Cook, Edwin H. – sequence: 6 givenname: Yogesh surname: Dwivedi fullname: Dwivedi, Yogesh |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24475125$$D View this record in MEDLINE/PubMed |
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| Copyright | COPYRIGHT 2014 Public Library of Science 2014 Smalheiser et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2014 Smalheiser et al 2014 Smalheiser et al |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 Competing Interests: Co-author Neil R. Smalheiser is a PLOS ONE Editorial Board member. This does not alter the authors’ adherence to all the PLOS ONE policies on sharing data and materials. Conceived and designed the experiments: YD EC GL NS. Performed the experiments: GL HZ HR. Analyzed the data: NS GL YD. Wrote the paper: NS YD EC GL HZ HR. Designed Experiment 1 with equal contribution: YD NS. Designed Experiment 2: EC NS. Designed Experiment 3: GL NS. |
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| References | BH Miller (ref14) 2012; 109 MP Moreau (ref15) 2011; 69 NR Smalheiser (ref32) 2011; 11 Z Li (ref3) 2012; 40 W Berrettini (ref37) 2004; 5 K Fénelon (ref30) 2011; 108 NJ Beveridge (ref12) 2008; 17 DT Humphreys (ref28) 2013; 41 (ref34); 17 HY Hu (ref2) 2011; 7 R Hsu (ref31) 2012; 50 I Pichardo-Casas (ref10) 2012; 1436 NJ Beveridge (ref11) 2010; 15 AH Kim (ref13) 2010; 124 SG Potkin (ref20) 2010; 53 J Kocerha (ref36) 2009; 106 JE Eipper-Mains (ref8) 2011; 17 O de Faria Jr (ref35) 2012; 3 DO Perkins (ref16) 2007; 8 FE Nicolas (ref33) 2012; 58 (ref21) 2011; 43 E Berezikov (ref1) 2006; 38 DM Santarelli (ref17) 2011; 69 NJ Beveridge (ref27) 2012; 46 NR Smalheiser (ref7) 2008; 3 RM Risbud (ref9) 2013; 8 WX Wang (ref29) 2011; 121 N Mellios (ref19) 2009; 65 NR Smalheiser (ref23) 2012; 7 J Feng (ref18) 2009; 4 EF Torrey (ref24) 2000; 44 I Lee (ref26) 2009; 19 G Lugli (ref6) 2012; 123 NR Smalheiser (ref25) 2011; 17 G Lugli (ref4) 2005; 94 S Bandyopadhyay (ref22) 2009; 10 G Lugli (ref5) 2008; 106 |
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| SubjectTerms | Base Sequence Biology Biosynthesis Bipolar disorder Bipolar Disorder - genetics Bipolar Disorder - metabolism Brain research Brodmann's area Cohort Studies Comparative analysis Consortia Depression - genetics Depression - metabolism Diagnostic systems Enrichment Epigenetics Female Gene expression Gene Expression Regulation - genetics Gene regulation Gene sequencing Genes Genetic aspects Genetic transcription Genomes High-Throughput Nucleotide Sequencing Humans Male Medical research Medicine Medicine, Experimental Mental depression Mental disorders MicroRNA MicroRNAs MicroRNAs - metabolism miRNA Molecular Sequence Data Neuropathology Neurophysiology Non-coding RNA Nucleotide sequence Polymerase chain reaction Post-transcription Prefrontal cortex Prefrontal Cortex - metabolism Psychiatry Reverse Transcriptase Polymerase Chain Reaction Ribonucleic acid RNA Schizophrenia Schizophrenia - genetics Schizophrenia - metabolism Sequence Analysis, DNA Statistics, Nonparametric Studies Suicidal Ideation Suicide Synaptosomes Synaptosomes - metabolism |
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| Title | Expression of microRNAs and Other Small RNAs in Prefrontal Cortex in Schizophrenia, Bipolar Disorder and Depressed Subjects |
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