Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells

Aaron Topol; Shijia Zhu; Brigham J. Hartley; Jane English; Mads E. Hauberg; Ngoc Tran; Chelsea Ann Rittenhouse; Anthony Simone; Douglas M. Ruderfer; Jessica Johnson; Ben Readhead; Yoav Hadas; Peter A. Gochman; Ying Chih Wang; Hardik Shah; Gerard Cagney; Judith Rapoport; Fred H. Gage; Joel T. Dudley; Pamela Sklar; Manuel Mattheisen; David Cotter; Gang Fang; Kristen J. Brennand

doi:10.1016/j.celrep.2016.03.090

Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells

Aaron Topol, Shijia Zhu, Brigham J. Hartley, Jane English, Mads E. Hauberg, Ngoc Tran, Chelsea Ann Rittenhouse, Anthony Simone, Douglas M. Ruderfer, Jessica Johnson, Ben Readhead, Yoav Hadas, Peter A. Gochman, Ying Chih Wang, Hardik Shah, Gerard Cagney, Judith Rapoport, Fred H. Gage, Joel T. Dudley, Pamela SklarManuel Mattheisen, David Cotter, Gang Fang, Kristen J. Brennand

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98 Scopus citations

Abstract

Converging evidence indicates that microRNAs (miRNAs) may contribute to disease risk for schizophrenia (SZ). We show that microRNA-9 (miR-9) is abundantly expressed in control neural progenitor cells (NPCs) but also significantly downregulated in a subset of SZ NPCs. We observed a strong correlation between miR-9 expression and miR-9 regulatory activity in NPCs as well as between miR-9 levels/activity, neural migration, and diagnosis. Overexpression of miR-9 was sufficient to ameliorate a previously reported neural migration deficit in SZ NPCs, whereas knockdown partially phenocopied aberrant migration in control NPCs. Unexpectedly, proteomic- and RNA sequencing (RNA-seq)-based analysis revealed that these effects were mediated primarily by small changes in expression of indirect miR-9 targets rather than large changes in direct miR-9 targets; these indirect targets are enriched for migration-associated genes. Together, these data indicate that aberrant levels and activity of miR-9 may be one of the many factors that contribute to SZ risk, at least in a subset of patients. Topol et al. examine the role of decreased miR-9 levels in a subset of schizophrenia patient-derived neural progenitor cells from two independent cohorts. They observe a strong correlation between miR-9 expression and miR-9 regulatory activity. Manipulation of miR-9 impacts neural migration most likely through changes to many indirect miR-9 targets.

Original language	English (US)
Pages (from-to)	1024-1036
Number of pages	13
Journal	Cell reports
Volume	15
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2016.03.090
State	Published - May 3 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 The Authors.

Keywords

Human-induced pluripotent stem cell
MicroRNA-9
Neural progenitor cells
Schizophrenia

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10.1016/j.celrep.2016.03.090

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Topol, A., Zhu, S., Hartley, B. J., English, J., Hauberg, M. E., Tran, N., Rittenhouse, C. A., Simone, A., Ruderfer, D. M., Johnson, J., Readhead, B., Hadas, Y., Gochman, P. A., Wang, Y. C., Shah, H., Cagney, G., Rapoport, J., Gage, F. H., Dudley, J. T., ... Brennand, K. J. (2016). Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells. Cell reports, 15(5), 1024-1036. https://doi.org/10.1016/j.celrep.2016.03.090

Topol, A, Zhu, S, Hartley, BJ, English, J, Hauberg, ME, Tran, N, Rittenhouse, CA, Simone, A, Ruderfer, DM, Johnson, J, Readhead, B, Hadas, Y, Gochman, PA, Wang, YC, Shah, H, Cagney, G, Rapoport, J, Gage, FH, Dudley, JT, Sklar, P, Mattheisen, M, Cotter, D, Fang, G & Brennand, KJ 2016, 'Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells', Cell reports, vol. 15, no. 5, pp. 1024-1036. https://doi.org/10.1016/j.celrep.2016.03.090

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title = "Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells",

abstract = "Converging evidence indicates that microRNAs (miRNAs) may contribute to disease risk for schizophrenia (SZ). We show that microRNA-9 (miR-9) is abundantly expressed in control neural progenitor cells (NPCs) but also significantly downregulated in a subset of SZ NPCs. We observed a strong correlation between miR-9 expression and miR-9 regulatory activity in NPCs as well as between miR-9 levels/activity, neural migration, and diagnosis. Overexpression of miR-9 was sufficient to ameliorate a previously reported neural migration deficit in SZ NPCs, whereas knockdown partially phenocopied aberrant migration in control NPCs. Unexpectedly, proteomic- and RNA sequencing (RNA-seq)-based analysis revealed that these effects were mediated primarily by small changes in expression of indirect miR-9 targets rather than large changes in direct miR-9 targets; these indirect targets are enriched for migration-associated genes. Together, these data indicate that aberrant levels and activity of miR-9 may be one of the many factors that contribute to SZ risk, at least in a subset of patients. Topol et al. examine the role of decreased miR-9 levels in a subset of schizophrenia patient-derived neural progenitor cells from two independent cohorts. They observe a strong correlation between miR-9 expression and miR-9 regulatory activity. Manipulation of miR-9 impacts neural migration most likely through changes to many indirect miR-9 targets.",

keywords = "Human-induced pluripotent stem cell, MicroRNA-9, Neural progenitor cells, Schizophrenia",

author = "Aaron Topol and Shijia Zhu and Hartley, {Brigham J.} and Jane English and Hauberg, {Mads E.} and Ngoc Tran and Rittenhouse, {Chelsea Ann} and Anthony Simone and Ruderfer, {Douglas M.} and Jessica Johnson and Ben Readhead and Yoav Hadas and Gochman, {Peter A.} and Wang, {Ying Chih} and Hardik Shah and Gerard Cagney and Judith Rapoport and Gage, {Fred H.} and Dudley, {Joel T.} and Pamela Sklar and Manuel Mattheisen and David Cotter and Gang Fang and Brennand, {Kristen J.}",

note = "Publisher Copyright: {\textcopyright} 2016 The Authors.",

year = "2016",

month = may,

day = "3",

doi = "10.1016/j.celrep.2016.03.090",

language = "English (US)",

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T1 - Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells

AU - Topol, Aaron

AU - Zhu, Shijia

AU - Hartley, Brigham J.

AU - English, Jane

AU - Hauberg, Mads E.

AU - Tran, Ngoc

AU - Rittenhouse, Chelsea Ann

AU - Simone, Anthony

AU - Ruderfer, Douglas M.

AU - Johnson, Jessica

AU - Readhead, Ben

AU - Hadas, Yoav

AU - Gochman, Peter A.

AU - Wang, Ying Chih

AU - Shah, Hardik

AU - Cagney, Gerard

AU - Rapoport, Judith

AU - Gage, Fred H.

AU - Dudley, Joel T.

AU - Sklar, Pamela

AU - Mattheisen, Manuel

AU - Cotter, David

AU - Fang, Gang

AU - Brennand, Kristen J.

PY - 2016/5/3

Y1 - 2016/5/3

N2 - Converging evidence indicates that microRNAs (miRNAs) may contribute to disease risk for schizophrenia (SZ). We show that microRNA-9 (miR-9) is abundantly expressed in control neural progenitor cells (NPCs) but also significantly downregulated in a subset of SZ NPCs. We observed a strong correlation between miR-9 expression and miR-9 regulatory activity in NPCs as well as between miR-9 levels/activity, neural migration, and diagnosis. Overexpression of miR-9 was sufficient to ameliorate a previously reported neural migration deficit in SZ NPCs, whereas knockdown partially phenocopied aberrant migration in control NPCs. Unexpectedly, proteomic- and RNA sequencing (RNA-seq)-based analysis revealed that these effects were mediated primarily by small changes in expression of indirect miR-9 targets rather than large changes in direct miR-9 targets; these indirect targets are enriched for migration-associated genes. Together, these data indicate that aberrant levels and activity of miR-9 may be one of the many factors that contribute to SZ risk, at least in a subset of patients. Topol et al. examine the role of decreased miR-9 levels in a subset of schizophrenia patient-derived neural progenitor cells from two independent cohorts. They observe a strong correlation between miR-9 expression and miR-9 regulatory activity. Manipulation of miR-9 impacts neural migration most likely through changes to many indirect miR-9 targets.

AB - Converging evidence indicates that microRNAs (miRNAs) may contribute to disease risk for schizophrenia (SZ). We show that microRNA-9 (miR-9) is abundantly expressed in control neural progenitor cells (NPCs) but also significantly downregulated in a subset of SZ NPCs. We observed a strong correlation between miR-9 expression and miR-9 regulatory activity in NPCs as well as between miR-9 levels/activity, neural migration, and diagnosis. Overexpression of miR-9 was sufficient to ameliorate a previously reported neural migration deficit in SZ NPCs, whereas knockdown partially phenocopied aberrant migration in control NPCs. Unexpectedly, proteomic- and RNA sequencing (RNA-seq)-based analysis revealed that these effects were mediated primarily by small changes in expression of indirect miR-9 targets rather than large changes in direct miR-9 targets; these indirect targets are enriched for migration-associated genes. Together, these data indicate that aberrant levels and activity of miR-9 may be one of the many factors that contribute to SZ risk, at least in a subset of patients. Topol et al. examine the role of decreased miR-9 levels in a subset of schizophrenia patient-derived neural progenitor cells from two independent cohorts. They observe a strong correlation between miR-9 expression and miR-9 regulatory activity. Manipulation of miR-9 impacts neural migration most likely through changes to many indirect miR-9 targets.

KW - Human-induced pluripotent stem cell

KW - MicroRNA-9

KW - Neural progenitor cells

KW - Schizophrenia

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JO - Cell reports

JF - Cell reports

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ER -

Dysregulation of miRNA-9 in a Subset of Schizophrenia Patient-Derived Neural Progenitor Cells

Abstract

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