Genetics of Gene Expression in the Aging Human Brain Reveal TDP-43 Proteinopathy Pathophysiology

Hyun Sik Yang; Charles C. White; Hans Ulrich Klein; Lei Yu; Christopher Gaiteri; Yiyi Ma; Daniel Felsky; Sara Mostafavi; Vladislav A. Petyuk; Reisa A. Sperling; Nilüfer Ertekin-Taner; Julie A. Schneider; David A. Bennett; Philip L. De Jager

doi:10.1016/j.neuron.2020.05.010

Genetics of Gene Expression in the Aging Human Brain Reveal TDP-43 Proteinopathy Pathophysiology

Hyun Sik Yang, Charles C. White, Hans Ulrich Klein, Lei Yu, Christopher Gaiteri, Yiyi Ma, Daniel Felsky, Sara Mostafavi, Vladislav A. Petyuk, Reisa A. Sperling, Nilüfer Ertekin-Taner, Julie A. Schneider, David A. Bennett, Philip L. De Jager

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6 Scopus citations

Abstract

Here, we perform a genome-wide screen for variants that regulate the expression of gene co-expression modules in the aging human brain; we discover and replicate such variants in the TMEM106B and RBFOX1 loci. The TMEM106B haplotype is known to influence the accumulation of TAR DNA-binding protein 43 kDa (TDP-43) proteinopathy, and the haplotype's large-scale transcriptomic effects include the dysregulation of lysosomal genes and alterations in synaptic gene splicing that are also seen in the pathophysiology of TDP-43 proteinopathy. Further, a variant near GRN, another TDP-43 proteinopathy susceptibility gene, shows concordant effects with the TMEM106B haplotype. Leveraging neuropathology data from the same participants, we also show that TMEM106B and APOE-amyloid-β effects converge to alter myelination and lysosomal gene expression, which then contributes to TDP-43 accumulation. These results advance our mechanistic understanding of the TMEM106B TDP-43 risk haplotype and uncover a transcriptional program that mediates the converging effects of APOE-amyloid-β and TMEM106B on TDP-43 aggregation in older adults. Yang et al. perform a genome-wide screen of regulators of gene co-expression modules and identify TMEM106B and RBFOX1 as key aging human brain transcriptome regulators. Furthermore, TMEM106B and APOE-amyloid-β effects converged on a transcriptional program that mediates TDP-43 aggregation, revealing a key pathogenic link between Alzheimer's disease and TDP-43 proteinopathy.

Original language	English (US)
Pages (from-to)	496-508.e6
Journal	Neuron
Volume	107
Issue number	3
DOIs	https://doi.org/10.1016/j.neuron.2020.05.010
State	Published - Aug 5 2020

Keywords

Alzheimer's disease
Amyloid-β
GRN
RBFOX1
TDP-43
TMEM106B
co-expression module
cognitive resilience
eQTL
expression quantitative trait loci
sQTL
splicing quantitative trait loci

ASJC Scopus subject areas

Neuroscience(all)

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10.1016/j.neuron.2020.05.010

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Yang, H. S., White, C. C., Klein, H. U., Yu, L., Gaiteri, C., Ma, Y., Felsky, D., Mostafavi, S., Petyuk, V. A., Sperling, R. A., Ertekin-Taner, N., Schneider, J. A., Bennett, D. A., & De Jager, P. L. (2020). Genetics of Gene Expression in the Aging Human Brain Reveal TDP-43 Proteinopathy Pathophysiology. Neuron, 107(3), 496-508.e6. https://doi.org/10.1016/j.neuron.2020.05.010

@article{f52be992d6154e53819b56d882e03a0e,

title = "Genetics of Gene Expression in the Aging Human Brain Reveal TDP-43 Proteinopathy Pathophysiology",

abstract = "Here, we perform a genome-wide screen for variants that regulate the expression of gene co-expression modules in the aging human brain; we discover and replicate such variants in the TMEM106B and RBFOX1 loci. The TMEM106B haplotype is known to influence the accumulation of TAR DNA-binding protein 43 kDa (TDP-43) proteinopathy, and the haplotype's large-scale transcriptomic effects include the dysregulation of lysosomal genes and alterations in synaptic gene splicing that are also seen in the pathophysiology of TDP-43 proteinopathy. Further, a variant near GRN, another TDP-43 proteinopathy susceptibility gene, shows concordant effects with the TMEM106B haplotype. Leveraging neuropathology data from the same participants, we also show that TMEM106B and APOE-amyloid-β effects converge to alter myelination and lysosomal gene expression, which then contributes to TDP-43 accumulation. These results advance our mechanistic understanding of the TMEM106B TDP-43 risk haplotype and uncover a transcriptional program that mediates the converging effects of APOE-amyloid-β and TMEM106B on TDP-43 aggregation in older adults. Yang et al. perform a genome-wide screen of regulators of gene co-expression modules and identify TMEM106B and RBFOX1 as key aging human brain transcriptome regulators. Furthermore, TMEM106B and APOE-amyloid-β effects converged on a transcriptional program that mediates TDP-43 aggregation, revealing a key pathogenic link between Alzheimer's disease and TDP-43 proteinopathy.",

keywords = "Alzheimer's disease, Amyloid-β, GRN, RBFOX1, TDP-43, TMEM106B, co-expression module, cognitive resilience, eQTL, expression quantitative trait loci, sQTL, splicing quantitative trait loci",

author = "Yang, {Hyun Sik} and White, {Charles C.} and Klein, {Hans Ulrich} and Lei Yu and Christopher Gaiteri and Yiyi Ma and Daniel Felsky and Sara Mostafavi and Petyuk, {Vladislav A.} and Sperling, {Reisa A.} and Nil{\"u}fer Ertekin-Taner and Schneider, {Julie A.} and Bennett, {David A.} and {De Jager}, {Philip L.}",

note = "Funding Information: P.L.D. serves on a scientific advisory board for Neuroimmunology Newco, Roche, Biogen, and Celgene; has a sponsored research agreement with Biogen and Roche; and has fellowship funding through Genentech, outside the submitted work. All other authors declare no competing interests. Funding Information: We thank the participants and study staffs of the Religious Orders Study, the Rush Memory and Aging Project, and the Mayo RNAseq study. This work was funded by the United States National Institutes of Health ( P30AG10161 [D.A.B.], R01AG036836 [P.L.D.], R01AG15819 [D.A.B.], R01AG17917 [D.A.B.], R01AG042210 [J.A.S.], R01AG057911 [C.A.G.], RF1AG051504 [N.E.T.], U01AG046139 [N.E.T.], U01AG046152 [P.L.D. and D.A.B.], and K23AG062750 [H.-S.Y.]) and Alzheimer's Association ( AACF-17-505359 [H.-S.Y.]). Funding Information: We thank the participants and study staffs of the Religious Orders Study, the Rush Memory and Aging Project, and the Mayo RNAseq study. This work was funded by the United States National Institutes of Health (P30AG10161 [D.A.B.], R01AG036836 [P.L.D.], R01AG15819 [D.A.B.], R01AG17917 [D.A.B.], R01AG042210 [J.A.S.], R01AG057911 [C.A.G.], RF1AG051504 [N.E.T.], U01AG046139 [N.E.T.], U01AG046152 [P.L.D. and D.A.B.], and K23AG062750 [H.-S.Y.]) and Alzheimer's Association (AACF-17-505359 [H.-S.Y.]). Conceptualization, H.-S.Y. C.C.W. and P.L.D.; Data Curation, H.-S.Y. C.C.W. H.-U.K. L.Y. C.G. Y.M. D.F. S.M. V.A.P. N.E.-T. J.A.S. D.A.B. and P.L.D.; Formal Analysis, H.-S.Y. and C.C.W.; Funding Acquisition, H.-S.Y. C.A.G. N.E.-T. J.A.S. D.A.B. and P.L.D.; Investigation, H.-S.Y. C.C.W. V.A.P. N.E.-T. J.A.S. D.A.B. and P.L.D.; Methodology, H.-S.Y. C.C.W. H.-U.K. L.Y. C.G. S.M. J.A.S. D.A.B. and P.L.D.; Project Administration, H.-S.Y. and P.L.D.; Resources, N.E.-T. J.A.S. D.A.B. and P.L.D.; Supervision, P.L.D.; Visualization, H.-S.Y. C.C.W. and C.G.; Writing ? Original Draft, H.-S.Y. and P.L.D.; Writing ? Review & Editing, H.-S.Y. C.C.W. H.-U.K. L.Y. C.G. Y.M. D.F. S.M. V.A.P. R.A.S. N.E.-T. J.A.S. D.A.B. and P.L.D. P.L.D. serves on a scientific advisory board for Neuroimmunology Newco, Roche, Biogen, and Celgene; has a sponsored research agreement with Biogen and Roche; and has fellowship funding through Genentech, outside the submitted work. All other authors declare no competing interests. Publisher Copyright: {\textcopyright} 2020 Elsevier Inc.",

year = "2020",

month = aug,

day = "5",

doi = "10.1016/j.neuron.2020.05.010",

language = "English (US)",

volume = "107",

pages = "496--508.e6",

journal = "Neuron",

issn = "0896-6273",

publisher = "Cell Press",

number = "3",

}

TY - JOUR

T1 - Genetics of Gene Expression in the Aging Human Brain Reveal TDP-43 Proteinopathy Pathophysiology

AU - Yang, Hyun Sik

AU - White, Charles C.

AU - Klein, Hans Ulrich

AU - Yu, Lei

AU - Gaiteri, Christopher

AU - Ma, Yiyi

AU - Felsky, Daniel

AU - Mostafavi, Sara

AU - Petyuk, Vladislav A.

AU - Sperling, Reisa A.

AU - Ertekin-Taner, Nilüfer

AU - Schneider, Julie A.

AU - Bennett, David A.

AU - De Jager, Philip L.

N1 - Funding Information: P.L.D. serves on a scientific advisory board for Neuroimmunology Newco, Roche, Biogen, and Celgene; has a sponsored research agreement with Biogen and Roche; and has fellowship funding through Genentech, outside the submitted work. All other authors declare no competing interests. Funding Information: We thank the participants and study staffs of the Religious Orders Study, the Rush Memory and Aging Project, and the Mayo RNAseq study. This work was funded by the United States National Institutes of Health ( P30AG10161 [D.A.B.], R01AG036836 [P.L.D.], R01AG15819 [D.A.B.], R01AG17917 [D.A.B.], R01AG042210 [J.A.S.], R01AG057911 [C.A.G.], RF1AG051504 [N.E.T.], U01AG046139 [N.E.T.], U01AG046152 [P.L.D. and D.A.B.], and K23AG062750 [H.-S.Y.]) and Alzheimer's Association ( AACF-17-505359 [H.-S.Y.]). Funding Information: We thank the participants and study staffs of the Religious Orders Study, the Rush Memory and Aging Project, and the Mayo RNAseq study. This work was funded by the United States National Institutes of Health (P30AG10161 [D.A.B.], R01AG036836 [P.L.D.], R01AG15819 [D.A.B.], R01AG17917 [D.A.B.], R01AG042210 [J.A.S.], R01AG057911 [C.A.G.], RF1AG051504 [N.E.T.], U01AG046139 [N.E.T.], U01AG046152 [P.L.D. and D.A.B.], and K23AG062750 [H.-S.Y.]) and Alzheimer's Association (AACF-17-505359 [H.-S.Y.]). Conceptualization, H.-S.Y. C.C.W. and P.L.D.; Data Curation, H.-S.Y. C.C.W. H.-U.K. L.Y. C.G. Y.M. D.F. S.M. V.A.P. N.E.-T. J.A.S. D.A.B. and P.L.D.; Formal Analysis, H.-S.Y. and C.C.W.; Funding Acquisition, H.-S.Y. C.A.G. N.E.-T. J.A.S. D.A.B. and P.L.D.; Investigation, H.-S.Y. C.C.W. V.A.P. N.E.-T. J.A.S. D.A.B. and P.L.D.; Methodology, H.-S.Y. C.C.W. H.-U.K. L.Y. C.G. S.M. J.A.S. D.A.B. and P.L.D.; Project Administration, H.-S.Y. and P.L.D.; Resources, N.E.-T. J.A.S. D.A.B. and P.L.D.; Supervision, P.L.D.; Visualization, H.-S.Y. C.C.W. and C.G.; Writing ? Original Draft, H.-S.Y. and P.L.D.; Writing ? Review & Editing, H.-S.Y. C.C.W. H.-U.K. L.Y. C.G. Y.M. D.F. S.M. V.A.P. R.A.S. N.E.-T. J.A.S. D.A.B. and P.L.D. P.L.D. serves on a scientific advisory board for Neuroimmunology Newco, Roche, Biogen, and Celgene; has a sponsored research agreement with Biogen and Roche; and has fellowship funding through Genentech, outside the submitted work. All other authors declare no competing interests. Publisher Copyright: © 2020 Elsevier Inc.

PY - 2020/8/5

Y1 - 2020/8/5

N2 - Here, we perform a genome-wide screen for variants that regulate the expression of gene co-expression modules in the aging human brain; we discover and replicate such variants in the TMEM106B and RBFOX1 loci. The TMEM106B haplotype is known to influence the accumulation of TAR DNA-binding protein 43 kDa (TDP-43) proteinopathy, and the haplotype's large-scale transcriptomic effects include the dysregulation of lysosomal genes and alterations in synaptic gene splicing that are also seen in the pathophysiology of TDP-43 proteinopathy. Further, a variant near GRN, another TDP-43 proteinopathy susceptibility gene, shows concordant effects with the TMEM106B haplotype. Leveraging neuropathology data from the same participants, we also show that TMEM106B and APOE-amyloid-β effects converge to alter myelination and lysosomal gene expression, which then contributes to TDP-43 accumulation. These results advance our mechanistic understanding of the TMEM106B TDP-43 risk haplotype and uncover a transcriptional program that mediates the converging effects of APOE-amyloid-β and TMEM106B on TDP-43 aggregation in older adults. Yang et al. perform a genome-wide screen of regulators of gene co-expression modules and identify TMEM106B and RBFOX1 as key aging human brain transcriptome regulators. Furthermore, TMEM106B and APOE-amyloid-β effects converged on a transcriptional program that mediates TDP-43 aggregation, revealing a key pathogenic link between Alzheimer's disease and TDP-43 proteinopathy.

AB - Here, we perform a genome-wide screen for variants that regulate the expression of gene co-expression modules in the aging human brain; we discover and replicate such variants in the TMEM106B and RBFOX1 loci. The TMEM106B haplotype is known to influence the accumulation of TAR DNA-binding protein 43 kDa (TDP-43) proteinopathy, and the haplotype's large-scale transcriptomic effects include the dysregulation of lysosomal genes and alterations in synaptic gene splicing that are also seen in the pathophysiology of TDP-43 proteinopathy. Further, a variant near GRN, another TDP-43 proteinopathy susceptibility gene, shows concordant effects with the TMEM106B haplotype. Leveraging neuropathology data from the same participants, we also show that TMEM106B and APOE-amyloid-β effects converge to alter myelination and lysosomal gene expression, which then contributes to TDP-43 accumulation. These results advance our mechanistic understanding of the TMEM106B TDP-43 risk haplotype and uncover a transcriptional program that mediates the converging effects of APOE-amyloid-β and TMEM106B on TDP-43 aggregation in older adults. Yang et al. perform a genome-wide screen of regulators of gene co-expression modules and identify TMEM106B and RBFOX1 as key aging human brain transcriptome regulators. Furthermore, TMEM106B and APOE-amyloid-β effects converged on a transcriptional program that mediates TDP-43 aggregation, revealing a key pathogenic link between Alzheimer's disease and TDP-43 proteinopathy.

KW - Alzheimer's disease

KW - Amyloid-β

KW - GRN

KW - RBFOX1

KW - TDP-43

KW - TMEM106B

KW - co-expression module

KW - cognitive resilience

KW - eQTL

KW - expression quantitative trait loci

KW - sQTL

KW - splicing quantitative trait loci

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UR - http://www.scopus.com/inward/citedby.url?scp=85086939745&partnerID=8YFLogxK

U2 - 10.1016/j.neuron.2020.05.010

DO - 10.1016/j.neuron.2020.05.010

M3 - Article

C2 - 32526197

AN - SCOPUS:85086939745

SN - 0896-6273

VL - 107

SP - 496-508.e6

JO - Neuron

JF - Neuron

IS - 3

ER -

Genetics of Gene Expression in the Aging Human Brain Reveal TDP-43 Proteinopathy Pathophysiology

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Keywords

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