Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy

Yuhao Min; Xue Wang; Özkan Iş; Tulsi A. Patel; Junli Gao; Joseph S. Reddy; Zachary S. Quicksall; Thuy Nguyen; Shu Lin; Frederick Q. Tutor-New; Jessica L. Chalk; Adriana O. Mitchell; Julia E. Crook; Peter T. Nelson; Linda J. Van Eldik; Todd E. Golde; Minerva M. Carrasquillo; Dennis W. Dickson; Ke Zhang; Mariet Allen; Nilüfer Ertekin-Taner

doi:10.1038/s41467-023-42626-3

Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy

Yuhao Min, Xue Wang, Özkan Iş, Tulsi A. Patel, Junli Gao, Joseph S. Reddy, Zachary S. Quicksall, Thuy Nguyen, Shu Lin, Frederick Q. Tutor-New, Jessica L. Chalk, Adriana O. Mitchell, Julia E. Crook, Peter T. Nelson, Linda J. Van Eldik, Todd E. Golde, Minerva M. Carrasquillo, Dennis W. Dickson, Ke Zhang, Mariet AllenNilüfer Ertekin-Taner

Research output: Contribution to journal › Article › peer-review

Abstract

Progressive supranuclear palsy (PSP) is a neurodegenerative parkinsonian disorder characterized by cell-type-specific tau lesions in neurons and glia. Prior work uncovered transcriptome changes in human PSP brains, although their cell-specificity is unknown. Further, systematic data integration and experimental validation platforms to prioritize brain transcriptional perturbations as therapeutic targets in PSP are currently lacking. In this study, we combine bulk tissue (n = 408) and single nucleus RNAseq (n = 34) data from PSP and control brains with transcriptome data from a mouse tauopathy and experimental validations in Drosophila tau models for systematic discovery of high-confidence expression changes in PSP with therapeutic potential. We discover, replicate, and annotate thousands of differentially expressed genes in PSP, many of which reside in glia-enriched co-expression modules and cells. We prioritize DDR2, STOM, and KANK2 as promising therapeutic targets in PSP with striking cross-species validations. We share our findings and data via our interactive application tool PSP RNAseq Atlas (https://rtools.mayo.edu/PSP_RNAseq_Atlas/). Our findings reveal robust glial transcriptome changes in PSP, provide a cross-species systems biology approach, and a tool for therapeutic target discoveries in PSP with potential application in other neurodegenerative diseases.

Original language	English (US)
Article number	6801
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-42626-3
State	Published - Dec 2023

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Min, Y., Wang, X., Iş, Ö., Patel, T. A., Gao, J., Reddy, J. S., Quicksall, Z. S., Nguyen, T., Lin, S., Tutor-New, F. Q., Chalk, J. L., Mitchell, A. O., Crook, J. E., Nelson, P. T., Van Eldik, L. J., Golde, T. E., Carrasquillo, M. M., Dickson, D. W., Zhang, K., ... Ertekin-Taner, N. (2023). Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy. Nature communications, 14(1), Article 6801. https://doi.org/10.1038/s41467-023-42626-3

Min, Y, Wang, X, Iş, Ö, Patel, TA, Gao, J, Reddy, JS, Quicksall, ZS, Nguyen, T, Lin, S, Tutor-New, FQ, Chalk, JL, Mitchell, AO, Crook, JE, Nelson, PT, Van Eldik, LJ, Golde, TE, Carrasquillo, MM , Dickson, DW , Zhang, K, Allen, M & Ertekin-Taner, N 2023, 'Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy', Nature communications, vol. 14, no. 1, 6801. https://doi.org/10.1038/s41467-023-42626-3

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title = "Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy",

abstract = "Progressive supranuclear palsy (PSP) is a neurodegenerative parkinsonian disorder characterized by cell-type-specific tau lesions in neurons and glia. Prior work uncovered transcriptome changes in human PSP brains, although their cell-specificity is unknown. Further, systematic data integration and experimental validation platforms to prioritize brain transcriptional perturbations as therapeutic targets in PSP are currently lacking. In this study, we combine bulk tissue (n = 408) and single nucleus RNAseq (n = 34) data from PSP and control brains with transcriptome data from a mouse tauopathy and experimental validations in Drosophila tau models for systematic discovery of high-confidence expression changes in PSP with therapeutic potential. We discover, replicate, and annotate thousands of differentially expressed genes in PSP, many of which reside in glia-enriched co-expression modules and cells. We prioritize DDR2, STOM, and KANK2 as promising therapeutic targets in PSP with striking cross-species validations. We share our findings and data via our interactive application tool PSP RNAseq Atlas (https://rtools.mayo.edu/PSP_RNAseq_Atlas/). Our findings reveal robust glial transcriptome changes in PSP, provide a cross-species systems biology approach, and a tool for therapeutic target discoveries in PSP with potential application in other neurodegenerative diseases.",

author = "Yuhao Min and Xue Wang and {\"O}zkan I{\c s} and Patel, {Tulsi A.} and Junli Gao and Reddy, {Joseph S.} and Quicksall, {Zachary S.} and Thuy Nguyen and Shu Lin and Tutor-New, {Frederick Q.} and Chalk, {Jessica L.} and Mitchell, {Adriana O.} and Crook, {Julia E.} and Nelson, {Peter T.} and {Van Eldik}, {Linda J.} and Golde, {Todd E.} and Carrasquillo, {Minerva M.} and Dickson, {Dennis W.} and Ke Zhang and Mariet Allen and Nil{\"u}fer Ertekin-Taner",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-42626-3",

language = "English (US)",

volume = "14",

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T1 - Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy

AU - Min, Yuhao

AU - Wang, Xue

AU - Iş, Özkan

AU - Patel, Tulsi A.

AU - Gao, Junli

AU - Reddy, Joseph S.

AU - Quicksall, Zachary S.

AU - Nguyen, Thuy

AU - Lin, Shu

AU - Tutor-New, Frederick Q.

AU - Chalk, Jessica L.

AU - Mitchell, Adriana O.

AU - Crook, Julia E.

AU - Nelson, Peter T.

AU - Van Eldik, Linda J.

AU - Golde, Todd E.

AU - Carrasquillo, Minerva M.

AU - Dickson, Dennis W.

AU - Zhang, Ke

AU - Allen, Mariet

AU - Ertekin-Taner, Nilüfer

PY - 2023/12

Y1 - 2023/12

N2 - Progressive supranuclear palsy (PSP) is a neurodegenerative parkinsonian disorder characterized by cell-type-specific tau lesions in neurons and glia. Prior work uncovered transcriptome changes in human PSP brains, although their cell-specificity is unknown. Further, systematic data integration and experimental validation platforms to prioritize brain transcriptional perturbations as therapeutic targets in PSP are currently lacking. In this study, we combine bulk tissue (n = 408) and single nucleus RNAseq (n = 34) data from PSP and control brains with transcriptome data from a mouse tauopathy and experimental validations in Drosophila tau models for systematic discovery of high-confidence expression changes in PSP with therapeutic potential. We discover, replicate, and annotate thousands of differentially expressed genes in PSP, many of which reside in glia-enriched co-expression modules and cells. We prioritize DDR2, STOM, and KANK2 as promising therapeutic targets in PSP with striking cross-species validations. We share our findings and data via our interactive application tool PSP RNAseq Atlas (https://rtools.mayo.edu/PSP_RNAseq_Atlas/). Our findings reveal robust glial transcriptome changes in PSP, provide a cross-species systems biology approach, and a tool for therapeutic target discoveries in PSP with potential application in other neurodegenerative diseases.

AB - Progressive supranuclear palsy (PSP) is a neurodegenerative parkinsonian disorder characterized by cell-type-specific tau lesions in neurons and glia. Prior work uncovered transcriptome changes in human PSP brains, although their cell-specificity is unknown. Further, systematic data integration and experimental validation platforms to prioritize brain transcriptional perturbations as therapeutic targets in PSP are currently lacking. In this study, we combine bulk tissue (n = 408) and single nucleus RNAseq (n = 34) data from PSP and control brains with transcriptome data from a mouse tauopathy and experimental validations in Drosophila tau models for systematic discovery of high-confidence expression changes in PSP with therapeutic potential. We discover, replicate, and annotate thousands of differentially expressed genes in PSP, many of which reside in glia-enriched co-expression modules and cells. We prioritize DDR2, STOM, and KANK2 as promising therapeutic targets in PSP with striking cross-species validations. We share our findings and data via our interactive application tool PSP RNAseq Atlas (https://rtools.mayo.edu/PSP_RNAseq_Atlas/). Our findings reveal robust glial transcriptome changes in PSP, provide a cross-species systems biology approach, and a tool for therapeutic target discoveries in PSP with potential application in other neurodegenerative diseases.

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JF - Nature communications

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ER -

Cross species systems biology discovers glial DDR2, STOM, and KANK2 as therapeutic targets in progressive supranuclear palsy

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