Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models

Rita F Marques; Jan B Engler; Katrin Küchler; Ross A Jones; Thomas Lingner; Gabriela Salinas; Thomas H Gillingwater; Manuel A Friese; Kent E Duncan

doi:10.1093/hmg/ddaa140

Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models

Standard

Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models. / Marques, Rita F; Engler, Jan B; Küchler, Katrin; Jones, Ross A; Lingner, Thomas; Salinas, Gabriela; Gillingwater, Thomas H; Friese, Manuel A; Duncan, Kent E.

in: HUM MOL GENET, Jahrgang 29, Nr. 16, 29.09.2020, S. 2647-2661.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Marques, RF, Engler, JB, Küchler, K, Jones, RA, Lingner, T, Salinas, G, Gillingwater, TH, Friese, MA & Duncan, KE 2020, 'Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models', HUM MOL GENET, Jg. 29, Nr. 16, S. 2647-2661. https://doi.org/10.1093/hmg/ddaa140

APA

Marques, R. F., Engler, J. B., Küchler, K., Jones, R. A., Lingner, T., Salinas, G., Gillingwater, T. H., Friese, M. A., & Duncan, K. E. (2020). Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models. HUM MOL GENET, 29(16), 2647-2661. https://doi.org/10.1093/hmg/ddaa140

Vancouver

Marques RF, Engler JB, Küchler K, Jones RA, Lingner T, Salinas G et al. Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models. HUM MOL GENET. 2020 Sep 29;29(16):2647-2661. https://doi.org/10.1093/hmg/ddaa140

Bibtex

@article{75a4c8ead75c497282f6294c38a0f88e,

title = "Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models",

abstract = "Amyotrophic lateral sclerosis (ALS) is an incurable neurological disease with progressive loss of motor neuron (MN) function in the brain and spinal cord. Mutations in TARDBP, encoding the RNA-binding protein TDP-43, are one cause of ALS and TDP-43 mislocalization in MNs is a key pathological feature of > 95% of ALS cases. While numerous studies support altered RNA regulation by TDP-43 as a major cause of disease, specific changes within MNs that trigger disease onset remain unclear. Here, we combined Translating Ribosome Affinity Purification (TRAP) with RNA sequencing to identify molecular changes in spinal MNs of TDP-43-driven ALS at motor symptom onset. By comparing the MN translatome of hTDP-43A315T mice to littermate controls and to mice expressing wild type hTDP-43, we identified hundreds of mRNAs that were selectively up- or downregulated in MNs. We validated the deregulated candidates Tex26, Syngr4, and Plekhb1 mRNAs in an independent TRAP experiment. Moreover, by quantitative immunostaining of spinal cord MNs we found corresponding protein level changes for SYNGR4 and PLEKHB1. We also observed these changes in spinal MNs of an independent ALS mouse model caused by a different patient mutant allele of TDP-43, suggesting that they are general features of TDP-43-driven ALS. Thus, we identified SYNGR4 and PLEKHB1 to be deregulated in MNs at motor symptom onset in TDP-43-driven ALS models. This spatial and temporal pattern suggests that these proteins could be functionally important for driving the transition to the symptomatic phase of the disease.",

author = "Marques, {Rita F} and Engler, {Jan B} and Katrin K{\"u}chler and Jones, {Ross A} and Thomas Lingner and Gabriela Salinas and Gillingwater, {Thomas H} and Friese, {Manuel A} and Duncan, {Kent E}",

note = "{\textcopyright} The Author(s) 2020. Published by Oxford University Press.",

year = "2020",

month = sep,

day = "29",

doi = "10.1093/hmg/ddaa140",

language = "English",

volume = "29",

pages = "2647--2661",

journal = "HUM MOL GENET",

issn = "0964-6906",

publisher = "Oxford University Press",

number = "16",

}

RIS

TY - JOUR

T1 - Motor neuron translatome reveals deregulation of SYNGR4 and PLEKHB1 in mutant TDP-43 amyotrophic lateral sclerosis models

AU - Marques, Rita F

AU - Engler, Jan B

AU - Küchler, Katrin

AU - Jones, Ross A

AU - Lingner, Thomas

AU - Salinas, Gabriela

AU - Gillingwater, Thomas H

AU - Friese, Manuel A

AU - Duncan, Kent E

PY - 2020/9/29

Y1 - 2020/9/29

N2 - Amyotrophic lateral sclerosis (ALS) is an incurable neurological disease with progressive loss of motor neuron (MN) function in the brain and spinal cord. Mutations in TARDBP, encoding the RNA-binding protein TDP-43, are one cause of ALS and TDP-43 mislocalization in MNs is a key pathological feature of > 95% of ALS cases. While numerous studies support altered RNA regulation by TDP-43 as a major cause of disease, specific changes within MNs that trigger disease onset remain unclear. Here, we combined Translating Ribosome Affinity Purification (TRAP) with RNA sequencing to identify molecular changes in spinal MNs of TDP-43-driven ALS at motor symptom onset. By comparing the MN translatome of hTDP-43A315T mice to littermate controls and to mice expressing wild type hTDP-43, we identified hundreds of mRNAs that were selectively up- or downregulated in MNs. We validated the deregulated candidates Tex26, Syngr4, and Plekhb1 mRNAs in an independent TRAP experiment. Moreover, by quantitative immunostaining of spinal cord MNs we found corresponding protein level changes for SYNGR4 and PLEKHB1. We also observed these changes in spinal MNs of an independent ALS mouse model caused by a different patient mutant allele of TDP-43, suggesting that they are general features of TDP-43-driven ALS. Thus, we identified SYNGR4 and PLEKHB1 to be deregulated in MNs at motor symptom onset in TDP-43-driven ALS models. This spatial and temporal pattern suggests that these proteins could be functionally important for driving the transition to the symptomatic phase of the disease.

AB - Amyotrophic lateral sclerosis (ALS) is an incurable neurological disease with progressive loss of motor neuron (MN) function in the brain and spinal cord. Mutations in TARDBP, encoding the RNA-binding protein TDP-43, are one cause of ALS and TDP-43 mislocalization in MNs is a key pathological feature of > 95% of ALS cases. While numerous studies support altered RNA regulation by TDP-43 as a major cause of disease, specific changes within MNs that trigger disease onset remain unclear. Here, we combined Translating Ribosome Affinity Purification (TRAP) with RNA sequencing to identify molecular changes in spinal MNs of TDP-43-driven ALS at motor symptom onset. By comparing the MN translatome of hTDP-43A315T mice to littermate controls and to mice expressing wild type hTDP-43, we identified hundreds of mRNAs that were selectively up- or downregulated in MNs. We validated the deregulated candidates Tex26, Syngr4, and Plekhb1 mRNAs in an independent TRAP experiment. Moreover, by quantitative immunostaining of spinal cord MNs we found corresponding protein level changes for SYNGR4 and PLEKHB1. We also observed these changes in spinal MNs of an independent ALS mouse model caused by a different patient mutant allele of TDP-43, suggesting that they are general features of TDP-43-driven ALS. Thus, we identified SYNGR4 and PLEKHB1 to be deregulated in MNs at motor symptom onset in TDP-43-driven ALS models. This spatial and temporal pattern suggests that these proteins could be functionally important for driving the transition to the symptomatic phase of the disease.

U2 - 10.1093/hmg/ddaa140

DO - 10.1093/hmg/ddaa140

M3 - SCORING: Journal article

C2 - 32686835

VL - 29

SP - 2647

EP - 2661

JO - HUM MOL GENET

JF - HUM MOL GENET

SN - 0964-6906

IS - 16

ER -