TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models

Heterozygous mutations in the granulin (GRN) gene are a leading cause of frontotemporal lobar degeneration with TDP-43 aggregates (FTLD-TDP). Polymorphisms in TMEM106B have been associated with disease risk in GRN mutation carriers and protective TMEM106B variants associated with reduced levels of T...

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Autores principales: Dominguez, Sara L., Laufer, Benjamin I., Ghosh, Arundhati Sengupta, Li, Qingling, Ruggeri, Gaia, Emani, Maheswara Reddy, Phu, Lilian, Friedman, Brad A., Sandoval, Wendy, Rose, Christopher M., Ngu, Hai, Foreman, Oded, Reichelt, Mike, Juste, Yves, Lalehzadeh, Guita, Hansen, Dennis, Nymark, Helle, Mellal, Denia, Gylling, Helene, Kiełpiński, Łukasz J., Chih, Ben, Bingol, Baris, Hoogenraad, Casper C., Meilandt, William J., Easton, Amy
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10641752/
https://www.ncbi.nlm.nih.gov/pubmed/37965143
http://dx.doi.org/10.1016/j.isci.2023.108362
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author Dominguez, Sara L.
Laufer, Benjamin I.
Ghosh, Arundhati Sengupta
Li, Qingling
Ruggeri, Gaia
Emani, Maheswara Reddy
Phu, Lilian
Friedman, Brad A.
Sandoval, Wendy
Rose, Christopher M.
Ngu, Hai
Foreman, Oded
Reichelt, Mike
Juste, Yves
Lalehzadeh, Guita
Hansen, Dennis
Nymark, Helle
Mellal, Denia
Gylling, Helene
Kiełpiński, Łukasz J.
Chih, Ben
Bingol, Baris
Hoogenraad, Casper C.
Meilandt, William J.
Easton, Amy
author_facet Dominguez, Sara L.
Laufer, Benjamin I.
Ghosh, Arundhati Sengupta
Li, Qingling
Ruggeri, Gaia
Emani, Maheswara Reddy
Phu, Lilian
Friedman, Brad A.
Sandoval, Wendy
Rose, Christopher M.
Ngu, Hai
Foreman, Oded
Reichelt, Mike
Juste, Yves
Lalehzadeh, Guita
Hansen, Dennis
Nymark, Helle
Mellal, Denia
Gylling, Helene
Kiełpiński, Łukasz J.
Chih, Ben
Bingol, Baris
Hoogenraad, Casper C.
Meilandt, William J.
Easton, Amy
author_sort Dominguez, Sara L.
collection PubMed
description Heterozygous mutations in the granulin (GRN) gene are a leading cause of frontotemporal lobar degeneration with TDP-43 aggregates (FTLD-TDP). Polymorphisms in TMEM106B have been associated with disease risk in GRN mutation carriers and protective TMEM106B variants associated with reduced levels of TMEM106B, suggesting that lowering TMEM106B might be therapeutic in the context of FTLD. Here, we tested the impact of full deletion and partial reduction of TMEM106B in mouse and iPSC-derived human cell models of GRN deficiency. TMEM106B deletion did not reverse transcriptomic or proteomic profiles in GRN-deficient microglia, with a few exceptions in immune signaling markers. Neither homozygous nor heterozygous Tmem106b deletion normalized disease-associated phenotypes in Grn −/−mice. Furthermore, Tmem106b reduction by antisense oligonucleotide (ASO) was poorly tolerated in Grn −/−mice. These data provide novel insight into TMEM106B and GRN function in microglia cells but do not support lowering TMEM106B levels as a viable therapeutic strategy for treating FTD-GRN.
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spelling pubmed-106417522023-11-14 TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models Dominguez, Sara L. Laufer, Benjamin I. Ghosh, Arundhati Sengupta Li, Qingling Ruggeri, Gaia Emani, Maheswara Reddy Phu, Lilian Friedman, Brad A. Sandoval, Wendy Rose, Christopher M. Ngu, Hai Foreman, Oded Reichelt, Mike Juste, Yves Lalehzadeh, Guita Hansen, Dennis Nymark, Helle Mellal, Denia Gylling, Helene Kiełpiński, Łukasz J. Chih, Ben Bingol, Baris Hoogenraad, Casper C. Meilandt, William J. Easton, Amy iScience Article Heterozygous mutations in the granulin (GRN) gene are a leading cause of frontotemporal lobar degeneration with TDP-43 aggregates (FTLD-TDP). Polymorphisms in TMEM106B have been associated with disease risk in GRN mutation carriers and protective TMEM106B variants associated with reduced levels of TMEM106B, suggesting that lowering TMEM106B might be therapeutic in the context of FTLD. Here, we tested the impact of full deletion and partial reduction of TMEM106B in mouse and iPSC-derived human cell models of GRN deficiency. TMEM106B deletion did not reverse transcriptomic or proteomic profiles in GRN-deficient microglia, with a few exceptions in immune signaling markers. Neither homozygous nor heterozygous Tmem106b deletion normalized disease-associated phenotypes in Grn −/−mice. Furthermore, Tmem106b reduction by antisense oligonucleotide (ASO) was poorly tolerated in Grn −/−mice. These data provide novel insight into TMEM106B and GRN function in microglia cells but do not support lowering TMEM106B levels as a viable therapeutic strategy for treating FTD-GRN. Elsevier 2023-10-29 /pmc/articles/PMC10641752/ /pubmed/37965143 http://dx.doi.org/10.1016/j.isci.2023.108362 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Dominguez, Sara L.
Laufer, Benjamin I.
Ghosh, Arundhati Sengupta
Li, Qingling
Ruggeri, Gaia
Emani, Maheswara Reddy
Phu, Lilian
Friedman, Brad A.
Sandoval, Wendy
Rose, Christopher M.
Ngu, Hai
Foreman, Oded
Reichelt, Mike
Juste, Yves
Lalehzadeh, Guita
Hansen, Dennis
Nymark, Helle
Mellal, Denia
Gylling, Helene
Kiełpiński, Łukasz J.
Chih, Ben
Bingol, Baris
Hoogenraad, Casper C.
Meilandt, William J.
Easton, Amy
TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models
title TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models
title_full TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models
title_fullStr TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models
title_full_unstemmed TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models
title_short TMEM106B reduction does not rescue GRN deficiency in iPSC-derived human microglia and mouse models
title_sort tmem106b reduction does not rescue grn deficiency in ipsc-derived human microglia and mouse models
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10641752/
https://www.ncbi.nlm.nih.gov/pubmed/37965143
http://dx.doi.org/10.1016/j.isci.2023.108362
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