M6A reduction relieves FUS-associated ALS granules

Timoteo G. Di; A. Giuliani; A. Setti; M. C. Biagi; M. Lisi; T. Santini; A. Grandioso; D. Mariani; F. Castagnetti; E. Perego; S. Zappone; S. Lattante; Mario Sabatelli; D. Rotili; G. Vicidomini; I. Bozzoni

doi:10.1038/s41467-024-49416-5

M6A reduction relieves FUS-associated ALS granules

Timoteo G. Di, A. Giuliani, A. Setti, M. C. Biagi, M. Lisi, T. Santini, A. Grandioso, D. Mariani, F. Castagnetti, E. Perego, S. Zappone, S. Lattante, Mario Sabatelli, D. Rotili, G. Vicidomini, I. Bozzoni^*

^*Autore corrispondente per questo lavoro

Risultato della ricerca: Contributo in rivista › Articolo

Abstract

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease due to gradual motoneurons (MN) degeneration. Among the processes associated to ALS pathogenesis, there is the formation of cytoplasmic inclusions produced by aggregation of mutant proteins, among which the RNA binding protein FUS. Here we show that, in neuronal cells and in iPSC-derived MN expressing mutant FUS, such inclusions are significantly reduced in number and dissolve faster when the RNA m6A content is diminished. Interestingly, stress granules formed in ALS conditions showed a distinctive transcriptome with respect to control cells, which reverted to similar to control after m6A downregulation. Notably, cells expressing mutant FUS were characterized by higher m6A levels suggesting a possible link between m6A homeostasis and pathological aggregates. Finally, we show that FUS inclusions are reduced also in patient-derived fibroblasts treated with STM-2457, an inhibitor of METTL3 activity, paving the way for its possible use for counteracting aggregate formation in ALS.

Lingua originale	Inglese
pagine (da-a)	N/A-N/A
Rivista	Nature Communications
Volume	15
Numero di pubblicazione	1
DOI	https://doi.org/10.1038/s41467-024-49416-5
Stato di pubblicazione	Pubblicato - 2024

All Science Journal Classification (ASJC) codes

Chimica Generale
Biochimica, Genetica, Biologia Molecolare Generali
Fisica e Astronomia Generali

Keywords

n/a

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abstract = "Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease due to gradual motoneurons (MN) degeneration. Among the processes associated to ALS pathogenesis, there is the formation of cytoplasmic inclusions produced by aggregation of mutant proteins, among which the RNA binding protein FUS. Here we show that, in neuronal cells and in iPSC-derived MN expressing mutant FUS, such inclusions are significantly reduced in number and dissolve faster when the RNA m6A content is diminished. Interestingly, stress granules formed in ALS conditions showed a distinctive transcriptome with respect to control cells, which reverted to similar to control after m6A downregulation. Notably, cells expressing mutant FUS were characterized by higher m6A levels suggesting a possible link between m6A homeostasis and pathological aggregates. Finally, we show that FUS inclusions are reduced also in patient-derived fibroblasts treated with STM-2457, an inhibitor of METTL3 activity, paving the way for its possible use for counteracting aggregate formation in ALS.",

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T1 - M6A reduction relieves FUS-associated ALS granules

AU - Di, Timoteo G.

AU - Giuliani, A.

AU - Setti, A.

AU - Biagi, M. C.

AU - Lisi, M.

AU - Santini, T.

AU - Grandioso, A.

AU - Mariani, D.

AU - Castagnetti, F.

AU - Perego, E.

AU - Zappone, S.

AU - Lattante, S.

AU - Sabatelli, Mario

AU - Rotili, D.

AU - Vicidomini, G.

AU - Bozzoni, I.

PY - 2024

Y1 - 2024

N2 - Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease due to gradual motoneurons (MN) degeneration. Among the processes associated to ALS pathogenesis, there is the formation of cytoplasmic inclusions produced by aggregation of mutant proteins, among which the RNA binding protein FUS. Here we show that, in neuronal cells and in iPSC-derived MN expressing mutant FUS, such inclusions are significantly reduced in number and dissolve faster when the RNA m6A content is diminished. Interestingly, stress granules formed in ALS conditions showed a distinctive transcriptome with respect to control cells, which reverted to similar to control after m6A downregulation. Notably, cells expressing mutant FUS were characterized by higher m6A levels suggesting a possible link between m6A homeostasis and pathological aggregates. Finally, we show that FUS inclusions are reduced also in patient-derived fibroblasts treated with STM-2457, an inhibitor of METTL3 activity, paving the way for its possible use for counteracting aggregate formation in ALS.

AB - Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease due to gradual motoneurons (MN) degeneration. Among the processes associated to ALS pathogenesis, there is the formation of cytoplasmic inclusions produced by aggregation of mutant proteins, among which the RNA binding protein FUS. Here we show that, in neuronal cells and in iPSC-derived MN expressing mutant FUS, such inclusions are significantly reduced in number and dissolve faster when the RNA m6A content is diminished. Interestingly, stress granules formed in ALS conditions showed a distinctive transcriptome with respect to control cells, which reverted to similar to control after m6A downregulation. Notably, cells expressing mutant FUS were characterized by higher m6A levels suggesting a possible link between m6A homeostasis and pathological aggregates. Finally, we show that FUS inclusions are reduced also in patient-derived fibroblasts treated with STM-2457, an inhibitor of METTL3 activity, paving the way for its possible use for counteracting aggregate formation in ALS.

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M6A reduction relieves FUS-associated ALS granules

Abstract

All Science Journal Classification (ASJC) codes

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