Duchenne muscular dystrophy: recent insights in brain related comorbidities

Cyrille Vaillend; Yoshitsugu Aoki; Eugenio Mercuri; Jos Hendriksen; Konstantina Tetorou; Aurelie Goyenvalle; Francesco Muntoni

doi:10.1038/s41467-025-56644-w

Duchenne muscular dystrophy: recent insights in brain related comorbidities

Cyrille Vaillend, Yoshitsugu Aoki, Eugenio Mercuri, Jos Hendriksen^*, Konstantina Tetorou, Aurelie Goyenvalle^*, Francesco Muntoni^*

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

Duchenne muscular dystrophy (DMD), the most common childhood muscular dystrophy, arises from DMD gene mutations, affecting the production of muscle dystrophin protein. Brain dystrophin-gene products are also transcribed via internal promoters. Their deficiency contributes to comorbidities, including intellectual disability ( ~ 22% of patients), autism ( ~ 6%) and attention deficit disorders ( ~ 18%), representing a major unmet need for patients and families. Thus, improvement of their diagnosis and treatment is needed. Dystrophic mouse models exhibit similar phenotypes, where genetic therapies restoring brain dystrophins improve their behaviour. This suggests that future genetic therapies could address both muscle and brain dysfunction in DMD patients.

Original language	English
Article number	1298
Pages (from-to)	1298
Number of pages	1
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-56644-w
Publication status	Published - 3 Feb 2025

Keywords

HIPPOCAMPAL SYNAPTIC PLASTICITY
COGNITIVE FUNCTION
GABA(A) RECEPTORS
DEFICIENT
GENE
MICE
MDX
EXPRESSION
DP71
DEPRESSION

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title = "Duchenne muscular dystrophy: recent insights in brain related comorbidities",

abstract = "Duchenne muscular dystrophy (DMD), the most common childhood muscular dystrophy, arises from DMD gene mutations, affecting the production of muscle dystrophin protein. Brain dystrophin-gene products are also transcribed via internal promoters. Their deficiency contributes to comorbidities, including intellectual disability ( ~ 22% of patients), autism ( ~ 6%) and attention deficit disorders ( ~ 18%), representing a major unmet need for patients and families. Thus, improvement of their diagnosis and treatment is needed. Dystrophic mouse models exhibit similar phenotypes, where genetic therapies restoring brain dystrophins improve their behaviour. This suggests that future genetic therapies could address both muscle and brain dysfunction in DMD patients.",

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author = "Cyrille Vaillend and Yoshitsugu Aoki and Eugenio Mercuri and Jos Hendriksen and Konstantina Tetorou and Aurelie Goyenvalle and Francesco Muntoni",

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T2 - recent insights in brain related comorbidities

AU - Vaillend, Cyrille

AU - Aoki, Yoshitsugu

AU - Mercuri, Eugenio

AU - Hendriksen, Jos

AU - Tetorou, Konstantina

AU - Goyenvalle, Aurelie

AU - Muntoni, Francesco

PY - 2025/2/3

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N2 - Duchenne muscular dystrophy (DMD), the most common childhood muscular dystrophy, arises from DMD gene mutations, affecting the production of muscle dystrophin protein. Brain dystrophin-gene products are also transcribed via internal promoters. Their deficiency contributes to comorbidities, including intellectual disability ( ~ 22% of patients), autism ( ~ 6%) and attention deficit disorders ( ~ 18%), representing a major unmet need for patients and families. Thus, improvement of their diagnosis and treatment is needed. Dystrophic mouse models exhibit similar phenotypes, where genetic therapies restoring brain dystrophins improve their behaviour. This suggests that future genetic therapies could address both muscle and brain dysfunction in DMD patients.

AB - Duchenne muscular dystrophy (DMD), the most common childhood muscular dystrophy, arises from DMD gene mutations, affecting the production of muscle dystrophin protein. Brain dystrophin-gene products are also transcribed via internal promoters. Their deficiency contributes to comorbidities, including intellectual disability ( ~ 22% of patients), autism ( ~ 6%) and attention deficit disorders ( ~ 18%), representing a major unmet need for patients and families. Thus, improvement of their diagnosis and treatment is needed. Dystrophic mouse models exhibit similar phenotypes, where genetic therapies restoring brain dystrophins improve their behaviour. This suggests that future genetic therapies could address both muscle and brain dysfunction in DMD patients.

KW - HIPPOCAMPAL SYNAPTIC PLASTICITY

KW - COGNITIVE FUNCTION

KW - GABA(A) RECEPTORS

KW - DEFICIENT

KW - GENE

KW - MICE

KW - MDX

KW - EXPRESSION

KW - DP71

KW - DEPRESSION

U2 - 10.1038/s41467-025-56644-w

DO - 10.1038/s41467-025-56644-w

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Duchenne muscular dystrophy: recent insights in brain related comorbidities

Abstract

Keywords

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