Dysregulation of muscle cholesterol transport ...
Type de document :
Article dans une revue scientifique: Article original
DOI :
PMID :
URL permanente :
Titre :
Dysregulation of muscle cholesterol transport in amyotrophic lateral sclerosis.
Auteur(s) :
Sapaly, D. [Auteur]
Université Sorbonne Paris Cité [USPC]
Cheguillaume, F. [Auteur]
Université Sorbonne Paris Cité [USPC]
Weill, L. [Auteur]
Clerc, Z. [Auteur]
Biondi, O. [Auteur]
Bendris, S. [Auteur]
Buon, C. [Auteur]
Slika, R. [Auteur]
Piller, E. [Auteur]
Sundaram, V. K. [Auteur]
Da Silva Ramos, A. [Auteur]
Amador, M. D. M. [Auteur]
Lenglet, T. [Auteur]
Debs, R. [Auteur]
Le Forestier, N. [Auteur]
Pradat, P. F. [Auteur]
Salachas, F. [Auteur]
Lacomblez, L. [Auteur]
Hesters, A. [Auteur]
Borderie, D. [Auteur]
Devos, David [Auteur]
Lille Neurosciences & Cognition (LilNCog) - U 1172
Desnuelle, C. [Auteur]
Rolland, A. S. [Auteur]
Periou, B. [Auteur]
Vasseur, S. [Auteur]
Chapart, M. [Auteur]
Le Ber, I. [Auteur]
Fauret-Amsellem, A. L. [Auteur]
Millecamps, S. [Auteur]
Maisonobe, T. [Auteur]
Leonard-Louis, S. [Auteur]
Behin, A. [Auteur]
Authier, F. J. [Auteur]
Evangelista, T. [Auteur]
Charbonnier, F. [Auteur]
Centre de recherche en Myologie – U974 SU-INSERM
Bruneteau, G. [Auteur]
Centre de recherche en Myologie – U974 SU-INSERM
Université Sorbonne Paris Cité [USPC]
Cheguillaume, F. [Auteur]
Université Sorbonne Paris Cité [USPC]
Weill, L. [Auteur]
Clerc, Z. [Auteur]
Biondi, O. [Auteur]
Bendris, S. [Auteur]
Buon, C. [Auteur]
Slika, R. [Auteur]
Piller, E. [Auteur]
Sundaram, V. K. [Auteur]
Da Silva Ramos, A. [Auteur]
Amador, M. D. M. [Auteur]
Lenglet, T. [Auteur]
Debs, R. [Auteur]
Le Forestier, N. [Auteur]
Pradat, P. F. [Auteur]
Salachas, F. [Auteur]
Lacomblez, L. [Auteur]
Hesters, A. [Auteur]
Borderie, D. [Auteur]
Devos, David [Auteur]

Lille Neurosciences & Cognition (LilNCog) - U 1172
Desnuelle, C. [Auteur]
Rolland, A. S. [Auteur]
Periou, B. [Auteur]
Vasseur, S. [Auteur]
Chapart, M. [Auteur]
Le Ber, I. [Auteur]
Fauret-Amsellem, A. L. [Auteur]
Millecamps, S. [Auteur]
Maisonobe, T. [Auteur]
Leonard-Louis, S. [Auteur]
Behin, A. [Auteur]
Authier, F. J. [Auteur]
Evangelista, T. [Auteur]
Charbonnier, F. [Auteur]
Centre de recherche en Myologie – U974 SU-INSERM
Bruneteau, G. [Auteur]
Centre de recherche en Myologie – U974 SU-INSERM
Titre de la revue :
Brain
Nom court de la revue :
Brain
Éditeur :
Oxford Academic
Date de publication :
2024-08-28
ISSN :
1460-2156
Discipline(s) HAL :
Sciences du Vivant [q-bio]
Résumé en anglais : [en]
Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting motor neurons, with a typical lifespan of 3–5 years. Altered metabolism is a key feature of ALS that strongly influences prognosis, ...
Lire la suite >Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting motor neurons, with a typical lifespan of 3–5 years. Altered metabolism is a key feature of ALS that strongly influences prognosis, with an increase in whole body energy expenditure and changes in skeletal muscle metabolism, including greater reliance on fat oxidation. Dyslipidaemia has been described in ALS as part of the metabolic dysregulation, but its role in the pathophysiology of the disease remains controversial. Among the lipids, cholesterol is of particular interest as a vital component of cell membranes, playing a key role in signal transduction and mitochondrial function in muscle. The aim of this study was to investigate whether motor dysfunction in ALS might be associated with dysregulation of muscle cholesterol metabolism. We determined cholesterol content and analysed the expression of key determinants of the cholesterol metabolism pathway in muscle biopsies from 13 ALS patients and 10 asymptomatic ALS-mutation gene carriers compared to 16 control subjects. Using human control primary myotubes, we investigated the potential contribution of cholesterol dyshomeostasis to reliance on mitochondrial fatty acid. We found that cholesterol accumulates in the skeletal muscle of ALS patients and that cholesterol overload significantly correlates with disease severity evaluated by the Revised ALS Functional Rating Scale. These defects are associated with overexpression of the genes of the lysosomal cholesterol transporters Niemann-Pick type C1 (NPC1) and 2 (NPC2), which are required for cholesterol transfer from late endosomes/lysosomes to cellular membranes. Most notably, a significant increase in NPC2 mRNA levels could be detected in muscle samples from asymptomatic ALS-mutation carriers, long before disease onset. We found that filipin-stained unesterified cholesterol accumulated in the lysosomal compartment in ALS muscle samples, suggesting dysfunction of the NPC1/2 system. Accordingly, we report here that experimental NPC1 inhibition or lysosomal pH alteration in human primary myotubes was sufficient to induce the overexpression of NPC1 and NPC2 mRNA. Finally, acute NPC1 inhibition in human control myotubes induced a shift towards a preferential use of fatty acids, thus reproducing the metabolic defect characteristic of ALS muscle. We conclude that cholesterol homeostasis is dysregulated in ALS muscle from the presymptomatic stage. Targeting NPC1/2 dysfunction may be a new therapeutic strategy for ALS to restore muscle energy metabolism and slow motor symptom progression.Lire moins >
Lire la suite >Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting motor neurons, with a typical lifespan of 3–5 years. Altered metabolism is a key feature of ALS that strongly influences prognosis, with an increase in whole body energy expenditure and changes in skeletal muscle metabolism, including greater reliance on fat oxidation. Dyslipidaemia has been described in ALS as part of the metabolic dysregulation, but its role in the pathophysiology of the disease remains controversial. Among the lipids, cholesterol is of particular interest as a vital component of cell membranes, playing a key role in signal transduction and mitochondrial function in muscle. The aim of this study was to investigate whether motor dysfunction in ALS might be associated with dysregulation of muscle cholesterol metabolism. We determined cholesterol content and analysed the expression of key determinants of the cholesterol metabolism pathway in muscle biopsies from 13 ALS patients and 10 asymptomatic ALS-mutation gene carriers compared to 16 control subjects. Using human control primary myotubes, we investigated the potential contribution of cholesterol dyshomeostasis to reliance on mitochondrial fatty acid. We found that cholesterol accumulates in the skeletal muscle of ALS patients and that cholesterol overload significantly correlates with disease severity evaluated by the Revised ALS Functional Rating Scale. These defects are associated with overexpression of the genes of the lysosomal cholesterol transporters Niemann-Pick type C1 (NPC1) and 2 (NPC2), which are required for cholesterol transfer from late endosomes/lysosomes to cellular membranes. Most notably, a significant increase in NPC2 mRNA levels could be detected in muscle samples from asymptomatic ALS-mutation carriers, long before disease onset. We found that filipin-stained unesterified cholesterol accumulated in the lysosomal compartment in ALS muscle samples, suggesting dysfunction of the NPC1/2 system. Accordingly, we report here that experimental NPC1 inhibition or lysosomal pH alteration in human primary myotubes was sufficient to induce the overexpression of NPC1 and NPC2 mRNA. Finally, acute NPC1 inhibition in human control myotubes induced a shift towards a preferential use of fatty acids, thus reproducing the metabolic defect characteristic of ALS muscle. We conclude that cholesterol homeostasis is dysregulated in ALS muscle from the presymptomatic stage. Targeting NPC1/2 dysfunction may be a new therapeutic strategy for ALS to restore muscle energy metabolism and slow motor symptom progression.Lire moins >
Langue :
Anglais
Audience :
Internationale
Vulgarisation :
Non
Établissement(s) :
Université de Lille
Inserm
CHU Lille
Inserm
CHU Lille
Collections :
Date de dépôt :
2024-09-08T21:01:01Z
2025-03-05T10:29:44Z
2025-03-05T10:29:44Z
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