Autosomal-recessive spastic ataxia of Charlevoix-Saguenay (ARSACS) is a relentlessly progressing genetic ataxia with no known treatment. A major mechanism underlies the pathogenesis of ARSACS is mitochondrial dysfunction that causes oxidative stress, resulting in neurodegeneration. Incidentally, mitochondrial dysfunction is also a pathogenic mechanism in another genetic ataxia, Friedreich’s ataxia (FA). Recent studies and clinical trials have demonstrated that omaveloxolone (brand name Skyclarys) can improve clinical symptoms in FA via enhancing the ability of mitochondria to cope with oxidative stress. This has led to approval by the FDA of Skyclarys for the treatment of FA.

Our team plans to administer Skyclarys to a mouse model of ARSACS and investigate whether Skyclarys can change the disease course in these mice. We believe the findings of our proposed study will be critical to determining whether omaveloxolone is appropriate for clinical trials in ARSACS.

Ce projet est financé conjointement par la Fondation de l’Ataxie Charlevoix- Saguenay et le Massachusetts General ARSACS Fundraiser, fonds créé par des familles aux E. U.

Financement : 100 000$ USD

Durée: 1an

Coordonnées:

Dr. Jeremy Schmahmann,  M.D.

Professor of Neurology

Harvard Medical School

Massachusetts General Hospital 

100 Cambridge Street, Suite 2000, Boston, MA 02114
jschmahmann@mgh.harvard.edu

Dr Chih-Chun Lin,  M.D.

Massachusetts General Hospital 

100 Cambridge Street, Suite 2000
Boston, MA 02114
clin69@mgh.harvard.edu

Dr. Chih-Chun Lin, M.D.

Harvard Medical School

Massachusetts General Hospital 

100 Cambridge Street, Suite 2000
Boston, MA 02114
clin69@mgh.harvard.edu