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https://www.readbyqxmd.com/read/29325032/effect-of-diazoxide-on-friedreich-ataxia-models
#1
Antonella Santoro, Sara Anjomani Virmouni, Eleonora Paradies, Valentina L Villalobos Coa, Sahar Al-Mahdawi, Mee Khoo, Vito Porcelli, Angelo Vozza, Mara Perrone, Nunzio Denora, Franco Taroni, Giuseppe Merla, Luigi Palmieri, Mark A Pook, Carlo M T Marobbio
Friedreich ataxia (FRDA) is an inherited recessive disorder caused by a deficiency in the mitochondrial protein frataxin. There is currently no effective treatment for FRDA available, especially for neurological deficits. In this study, we tested diazoxide, a drug commonly used as vasodilator in the treatment of acute hypertension, on cellular and animal models of FRDA. We first showed that diazoxide increases frataxin protein levels in FRDA lymphoblastoid cell lines, via the mammalian target of rapamycin (mTOR) pathway...
March 15, 2018: Human Molecular Genetics
https://www.readbyqxmd.com/read/28024081/deletion-of-the-gaa-repeats-from-the-human-frataxin-gene-using-the-crispr-cas9-system-in-yg8r-derived-cells-and-mouse-models-of-friedreich-ataxia
#2
D L Ouellet, K Cherif, J Rousseau, J P Tremblay
The Friedreich ataxia is a monogenic disease due to a hyperexpanded GAA triplet located within the first intron of the frataxin gene that causes transcriptional issues. The resulting frataxin protein deficiency leads to a Fe-S cluster biosynthesis dysfunction in the mitochondria and to oxidative stress and cell death. Here we use the CRISPR-Cas9 system to remove the mutated GAA expansion and restore the frataxin gene transcriptional activity and protein level. Both YG8R and YG8sR mouse models and cell lines derived from these mice were used to CRISPR-edited successfully the GAA expansion in vitro and in vivo...
May 2017: Gene Therapy
https://www.readbyqxmd.com/read/27518705/lentivirus-meditated-frataxin-gene-delivery-reverses-genome-instability-in-friedreich-ataxia-patient-and-mouse-model-fibroblasts
#3
H Khonsari, M Schneider, S Al-Mahdawi, Y G Chianea, M Themis, C Parris, M A Pook, M Themis
Friedreich ataxia (FRDA) is a progressive neurodegenerative disease caused by deficiency of frataxin protein, with the primary sites of pathology being the large sensory neurons of the dorsal root ganglia and the cerebellum. FRDA is also often accompanied by severe cardiomyopathy and diabetes mellitus. Frataxin is important in mitochondrial iron-sulfur cluster (ISC) biogenesis and low-frataxin expression is due to a GAA repeat expansion in intron 1 of the FXN gene. FRDA cells are genomically unstable, with increased levels of reactive oxygen species and sensitivity to oxidative stress...
December 2016: Gene Therapy
https://www.readbyqxmd.com/read/26393353/fxn-promoter-silencing-in-the-humanized-mouse-model-of-friedreich-ataxia
#4
Yogesh K Chutake, Whitney N Costello, Christina C Lam, Aniruddha C Parikh, Tamara T Hughes, Michael G Michalopulos, Mark A Pook, Sanjay I Bidichandani
BACKGROUND: Friedreich ataxia is caused by an expanded GAA triplet-repeat sequence in intron 1 of the FXN gene that results in epigenetic silencing of the FXN promoter. This silencing mechanism is seen in patient-derived lymphoblastoid cells but it remains unknown if it is a widespread phenomenon affecting multiple cell types and tissues. METHODOLOGY / PRINCIPAL FINDINGS: The humanized mouse model of Friedreich ataxia (YG8sR), which carries a single transgenic insert of the human FXN gene with an expanded GAA triplet-repeat in intron 1, is deficient for FXN transcript when compared to an isogenic transgenic mouse lacking the expanded repeat (Y47R)...
2015: PloS One
https://www.readbyqxmd.com/read/25681319/a-novel-gaa-repeat-expansion-based-mouse-model-of-friedreich-s-ataxia
#5
Sara Anjomani Virmouni, Vahid Ezzatizadeh, Chiranjeevi Sandi, Madhavi Sandi, Sahar Al-Mahdawi, Yogesh Chutake, Mark A Pook
Friedreich's ataxia (FRDA) is an autosomal recessive neurodegenerative disorder caused by a GAA repeat expansion mutation within intron 1 of the FXN gene, resulting in reduced levels of frataxin protein. We have previously reported the generation of human FXN yeast artificial chromosome (YAC) transgenic FRDA mouse models containing 90-190 GAA repeats, but the presence of multiple GAA repeats within these mice is considered suboptimal. We now describe the cellular, molecular and behavioural characterisation of a newly developed YAC transgenic FRDA mouse model, designated YG8sR, which we have shown by DNA sequencing to contain a single pure GAA repeat expansion...
March 2015: Disease Models & Mechanisms
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