<i>C9ORF72</i> repeat expansions in mice cause TDP-43 pathology, neuronal loss, and behavioral deficits

Jeannie Chew; Tania F. Gendron; Mercedes Prudencio; Hiroki Sasaguri; Yong‐Jie Zhang; Monica Castanedes‐Casey; Chris W. Lee; Karen Jansen‐West; Aishe Kurti; Melissa E. Murray; Kevin F. Bieniek; Peter Bauer; Ena C. Whitelaw; Linda Rousseau; Jeannette N. Stankowski; Caroline Stetler; Lillian M. Daughrity; Emilie A. Perkerson; Pamela Desaro; Amelia Johnston; Karen Overstreet; Dieter Edbauer; Rosa Rademakers; Khrista Boylan; Dennis W. Dickson; John Denis Fryer; Leonard Petrucelli

doi:10.1126/science.aaa9344

<i>C9ORF72</i> repeat expansions in mice cause TDP-43 pathology, neuronal loss, and behavioral deficits

Jeannie Chew(Mayo Clinic), Tania F. Gendron(Mayo Clinic in Florida), Mercedes Prudencio(Mayo Clinic in Florida), Hiroki Sasaguri(Mayo Clinic in Florida), Yong‐Jie Zhang(Mayo Clinic in Florida), Monica Castanedes‐Casey(Mayo Clinic in Florida), Chris W. Lee(Mayo Clinic in Florida), Karen Jansen‐West(Mayo Clinic in Florida), Aishe Kurti(Mayo Clinic in Florida), Melissa E. Murray(Mayo Clinic in Florida), Kevin F. Bieniek(Mayo Clinic), Peter Bauer(Mayo Clinic in Florida), Ena C. Whitelaw(Mayo Clinic in Florida), Linda Rousseau(Mayo Clinic in Florida), Jeannette N. Stankowski(Mayo Clinic in Florida), Caroline Stetler(Mayo Clinic in Florida), Lillian M. Daughrity(Mayo Clinic in Florida), Emilie A. Perkerson(Mayo Clinic in Florida), Pamela Desaro(Mayo Clinic in Florida), Amelia Johnston(Mayo Clinic in Florida), Karen Overstreet(Mayo Clinic in Florida), Dieter Edbauer(German Center for Neurodegenerative Diseases), Rosa Rademakers(Mayo Clinic), Khrista Boylan(Mayo Clinic in Florida), Dennis W. Dickson(Mayo Clinic), John Denis Fryer(Mayo Clinic), Leonard Petrucelli(Mayo Clinic)

Science

May 15, 2015

10.1126/science.aaa9344

Cited by 402Open Access

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Abstract

The major genetic cause of frontotemporal dementia and amyotrophic lateral sclerosis is a G4C2 repeat expansion in C9ORF72. Efforts to combat neurodegeneration associated with "c9FTD/ALS" are hindered by a lack of animal models recapitulating disease features. We developed a mouse model to mimic both neuropathological and clinical c9FTD/ALS phenotypes. We expressed (G4C2)66 throughout the murine central nervous system by means of somatic brain transgenesis mediated by adeno-associated virus. Brains of 6-month-old mice contained nuclear RNA foci, inclusions of poly(Gly-Pro), poly(Gly-Ala), and poly(Gly-Arg) dipeptide repeat proteins, as well as TDP-43 pathology. These mouse brains also exhibited cortical neuron and cerebellar Purkinje cell loss, astrogliosis, and decreased weight. (G4C2)66 mice also developed behavioral abnormalities similar to clinical symptoms of c9FTD/ALS patients, including hyperactivity, anxiety, antisocial behavior, and motor deficits.

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