Inherited frontotemporal dementia in nine British families associated with intronic mutations in the tau gene

doi:10.1093/brain/awf069

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Brain, Vol. 125, No. 4, 732-751, April 2002
© 2002 Guarantors of Brain

Inherited frontotemporal dementia in nine British families associated with intronic mutations in the tau gene

S. M. Pickering-Brown¹, A. M. T. Richardson³, J. S. Snowden³, A. M McDonagh², A. Burns⁴, W. Braude⁶, M. Baker⁸, W.-K. Liu⁸, S.-H. Yen⁸, J. Hardy⁸, M. Hutton⁸, Y. Davies⁷, D. Allsop⁷, D. Craufurd⁵, D. Neary³ and D. M. A. Mann²

¹ The School of Biological Sciences, Division of Neuroscience, University of Manchester, ² Clinical Neuroscience Research Group, University of Manchester, ³ Department of Neurology, Hope Hospital, Salford, ⁴ Department of Old Age Psychiatry, Wythenshawe Hospital, ⁵ Department of Medical Genetics, St Mary’s Hospital, Manchester, ⁶ Department of Old Age Psychiatry, District General Hospital, Macclesfield, Cheshire, ⁷ Department of Biological Sciences, University of Lancaster, Lancaster, UK and ⁸ The Mayo Clinic, Jacksonville, Florida, USA

Correspondence to: D. Mann, Greater Manchester Neurosciences Centre, Humphrey Booth Building, Hope Hospital, Stott Lane, Salford M6 8HD, UK E-mail: david.mann{at}man.ac.uk

Genetic screening of 171 patients with frontotemporal lobardegeneration disclosed 14 patients, across nine pedigrees, withmutations in the intron to exon 10 in the tau gene, a regionregulating the splicing of exon 10 via a stem loop mechanism.Thirteen of these patients had the +16 splice site mutationand one had the +13 splice site mutation. Affected members ofall nine families presented with changes in behaviour and socialconduct that were prototypical of frontotemporal dementia (FTD).In all patients with the +16 splice site mutation, the behaviouralprofile was characterized by disinhibition, restless overactivity,a fatuous affect, puerile behaviour and verbal and motor stereotypies.The single patient with the +13 mutation presented a contrastingpicture of apathy and inertia. In addition, all patients hadevidence of semantic loss. Pathologically, five of the six patientsso far autopsied shared frontotemporal atrophy with involvementof the substantia nigra. The underlying histology was that ofmicrovacuolar-type cortical degeneration with a few swollencells. Tau pathology was widespread throughout the brain andpresent in neurones and glial cells, mostly in the frontal andtemporal cortical regions. This was in the form of neurofibrillarytangles and amorphous tau deposits (pre-tangles); Pick bodieswere not observed. Ultrastructurally, the tau filaments hada twisted, ribbon-like morphology distinct from the paired helicalfilaments of Alzheimer’s disease. One patient died froman unrelated illness whilst in the early clinical stages ofFTD. In this patient, cortical microvacuolar and astrocyticchanges were absent, though there were scattered neurones andglial cells, immunoreactive to tau, throughout the corticaland subcortical regions. The disease process underlying theneurodegeneration within these inherited forms of FTD may thereforestem directly from early, primary alterations in the functionof tau. All eight families with the +16 mutation seem to bepart of a common extended pedigree, possibly originating froma founder member residing within the North Wales region of GreatBritain.

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