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A molecular pathology, neurobiology, biochemical, genetic and neuroimaging study of progressive apraxia of speech

Author

Listed:
  • Keith A. Josephs

    (Mayo Clinic)

  • Joseph R. Duffy

    (Mayo Clinic)

  • Heather M. Clark

    (Mayo Clinic)

  • Rene L. Utianski

    (Mayo Clinic)

  • Edythe A. Strand

    (Mayo Clinic
    University of Washington)

  • Mary M. Machulda

    (Mayo Clinic)

  • Hugo Botha

    (Mayo Clinic)

  • Peter R. Martin

    (Mayo Clinic)

  • Nha Trang Thu Pham

    (Mayo Clinic)

  • Julie Stierwalt

    (Mayo Clinic)

  • Farwa Ali

    (Mayo Clinic)

  • Marina Buciuc

    (Mayo Clinic)

  • Matthew Baker

    (Department of Neuroscience)

  • Cristhoper H. Fernandez De Castro

    (Department of Neuroscience)

  • Anthony J. Spychalla

    (Mayo Clinic)

  • Christopher G. Schwarz

    (Mayo Clinic)

  • Robert I. Reid

    (Department of Information Technology)

  • Matthew L. Senjem

    (Mayo Clinic
    Department of Information Technology)

  • Clifford R. Jack

    (Mayo Clinic)

  • Val J. Lowe

    (Mayo Clinic)

  • Eileen H. Bigio

    (Northwestern University School of Medicine)

  • Ross R. Reichard

    (Mayo Clinic)

  • Eric. J. Polley

    (Mayo Clinic)

  • Nilufer Ertekin-Taner

    (Department of Neuroscience)

  • Rosa Rademakers

    (Department of Neuroscience
    University of Antwerp)

  • Michael A. DeTure

    (Department of Neuroscience)

  • Owen A. Ross

    (Department of Neuroscience)

  • Dennis W. Dickson

    (Department of Neuroscience)

  • Jennifer L. Whitwell

    (Mayo Clinic)

Abstract

Progressive apraxia of speech is a neurodegenerative syndrome affecting spoken communication. Molecular pathology, biochemistry, genetics, and longitudinal imaging were investigated in 32 autopsy-confirmed patients with progressive apraxia of speech who were followed over 10 years. Corticobasal degeneration and progressive supranuclear palsy (4R-tauopathies) were the most common underlying pathologies. Perceptually distinct speech characteristics, combined with age-at-onset, predicted specific 4R-tauopathy; phonetic subtype and younger age predicted corticobasal degeneration, and prosodic subtype and older age predicted progressive supranuclear palsy. Phonetic and prosodic subtypes showed differing relationships within the cortico-striato-pallido-nigro-luysial network. Biochemical analysis revealed no distinct differences in aggregated 4R-tau while tau H1 haplotype frequency (69%) was lower compared to 1000+ autopsy-confirmed 4R-tauopathies. Corticobasal degeneration patients had faster rates of decline, greater cortical degeneration, and shorter illness duration than progressive supranuclear palsy. These findings help define the pathobiology of progressive apraxia of speech and may have consequences for development of 4R-tau targeting treatment.

Suggested Citation

  • Keith A. Josephs & Joseph R. Duffy & Heather M. Clark & Rene L. Utianski & Edythe A. Strand & Mary M. Machulda & Hugo Botha & Peter R. Martin & Nha Trang Thu Pham & Julie Stierwalt & Farwa Ali & Marin, 2021. "A molecular pathology, neurobiology, biochemical, genetic and neuroimaging study of progressive apraxia of speech," Nature Communications, Nature, vol. 12(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23687-8
    DOI: 10.1038/s41467-021-23687-8
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