<p>Most patients with a rare movement disorder (MD) do not receive a molecular diagnosis, and the underlying genetic variants and mediating genes remain elusive. Here, we evaluate the diagnostic accuracy of conventional and next-generation sequencing-based genetic testing strategies in a cohort of 2,811 individuals with ataxia, spastic paraplegia and dystonia. Exome sequencing establishes genetic diagnoses in 19.3% of cases, and specificity of phenotypic features and age at testing are positive predictors. Genome analysis ‘beyond the exome’ increases the diagnostic yield by 7.5%, mostly due to the improved detection of structural variants and repeat expansions. Unsolved cases are included in the Solve-RD cohort and subjected to gene-burden analysis, providing evidence for loss-of-function variants in X-chromosomal <i>CD99L2</i> causing spastic ataxia. Cellular studies show that the transmembrane protein CD99L2 occurs mainly in a ubiquitinated form and serves as an activating interactor of the calcium-dependent protease CAPN1. Ablation of cytoplasmic or extracellular domains of CD99L2 leads to its intracellular mislocalization and abrogation of its interplay with CAPN1. Transcriptome analysis in CD99L2 patient-derived fibroblasts reveals synaptic function-specific disturbances. Impaired CAPN1 activation and dysregulation of downstream neuronal pathways constitute the likely molecular cause for neurodegeneration.</p>

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Loss-of-function variants in the CAPN1 activator CD99L2 cause X-linked spastic ataxia

  • Benita Menden,
  • Rana D. Incebacak Eltemur,
  • German Demidov,
  • Marc Sturm,
  • Joohyun Park,
  • Chrisovalantou Huridou,
  • Florian Fath,
  • Astrid Nümann,
  • Alexander Baumann,
  • Illja J. Diets,
  • Claudia Dufke,
  • Martin Regensburger,
  • Maria Rönnefarth,
  • Vera Wilke,
  • Nienke van Os,
  • Stefan Vielhaber,
  • Tim W. Rattay,
  • Zacharias Kohl,
  • Susana Peralta,
  • Priscila Pereira Sena,
  • Melanie Kellner,
  • Nadine Weissert,
  • Andreas Traschütz,
  • Lena Zeltner,
  • Kai Boelmans,
  • Natalie Deininger,
  • Leon Schütz,
  • Caspar Gross,
  • Ana Beatriz Hinojosa Amaya,
  • Katrin Raupach,
  • Holger Hengel,
  • Florian Harmuth,
  • Jakob Admard,
  • Ingrid Bader,
  • Sarah Baumann,
  • Friedemann Bender,
  • Andrea Bevot,
  • Almut Bischoff,
  • Felix Boschann,
  • Rebecca Buchert,
  • Daniel Buchzik,
  • Nicolas Casadei,
  • Claudia B. Catarino,
  • Isabell Cordts,
  • Kirsten Cremer,
  • Marion Doebler-Neumann,
  • Nadja Ehmke,
  • Miriam Elbracht,
  • Ruth J. Falb,
  • Thomas Feindt,
  • Zofia Fleszar,
  • Lea Gerstner,
  • Dieter Gläser,
  • Ute Grasshoff,
  • Sarah Grosch,
  • Kathrin Grundmann,
  • Alexander Gutschalk,
  • Manja Haaga,
  • Stefanie Hayer,
  • Ute Hehr,
  • Yorck Hellenbroich,
  • Wolfram Henn,
  • Barbara Herr,
  • Rebecca Herzog,
  • Veronka Horber,
  • Jonas Deppe,
  • Nadja Kaiser,
  • Christiane Kehrer,
  • Martin Kehrer,
  • Jan Kern,
  • Christoph Keßler,
  • Katharina Khuller,
  • Hannah Klinkhammer,
  • Urania Kotzaeridou,
  • Peter Krawitz,
  • Martina Kreiss,
  • Hanna Küpper,
  • Alice Kuster,
  • Lucia Laugwitz,
  • Anne Lesemann,
  • Nadine Lichey,
  • Tobias Linden,
  • Boris Macek,
  • Janine Magg,
  • Elisabeth Mangold,
  • Eva Manka,
  • Iris Marquardt,
  • Karl Mehnert,
  • David Mengel,
  • Susanne Morlot,
  • Barbara Oehl-Jaschkowitz,
  • Martje G. Pauly,
  • Melanie Philipp,
  • Florentine Radelfahr,
  • Maren Rautenberg,
  • Angelika Riess,
  • Carsten Saft,
  • Beate Schlotter-Weigel,
  • Axel Schmidt,
  • Eva M. C. Schwaibold,
  • Veronika Spahlinger,
  • Stephanie Spranger,
  • Katharina Marie Steiner,
  • Claudia Stendel,
  • Andreas Thieme,
  • Andreas Tzschach,
  • Ana Velic,
  • Sarah Wiethoff,
  • Carlo Wilke,
  • Stephan Züchner,
  • Simone Zittel,
  • Nienke van Os,
  • Bart van de Warrenburg,
  • Ralf A. Husain,
  • Marcus Deschauer,
  • Felix Distelmaier,
  • Andreas Dufke,
  • Holm Graessner,
  • Bernhard Hemmer,
  • Heike Jacobi,
  • Thomas Klockgether,
  • Thomas Klopstock,
  • Xenia Kobeleva,
  • Georg-Christoph Korenke,
  • Alma Kuechler,
  • Gregor Kuhlenbäumer,
  • Ingo Kurth,
  • Huu Phuc Nguyen,
  • Gilbert Wunderlich,
  • Kirsten E. Zeuner,
  • Stephan Klebe,
  • Michaela Auer-Grumbach,
  • Michaela Butryn,
  • Jürgen Winkler,
  • Dagmar Timmann,
  • Matthis Synofzik,
  • Bart van de Warrenburg,
  • Rebecca Schüle,
  • Ludger Schöls,
  • Stephan Ossowski,
  • Olaf Riess,
  • Jonasz J. Weber,
  • Tobias B. Haack

摘要

Most patients with a rare movement disorder (MD) do not receive a molecular diagnosis, and the underlying genetic variants and mediating genes remain elusive. Here, we evaluate the diagnostic accuracy of conventional and next-generation sequencing-based genetic testing strategies in a cohort of 2,811 individuals with ataxia, spastic paraplegia and dystonia. Exome sequencing establishes genetic diagnoses in 19.3% of cases, and specificity of phenotypic features and age at testing are positive predictors. Genome analysis ‘beyond the exome’ increases the diagnostic yield by 7.5%, mostly due to the improved detection of structural variants and repeat expansions. Unsolved cases are included in the Solve-RD cohort and subjected to gene-burden analysis, providing evidence for loss-of-function variants in X-chromosomal CD99L2 causing spastic ataxia. Cellular studies show that the transmembrane protein CD99L2 occurs mainly in a ubiquitinated form and serves as an activating interactor of the calcium-dependent protease CAPN1. Ablation of cytoplasmic or extracellular domains of CD99L2 leads to its intracellular mislocalization and abrogation of its interplay with CAPN1. Transcriptome analysis in CD99L2 patient-derived fibroblasts reveals synaptic function-specific disturbances. Impaired CAPN1 activation and dysregulation of downstream neuronal pathways constitute the likely molecular cause for neurodegeneration.