Disease Models & Mechanisms (Feb 2020)

Modelling the pathogenesis of X-linked distal hereditary motor neuropathy using patient-derived iPSCs

  • Gonzalo Perez-Siles,
  • Anthony Cutrupi,
  • Melina Ellis,
  • Jakob Kuriakose,
  • Sharon La Fontaine,
  • Di Mao,
  • Motonari Uesugi,
  • Reinaldo I. Takata,
  • Carlos E. Speck-Martins,
  • Garth Nicholson,
  • Marina L. Kennerson,
  • Annemieke Aartsma-Rus,
  • James Dowling,
  • Maaike van Putten

DOI
https://doi.org/10.1242/dmm.041541
Journal volume & issue
Vol. 13, no. 2

Abstract

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ATP7A encodes a copper-transporting P-type ATPase and is one of 23 genes in which mutations produce distal hereditary motor neuropathy (dHMN), a group of diseases characterized by length-dependent axonal degeneration of motor neurons. We have generated induced pluripotent stem cell (iPSC)-derived motor neurons from a patient with the p.T994I ATP7A gene mutation as an in vitro model for X-linked dHMN (dHMNX). Patient motor neurons show a marked reduction of ATP7A protein levels in the soma when compared to control motor neurons and failed to upregulate expression of ATP7A under copper-loading conditions. These results recapitulate previous findings obtained in dHMNX patient fibroblasts and in primary cells from a rodent model of dHMNX, indicating that patient iPSC-derived motor neurons will be an important resource for studying the role of copper in the pathogenic processes that lead to axonal degeneration in dHMNX.

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