Mutation in CPT1C associated with pure autosomal dominant spastic paraplegia

Carlo Rinaldi*, Thomas Schmidt, Alan J. Situ, Janel O. Johnson, Philip R. Lee, Ke Lian Chen, Laura C. Bott, Rut Fadó, George H. Harmison, Sara Parodi, Christopher Grunseich, Benoît Renvoisé, Leslie G. Biesecker, Giuseppe De Michele, Filippo M. Santorelli, Alessandro Filla, Giovanni Stevanin, Alexandra Dürr, Alexis Brice, Núria CasalsBryan J. Traynor, Craig Blackstone, Tobias S. Ulmer, Kenneth H. Fischbeck

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

58 Scopus citations

Abstract

IMPORTANCE The family of genes implicated in hereditary spastic paraplegias (HSPs) is quickly expanding, mostly owing to the widespread availability of next-generation DNA sequencing methods. Nevertheless, a genetic diagnosis remains unavailable for many patients. OBJECTIVE To identify the genetic cause for a novel form of pure autosomal dominant HSP. DESIGN, SETTING, AND PARTICIPANTS We examined and followed up with a family presenting to a tertiary referral center for evaluation of HSP for a decade until August 2014. Whole-exome sequencing was performed in 4 patients from the same family and was integrated with linkage analysis. Sanger sequencing was used to confirm the presence of the candidate variant in the remaining affected and unaffected members of the family and screen the additional patients with HSP. Five affected and 6 unaffected participants from a 3-generation family with pure adult-onset autosomal dominant HSP of unknown genetic origin were included. Additionally, 163 unrelated participants with pure HSP of unknown genetic cause were screened. MAIN OUTCOME AND MEASURE Mutation in the neuronal isoform of carnitine palmitoyl-transferase (CPT1C) gene. RESULTS We identified the nucleotide substitution c.109C>T in exon 3 of CPT1C, which determined the base substitution of an evolutionarily conserved Cys residue for an Arg in the gene product. This variant strictly cosegregated with the disease phenotype and was absent in online single-nucleotide polymorphism databases and in 712 additional exomes of control participants. We showed that CPT1C, which localizes to the endoplasmic reticulum, is expressed in motor neurons and interacts with atlastin-1, an endoplasmic reticulum protein encoded by the ATL1 gene known to be mutated in pure HSPs. The mutation, as indicated by nuclear magnetic resonance spectroscopy studies, alters the protein conformation and reduces the mean (SD) number (213.0 [46.99] vs 81.9 [14.2]; P < .01) and size (0.29 [0.01] vs 0.26 [0.01]; P < .05) of lipid droplets on overexpression in cells. We also observed a reduction of mean (SD) lipid droplets in primary cortical neurons isolated from Cpt1c-/- mice as compared with wild-type mice (1.0 [0.12] vs 0.44 [0.05]; P < .001), suggesting a dominant negative mechanism for the mutation. CONCLUSIONS AND RELEVANCE This study expands the genetics of autosomal dominant HSP and is the first, to our knowledge, to link mutation in CPT1C with a human disease. The association of the CPT1C mutation with changes in lipid droplet biogenesis supports a role for altered lipid-mediated signal transduction in HSP pathogenesis.

Original languageEnglish (US)
Pages (from-to)561-570
Number of pages10
JournalJAMA Neurology
Volume72
Issue number5
DOIs
StatePublished - May 2015

Funding

Funding/Support: This research was supported in part by the Intramural Research Program of the National Institutes of Health, National Institute of Neurological Disorders and Stroke, grant Z01-AG000949-02 from the National Institute on Aging (Drs Traynor and Johnson), the European Union’s Seventh Framework Programme for Research (Dr Brice), grant ANR-10-IAIHU-06 from the Investissements d’avenir (Drs Brice and Dürr), and the French Agency for Research (Dr Stevanin). Dr Lee is supported by funds from the Division of Intramural Research of the National Institute of Child Health and Human Development. This research was supported in part by the Intramural Research Program of the National Institutes of Health, National Institute of Neurological Disorders and Stroke, grant Z01-AG000949-02 from the National Institute on Aging (Drs Traynor and Johnson), the European Union's Seventh Framework Programme for Research (Dr Brice), grant ANR-10-IAIHU-06 from the Investissements d'avenir (Drs Brice and D?rr), and the French Agency for Research (Dr Stevanin). Dr Lee is supported by funds from the Division of Intramural Research of the National Institute of Child Health and Human Development.

ASJC Scopus subject areas

  • Clinical Neurology

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