Mutations in FBXL4, encoding a mitochondrial protein, cause early-onset mitochondrial encephalomyopathy.

Authors

Xiaowu Gai
Daniele Ghezzi
Mark A Johnson
Caroline A Biagosch
Hanan E Shamseldin
Tobias B Haack
Aurelio Reyes
Mai Tsukikawa
Claire A Sheldon
Satish Srinivasan
Matteo Gorza
Laura S Kremer
Thomas Wieland
Tim M Strom
Erzsebet Polyak
Emily Place
Mark Consugar
Julian Ostrovsky
Sara Vidoni
Alan J Robinson
Lee-Jun Wong
Neal Sondheimer
Mustafa A Salih
Emtethal Al-Jishi
Christopher P. Raab MD, MS, Lehigh Valley Health NetworkFollow
Charles Bean
Francesca Furlan
Rossella Parini
Costanza Lamperti
Johannes A Mayr
Vassiliki Konstantopoulou
Martina Huemer
Eric A Pierce
Thomas Meitinger
Peter Freisinger
Wolfgang Sperl
Holger Prokisch
Fowzan S Alkuraya
Marni J Falk
Massimo Zeviani

Publication/Presentation Date

9-5-2013

Abstract

Whole-exome sequencing and autozygosity mapping studies, independently performed in subjects with defective combined mitochondrial OXPHOS-enzyme deficiencies, identified a total of nine disease-segregating FBXL4 mutations in seven unrelated mitochondrial disease families, composed of six singletons and three siblings. All subjects manifested early-onset lactic acidemia, hypotonia, and developmental delay caused by severe encephalomyopathy consistently associated with progressive cerebral atrophy and variable involvement of the white matter, deep gray nuclei, and brainstem structures. A wide range of other multisystem features were variably seen, including dysmorphism, skeletal abnormalities, poor growth, gastrointestinal dysmotility, renal tubular acidosis, seizures, and episodic metabolic failure. Mitochondrial respiratory chain deficiency was present in muscle or fibroblasts of all tested individuals, together with markedly reduced oxygen consumption rate and hyperfragmentation of the mitochondrial network in cultured cells. In muscle and fibroblasts from several subjects, substantially decreased mtDNA content was observed. FBXL4 is a member of the F-box family of proteins, some of which are involved in phosphorylation-dependent ubiquitination and/or G protein receptor coupling. We also demonstrate that FBXL4 is targeted to mitochondria and localizes in the intermembrane space, where it participates in an approximately 400 kDa protein complex. These data strongly support a role for FBXL4 in controlling bioenergetic homeostasis and mtDNA maintenance. FBXL4 mutations are a recurrent cause of mitochondrial encephalomyopathy onset in early infancy.

Volume

93

Issue

3

First Page

482

Last Page

495

ISSN

1537-6605

Published In/Presented At

Gai, X., Ghezzi, D., Johnson, M. A., Biagosch, C. A., Shamseldin, H. E., Haack, T. B., Reyes, A., Tsukikawa, M., Sheldon, C. A., Srinivasan, S., Gorza, M., Kremer, L. S., Wieland, T., Strom, T. M., Polyak, E., Place, E., Consugar, M., Ostrovsky, J., Vidoni, S., Robinson, A. J., … Zeviani, M. (2013). Mutations in FBXL4, encoding a mitochondrial protein, cause early-onset mitochondrial encephalomyopathy. American journal of human genetics, 93(3), 482–495. https://doi.org/10.1016/j.ajhg.2013.07.016

Disciplines

Medicine and Health Sciences | Pediatrics

PubMedID

23993194

Department(s)

Department of Pediatrics

Document Type

Article