TY - JOUR
T1 - Haploinsufficiency of a spliceosomal GTPase encoded by EFTUD2 causes mandibulofacial dysostosis with microcephaly
AU - Lines, Matthew A.
AU - Huang, Lijia
AU - Schwartzentruber, Jeremy
AU - Douglas, Stuart L.
AU - Lynch, Danielle C.
AU - Beaulieu, Chandree
AU - Guion-Almeida, Maria Leine
AU - Zechi-Ceide, Roseli Maria
AU - Gener, Blanca
AU - Gillessen-Kaesbach, Gabriele
AU - Nava, Caroline
AU - Baujat, Genevive
AU - Horn, Denise
AU - Kini, Usha
AU - Caliebe, Almuth
AU - Alanay, Yasemin
AU - Utine, Gulen Eda
AU - Lev, Dorit
AU - Kohlhase, Jürgen
AU - Grix, Arthur W.
AU - Lohmann, Dietmar R.
AU - Hehr, Ute
AU - Böhm, Detlef
AU - Majewski, Jacek
AU - Bulman, Dennis E.
AU - Wieczorek, Dagmar
AU - Boycott, Kym M.
N1 - Funding Information:
The authors would first like to thank the study participants and their families, without whose participation this work would not be possible. This work was funded by the government of Canada through Genome Canada, the Canadian Institutes of Health Research (CIHR), and the Ontario Genomics Institute (OGI-049). Additional funding was provided by Genome Quebec, Genome British Columbia, and the Physicians' Services Incorporated Foundation. This work was part of the CRANIRARE Network funded through a grant from the German Ministry of Research and Education to D.R.L. and D.W. (BMBF 01GM0802). K.M.B. is supported by a Clinical Investigatorship Award from the CIHR Institute of Genetics. This work was selected for study by the FORGE Canada Steering Committee, consisting of K. Boycott (University of Ottawa), J. Friedman (University of British Columbia), J. Michaud (University of Montréal), F. Bernier (University of Calgary), M. Brudno (University of Toronto), B. Fernandez (Memorial University), B. Knoppers (McGill University), M. Samuels (Université de Montréal), and S. Scherer (University of Toronto). We would like to thank Janet Marcadier (clinical coordinator) for her contribution to the infrastructure of the FORGE Canada Consortium. We also wish to acknowledge the contribution of the high-throughput sequencing platform of the McGill University and Génome Québec Innovation Centre, Montréal, Canada.
PY - 2012/2/10
Y1 - 2012/2/10
N2 - Mandibulofacial dysostosis with microcephaly (MFDM) is a rare sporadic syndrome comprising craniofacial malformations, microcephaly, developmental delay, and a recognizable dysmorphic appearance. Major sequelae, including choanal atresia, sensorineural hearing loss, and cleft palate, each occur in a significant proportion of affected individuals. We present detailed clinical findings in 12 unrelated individuals with MFDM; these 12 individuals compose the largest reported cohort to date. To define the etiology of MFDM, we employed whole-exome sequencing of four unrelated affected individuals and identified heterozygous mutations or deletions of EFTUD2 in all four. Validation studies of eight additional individuals with MFDM demonstrated causative EFTUD2 mutations in all affected individuals tested. A range of EFTUD2-mutation types, including null alleles and frameshifts, is seen in MFDM, consistent with haploinsufficiency; segregation is de novo in all cases assessed to date. U5-116kD, the protein encoded by EFTUD2, is a highly conserved spliceosomal GTPase with a central regulatory role in catalytic splicing and post-splicing-complex disassembly. MFDM is the first multiple-malformation syndrome attributed to a defect of the major spliceosome. Our findings significantly extend the range of reported spliceosomal phenotypes in humans and pave the way for further investigation in related conditions such as Treacher Collins syndrome.
AB - Mandibulofacial dysostosis with microcephaly (MFDM) is a rare sporadic syndrome comprising craniofacial malformations, microcephaly, developmental delay, and a recognizable dysmorphic appearance. Major sequelae, including choanal atresia, sensorineural hearing loss, and cleft palate, each occur in a significant proportion of affected individuals. We present detailed clinical findings in 12 unrelated individuals with MFDM; these 12 individuals compose the largest reported cohort to date. To define the etiology of MFDM, we employed whole-exome sequencing of four unrelated affected individuals and identified heterozygous mutations or deletions of EFTUD2 in all four. Validation studies of eight additional individuals with MFDM demonstrated causative EFTUD2 mutations in all affected individuals tested. A range of EFTUD2-mutation types, including null alleles and frameshifts, is seen in MFDM, consistent with haploinsufficiency; segregation is de novo in all cases assessed to date. U5-116kD, the protein encoded by EFTUD2, is a highly conserved spliceosomal GTPase with a central regulatory role in catalytic splicing and post-splicing-complex disassembly. MFDM is the first multiple-malformation syndrome attributed to a defect of the major spliceosome. Our findings significantly extend the range of reported spliceosomal phenotypes in humans and pave the way for further investigation in related conditions such as Treacher Collins syndrome.
UR - http://www.scopus.com/inward/record.url?scp=84857055806&partnerID=8YFLogxK
U2 - 10.1016/j.ajhg.2011.12.023
DO - 10.1016/j.ajhg.2011.12.023
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C2 - 22305528
AN - SCOPUS:84857055806
SN - 0002-9297
VL - 90
SP - 369
EP - 377
JO - American Journal of Human Genetics
JF - American Journal of Human Genetics
IS - 2
ER -