TY - JOUR
T1 - A defect in myoblast fusion underlies Carey-Fineman-Ziter syndrome
AU - Moebius Syndrome Research Consortium
AU - Di Gioia, Silvio Alessandro
AU - Connors, Samantha
AU - Matsunami, Norisada
AU - Cannavino, Jessica
AU - Rose, Matthew F.
AU - Gilette, Nicole M.
AU - Artoni, Pietro
AU - De Macena Sobreira, Nara Lygia
AU - Chan, Wai Man
AU - Webb, Bryn D.
AU - Robson, Caroline D.
AU - Cheng, Long
AU - Van Ryzin, Carol
AU - Ramirez-Martinez, Andres
AU - Mohassel, Payam
AU - Leppert, Mark
AU - Scholand, Mary Beth
AU - Grunseich, Christopher
AU - Ferreira, Carlos R.
AU - Hartman, Tyler
AU - Hayes, Ian M.
AU - Morgan, Tim
AU - Markie, David M.
AU - Fagiolini, Michela
AU - Swift, Amy
AU - Chines, Peter S.
AU - Speck-Martins, Carlos E.
AU - Collins, Francis S.
AU - Jabs, Ethylin Wang
AU - Bönnemann, Carsten G.
AU - Olson, Eric N.
AU - Carey, John C.
AU - Robertson, Stephen P.
AU - Manoli, Irini
AU - Engle, Elizabeth C.
AU - Andrews, Caroline V.
AU - Barry, Brenda J.
AU - Hunter, David G.
AU - Mackinnon, Sarah E.
AU - Shaaban, Sherin
AU - Erazo, Monica
AU - Frempong, Tamiesha
AU - Hao, Ke
AU - Naidich, Thomas P.
AU - Rucker, Janet C.
AU - Zhang, Zhongyang
AU - Biesecker, Barbara B.
AU - Bonnycastle, Lori L.
AU - Brewer, Carmen C.
AU - Hutchinson, Elizabeth B.
N1 - Publisher Copyright:
© The Author(s) 2017.
PY - 2017/7/6
Y1 - 2017/7/6
N2 - Multinucleate cellular syncytial formation is a hallmark of skeletal muscle differentiation. Myomaker, encoded by Mymk (Tmem8c), is a well-conserved plasma membrane protein required for myoblast fusion to form multinucleated myotubes in mouse, chick, and zebrafish. Here, we report that autosomal recessive mutations in MYMK (OMIM 615345) cause Carey-Fineman-Ziter syndrome in humans (CFZS; OMIM 254940) by reducing but not eliminating MYMK function. We characterize MYMK-CFZS as a congenital myopathy with marked facial weakness and additional clinical and pathologic features that distinguish it from other congenital neuromuscular syndromes. We show that a heterologous cell fusion assay in vitro and allelic complementation experiments in mymk knockdown and mymkinsT/insT zebrafish in vivo can differentiate between MYMK wild type, hypomorphic and null alleles. Collectively, these data establish that MYMK activity is necessary for normal muscle development and maintenance in humans, and expand the spectrum of congenital myopathies to include cell-cell fusion deficits.
AB - Multinucleate cellular syncytial formation is a hallmark of skeletal muscle differentiation. Myomaker, encoded by Mymk (Tmem8c), is a well-conserved plasma membrane protein required for myoblast fusion to form multinucleated myotubes in mouse, chick, and zebrafish. Here, we report that autosomal recessive mutations in MYMK (OMIM 615345) cause Carey-Fineman-Ziter syndrome in humans (CFZS; OMIM 254940) by reducing but not eliminating MYMK function. We characterize MYMK-CFZS as a congenital myopathy with marked facial weakness and additional clinical and pathologic features that distinguish it from other congenital neuromuscular syndromes. We show that a heterologous cell fusion assay in vitro and allelic complementation experiments in mymk knockdown and mymkinsT/insT zebrafish in vivo can differentiate between MYMK wild type, hypomorphic and null alleles. Collectively, these data establish that MYMK activity is necessary for normal muscle development and maintenance in humans, and expand the spectrum of congenital myopathies to include cell-cell fusion deficits.
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U2 - 10.1038/ncomms16077
DO - 10.1038/ncomms16077
M3 - Article
C2 - 28681861
AN - SCOPUS:85022192421
SN - 2041-1723
VL - 8
JO - Nature communications
JF - Nature communications
M1 - 16077
ER -