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Mutations in KLHL40 are a frequent cause of severe autosomal-recessive nemaline myopathy.

American journal of human genetics (2013-06-12)
Gianina Ravenscroft, Satoko Miyatake, Vilma-Lotta Lehtokari, Emily J Todd, Pauliina Vornanen, Kyle S Yau, Yukiko K Hayashi, Noriko Miyake, Yoshinori Tsurusaki, Hiroshi Doi, Hirotomo Saitsu, Hitoshi Osaka, Sumimasa Yamashita, Takashi Ohya, Yuko Sakamoto, Eriko Koshimizu, Shintaro Imamura, Michiaki Yamashita, Kazuhiro Ogata, Masaaki Shiina, Robert J Bryson-Richardson, Raquel Vaz, Ozge Ceyhan, Catherine A Brownstein, Lindsay C Swanson, Sophie Monnot, Norma B Romero, Helge Amthor, Nina Kresoje, Padma Sivadorai, Cathy Kiraly-Borri, Goknur Haliloglu, Beril Talim, Diclehan Orhan, Gulsev Kale, Adrian K Charles, Victoria A Fabian, Mark R Davis, Martin Lammens, Caroline A Sewry, Adnan Manzur, Francesco Muntoni, Nigel F Clarke, Kathryn N North, Enrico Bertini, Yoram Nevo, Ekkhard Willichowski, Inger E Silberg, Haluk Topaloglu, Alan H Beggs, Richard J N Allcock, Ichizo Nishino, Carina Wallgren-Pettersson, Naomichi Matsumoto, Nigel G Laing
RESUMO

Nemaline myopathy (NEM) is a common congenital myopathy. At the very severe end of the NEM clinical spectrum are genetically unresolved cases of autosomal-recessive fetal akinesia sequence. We studied a multinational cohort of 143 severe-NEM-affected families lacking genetic diagnosis. We performed whole-exome sequencing of six families and targeted gene sequencing of additional families. We identified 19 mutations in KLHL40 (kelch-like family member 40) in 28 apparently unrelated NEM kindreds of various ethnicities. Accounting for up to 28% of the tested individuals in the Japanese cohort, KLHL40 mutations were found to be the most common cause of this severe form of NEM. Clinical features of affected individuals were severe and distinctive and included fetal akinesia or hypokinesia and contractures, fractures, respiratory failure, and swallowing difficulties at birth. Molecular modeling suggested that the missense substitutions would destabilize the protein. Protein studies showed that KLHL40 is a striated-muscle-specific protein that is absent in KLHL40-associated NEM skeletal muscle. In zebrafish, klhl40a and klhl40b expression is largely confined to the myotome and skeletal muscle, and knockdown of these isoforms results in disruption of muscle structure and loss of movement. We identified KLHL40 mutations as a frequent cause of severe autosomal-recessive NEM and showed that it plays a key role in muscle development and function. Screening of KLHL40 should be a priority in individuals who are affected by autosomal-recessive NEM and who present with prenatal symptoms and/or contractures and in all Japanese individuals with severe NEM.