<p><i>CMIP</i>, a c-maf inducing protein that plays a key role in cytoskeletal remodeling, neuronal migration and synaptic formation, was first associated with specific language impairment and autism through the identification of a deletion in a single patient in 2012. Since then, only two additional individuals with <i>CMIP</i> deletions have been reported, both sharing features of autism and gastrointestinal features. However, a firm causal relationship between variants in <i>CMIP</i> and neurodevelopmental disorders has not yet been established. In this multicentre cohort study, we identified 25 individuals, from 17 unrelated families, with <i>CMIP</i>-related neurodevelopmental disorders, 22 of whom have not been previously reported. Of these, seven individuals carried heterozygous loss-of-function <i>CMIP</i> single-nucleotide variants, while the other 18 individuals had a complete or partial deletion of <i>CMIP</i>, some involving adjacent genes. The clinical phenotype was variable with a high prevalence of developmental delay (20/25), autism spectrum disorder features (13/25), attention-deficit/hyperactivity disorder features (11/25) and other psychiatric disorders (15/25). Epilepsy was present in nine individuals (9/25), of whom three had therapy-resistant seizures. To study the pathogenicity of <i>CMIP</i> variants, a <i>cmip</i> mutant zebrafish model carrying a premature stop codon was investigated. These mutants showed temperature-dependent altered locomotor activity suggestive of seizure-like behavior, which was confirmed by spontaneous epileptiform discharges in <i>cmip</i><sup>+/–</sup> mutant zebrafish larvae. Our patient cohort and the zebrafish data establish <i>CMIP</i> as a gene implicated in neurodevelopmental and neuropsychiatric disorders. We recommend inclusion of <i>CMIP</i> in the genetic work-up of neurodevelopmental delay, with or without autism or psychiatric disorders and epilepsy.</p>

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CMIP as a novel candidate gene for neurodevelopmental and neuropsychiatric disorders

  • Matthias De Wachter,
  • Mathijs B. van der Lei,
  • Amber Decleve,
  • Kevin De Man,
  • Ellen Elinck,
  • An-Sofie Schoonjans,
  • Evan Gouy,
  • Louis Januel,
  • Pauline Monin,
  • Audrey Labalme,
  • Amelle Shillington,
  • Himanshu Goel,
  • Juliet P. Taylor,
  • Katherine Neas,
  • David A. Koolen,
  • Francois Lecoquierre,
  • Alice Goldenberg,
  • Theresa Brunet,
  • Melanie Brugger,
  • Minjie Luo,
  • Magdalena Krygier,
  • Maria Mazurkiewicz-Bełdzińska,
  • Manon Degoutin,
  • Claire Beneteau,
  • Cyril Goizet,
  • David D. Weaver,
  • Emily G. Farrow,
  • Angela Lee,
  • Randi N. Gadea,
  • Berten Ceulemans,
  • Peter A. M. de Witte,
  • Daniëlle Copmans,
  • Anna C. Jansen,
  • R. Frank Kooy

摘要

CMIP, a c-maf inducing protein that plays a key role in cytoskeletal remodeling, neuronal migration and synaptic formation, was first associated with specific language impairment and autism through the identification of a deletion in a single patient in 2012. Since then, only two additional individuals with CMIP deletions have been reported, both sharing features of autism and gastrointestinal features. However, a firm causal relationship between variants in CMIP and neurodevelopmental disorders has not yet been established. In this multicentre cohort study, we identified 25 individuals, from 17 unrelated families, with CMIP-related neurodevelopmental disorders, 22 of whom have not been previously reported. Of these, seven individuals carried heterozygous loss-of-function CMIP single-nucleotide variants, while the other 18 individuals had a complete or partial deletion of CMIP, some involving adjacent genes. The clinical phenotype was variable with a high prevalence of developmental delay (20/25), autism spectrum disorder features (13/25), attention-deficit/hyperactivity disorder features (11/25) and other psychiatric disorders (15/25). Epilepsy was present in nine individuals (9/25), of whom three had therapy-resistant seizures. To study the pathogenicity of CMIP variants, a cmip mutant zebrafish model carrying a premature stop codon was investigated. These mutants showed temperature-dependent altered locomotor activity suggestive of seizure-like behavior, which was confirmed by spontaneous epileptiform discharges in cmip+/– mutant zebrafish larvae. Our patient cohort and the zebrafish data establish CMIP as a gene implicated in neurodevelopmental and neuropsychiatric disorders. We recommend inclusion of CMIP in the genetic work-up of neurodevelopmental delay, with or without autism or psychiatric disorders and epilepsy.