Journal
CLINICAL GENETICS
Volume 97, Issue 1, Pages 125-137Publisher
WILEY
DOI: 10.1111/cge.13537
Keywords
autism spectrum disorder; compound heterozygosity; developmental delay; neurexin 1; Pitt-Hopkins-like syndrome 2; schizophrenia
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Neurexins are presynaptic cell adhesion molecules critically involved in synaptogenesis and vesicular neurotransmitter release. They are encoded by three genes (NRXN1-3), each yielding a longer alpha (alpha) and a shorter beta (beta) transcript. Deletions spanning the promoter and the initial exons of theNRXN1gene, located in chromosome 2p16.3, are associated with a variety of neurodevelopmental, psychiatric, neurological and neuropsychological phenotypes. We have performed a systematic review to define (a) the clinical phenotypes most associated with mono-allelic exonicNRXN1deletions, and (b) the phenotypic features ofNRXN1bi-allelic deficiency due to compound heterozygous deletions/mutations. Clinically, three major conclusions can be drawn: (a) incomplete penetrance and pleiotropy do not allow reliable predictions of clinical outcome following prenatal detection of mono-allelic exonicNRXN1deletions. Newborn carriers should undergo periodic neuro-behavioral observations for the timely detection of warning signs and the prescription of early behavioral intervention; (b) the presence of additional independent genetic risk factors should always be sought, as they may influence prognosis; (c) children with exonicNRXN1deletions displaying early-onset, severe psychomotor delay in the context of a Pitt-Hopkins-like syndrome 2 phenotype, should undergo DNA sequencing of the sparedNRXN1allele in search for mutations or very small insertions/deletions.
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