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Article Abstract
We describe an autosomal dominant disorder associated with loss-of-function variants in the Cell cycle associated protein 1 (CAPRIN1; MIM*601178). CAPRIN1 encodes a ubiquitous protein that regulates the transport and translation of neuronal mRNAs critical for synaptic plasticity, as well as mRNAs encoding proteins important for cell proliferation and migration in multiple cell types. We identified 12 cases with loss-of-function CAPRIN1 variants, and a neurodevelopmental phenotype characterized by language impairment/speech delay (100%), intellectual disability (83%), attention deficit hyperactivity disorder (82%) and autism spectrum disorder (67%). Affected individuals also had respiratory problems (50%), limb/skeletal anomalies (50%), developmental delay (42%) feeding difficulties (33%), seizures (33%) and ophthalmologic problems (33%). In patient-derived lymphoblasts and fibroblasts, we showed a monoallelic expression of the wild-type allele, and a reduction of the transcript and protein compatible with a half dose. To further study pathogenic mechanisms, we generated sCAPRIN1+/- human induced pluripotent stem cells via CRISPR-Cas9 mutagenesis and differentiated them into neuronal progenitor cells and cortical neurons. CAPRIN1 loss caused reduced neuronal processes, overall disruption of the neuronal organization and an increased neuronal degeneration. We also observed an alteration of mRNA translation in CAPRIN1+/- neurons, compatible with its suggested function as translational inhibitor. CAPRIN1+/- neurons also showed an impaired calcium signalling and increased oxidative stress, two mechanisms that may directly affect neuronal networks development, maintenance and function. According to what was previously observed in the mouse model, measurements of activity in CAPRIN1+/- neurons via micro-electrode arrays indicated lower spike rates and bursts, with an overall reduced activity. In conclusion, we demonstrate that CAPRIN1 haploinsufficiency causes a novel autosomal dominant neurodevelopmental disorder and identify morphological and functional alterations associated with this disorder in human neuronal models.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10169411 | PMC |
| http://dx.doi.org/10.1093/brain/awac278 | DOI Listing |
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Article Synopsis
- The study identifies a new autosomal dominant disorder linked to loss-of-function variants in the CAPRIN1 gene, which plays a role in neuronal mRNA transport and translation, affecting cognitive and developmental functions.
- Out of 12 cases studied, patients exhibited a range of neurodevelopmental issues, including language impairments, intellectual disabilities, ADHD, and autism, along with various physical health problems.
- Using CRISPR-Cas9 technology, the researchers created CAPRIN1 deficient stem cells, finding that the loss of this gene leads to disrupted neuronal organization, reduced neuronal function, and impaired calcium signaling, suggesting significant impacts on brain development and function.