Darren Farber scite author profile

We report the identification of a recurrent 520-kbp 16p12.1 microdeletion significantly associated with childhood developmental delay. The microdeletion was detected in 20/11,873 cases vs. 2/8,540 controls (p=0.0009, OR=7.2) and replicated in a second series of 22/9,254 cases vs. 6/6,299 controls (p=0.028, OR=2.5). Most deletions were inherited with carrier parents likely to manifest neuropsychiatric phenotypes (p=0.037, OR=6). Probands were more likely to carry an additional large CNV when compared to matched controls (10/42 cases, p=5.7×10-5, OR=6.65). Clinical features of cases with two mutations were distinct from and/or more severe than clinical features of patients carrying only the co-occurring mutation. Our data suggest a two-hit model in which the 16p12.1 microdeletion both predisposes to neuropsychiatric phenotypes as a single event and exacerbates neurodevelopmental phenotypes in association with other large deletions or duplications. Analysis of other microdeletions with variable expressivity suggests that this two-hit model may be more generally applicable to neuropsychiatric disease.

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Exonic Deletions in AUTS2 Cause a Syndromic Form of Intellectual Disability and Suggest a Critical Role for the C Terminus

Beunders

Voorhoeve

Golzio

et al. 2013

The American Journal of Human Genetics

149

290

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Genomic rearrangements involving AUTS2 (7q11.22) are associated with autism and intellectual disability (ID), although evidence for causality is limited. By combining the results of diagnostic testing of 49,684 individuals, we identified 24 microdeletions that affect at least one exon of AUTS2, as well as one translocation and one inversion each with a breakpoint within the AUTS2 locus. Comparison of 17 well-characterized individuals enabled identification of a variable syndromic phenotype including ID, autism, short stature, microcephaly, cerebral palsy, and facial dysmorphisms. The dysmorphic features were more pronounced in persons with 3'AUTS2 deletions. This part of the gene is shown to encode a C-terminal isoform (with an alternative transcription start site) expressed in the human brain. Consistent with our genetic data, suppression of auts2 in zebrafish embryos caused microcephaly that could be rescued by either the full-length or the C-terminal isoform of AUTS2. Our observations demonstrate a causal role of AUTS2 in neurocognitive disorders, establish a hitherto unappreciated syndromic phenotype at this locus, and show how transcriptional complexity can underpin human pathology. The zebrafish model provides a valuable tool for investigating the etiology of AUTS2 syndrome and facilitating gene-function analysis in the future.

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Assessment of Pediatric Pseudotumor Cerebri Clinical Characteristics and Outcomes

et al. 2020

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Pseudotumor cerebri also known as idiopathic intracranial hypertension is a relatively uncommon disorder of unknown pathophysiology. Although pseudotumor cerebri occurs in both children and adults, the pseudotumor cerebri literature is heavily dominated by adult studies. The aim of this study is to retrospectively describe the clinical presentation, imaging, treatment, and outcomes of a large pediatric pseudotumor cerebri population over a 23-year period. We also discuss secondary pseudotumor cerebri (44%) as well as the increasingly recognized patient subgroups without headache (13.3%) and without papilledema (7.3%). Female sex, obesity, and initial symptoms were consistent with the literature; however radiographic findings were surprisingly low in this cohort. Headache outcomes at 1 week, 1 month, and 3 months following initial lumbar puncture/treatment and visual function outcomes are reported.

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Child Neurology: Triosephosphate isomerase deficiency

et al. 2020

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Darren Farber

A recurrent 16p12.1 microdeletion supports a two-hit model for severe developmental delay

Exonic Deletions in AUTS2 Cause a Syndromic Form of Intellectual Disability and Suggest a Critical Role for the C Terminus

Assessment of Pediatric Pseudotumor Cerebri Clinical Characteristics and Outcomes

Child Neurology: Triosephosphate isomerase deficiency

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