Microdeletion 1p35.2: a recognizable facial phenotype with developmental delay.

We describe two patients with microdeletion 1p35.2, intrauterine growth retardation, small stature, hypermetropia, hearing impairment and developmental delay. Both patients have long, myopathic facies, with fine eyebrows, small mouths and micrognathia. We postulate a role for the histone deacetylase HDAC1 in the facial phenotype and suggest that deletion of KPNA6 may prevent transmission of the 1p35.2 deletion from affected girls to any offspring through impaired zygotic genome activation.

Mosaic structural variation in children with developmental disorders.

Delineating the genetic causes of developmental disorders is an area of active investigation. Mosaic structural abnormalities, defined as copy number or loss of heterozygosity events that are large and present in only a subset of cells, have been detected in 0.2-1.0% of children ascertained for clinical genetic testing. However, the frequency among healthy children in the community is not well characterized, which, if known, could inform better interpretation of the pathogenic burden of this mutational category in children with developmental disorders. In a case-control analysis, we compared the rate of large-scale mosaicism between 1303 children with developmental disorders and 5094 children lacking developmental disorders, using an analytical pipeline we developed, and identified a substantial enrichment in cases (odds ratio = 39.4, P-value 1.073e - 6). A meta-analysis that included frequency estimates among an additional 7000 children with congenital diseases yielded an even stronger statistical enrichment (P-value 1.784e - 11). In addition, to maximize the detection of low-clonality events in probands, we applied a trio-based mosaic detection algorithm, which detected two additional events in probands, including an individual with genome-wide suspected chimerism. In total, we detected 12 structural mosaic abnormalities among 1303 children (0.9%). Given the burden of mosaicism detected in cases, we suspected that many of the events detected in probands were pathogenic. Scrutiny of the genotypic-phenotypic relationship of each detected variant assessed that the majority of events are very likely pathogenic. This work quantifies the burden of structural mosaicism as a cause of developmental disorders.

3q26.33-3q27.2 microdeletion: a new microdeletion syndrome?

We describe three unrelated patients of European descent carrying an overlapping 3q26.33-3q27.2 microdeletion who share common clinical features: neonatal hypotonia, severe feeding problems, specific facial features, abnormal dentition, recurrent upper airways infections, developmental delay and severe growth impairment. One of the patients carries a smaller deletion and presents a milder phenotype. We propose that 3q26.33-3q27.2 microdeletion may represent a novel condition caused by the haploinsufficiency of dosage sensitive genes, several of which are involved in brain development.

Contribution of global rare copy-number variants to the risk of sporadic congenital heart disease.

Previous studies have shown that copy-number variants (CNVs) contribute to the risk of complex developmental phenotypes. However, the contribution of global CNV burden to the risk of sporadic congenital heart disease (CHD) remains incompletely defined. We generated genome-wide CNV data by using Illumina 660W-Quad SNP arrays in 2,256 individuals with CHD, 283 trio CHD-affected families, and 1,538 controls. We found association of rare genic deletions with CHD risk (odds ratio [OR] = 1.8, p = 0.0008). Rare deletions in study participants with CHD had higher gene content (p = 0.001) with higher haploinsufficiency scores (p = 0.03) than they did in controls, and they were enriched with Wnt-signaling genes (p = 1 × 10(-5)). Recurrent 15q11.2 deletions were associated with CHD risk (OR = 8.2, p = 0.02). Rare de novo CNVs were observed in ~5% of CHD trios; 10 out of 11 occurred on the paternally transmitted chromosome (p = 0.01). Some of the rare de novo CNVs spanned genes known to be involved in heart development (e.g., HAND2 and GJA5). Rare genic deletions contribute ~4% of the population-attributable risk of sporadic CHD. Second to previously described CNVs at 1q21.1, deletions at 15q11.2 and those implicating Wnt signaling are the most significant contributors to the risk of sporadic CHD. Rare de novo CNVs identified in CHD trios exhibit paternal origin bias.

A case of mosaic trisomy 19q12-q13.2 with high BMI, macrocephaly, and speech delay: does USF2 determine size in the 19q phenotypes?

Hall et al. (2010) describe a boy with mosaic trisomy of the proximal part of 19q, with obesity, macrocephaly and global developmental delay. The patient is interesting with regard to his cytogenetic abnormality, which is smaller than those previously reported, and does not include the candidate obesity and insulin-resistance genes identified by other authors (Zung et al., 2007; Davidsson et al., 2010) as possible causes of the overweight/obesity seen in four of five previously documented patients. This suggests that a novel obesity locus may reside in the duplicated region 19q13.11­q13.2. We present a phenotypically similar boy with intrachromosomal insertion of material derived from proximal 19q into proximal 19p, causing mosaic trisomy 19q12­q13.2, and consider the role of USF2, a master transcriptional regulator of metabolic genes, in 19q phenotypes.