Array-CGH : Erfahrungen aus Schleswig-Holstein

Structural genome aberrations are frequently associated with highly variable congenital phenotypes involving mental retardation and developmental delay. Although some of these aberrations may result in recognizable phenotypes, a high degree of phenotypic variability often complicates a comprehensive clinical and genetic diagnosis. We describe four patients with overlapping deletions in chromosomal region 1q44, who show developmental delay, in particular of expressive speech, seizures, hypotonia, CNS anomalies, including variable thickness of the abnormal corpus callosum in three of them. High resolution oligonucleotide and SNP array-based segmental aneuploidy profiling showed that these three patients share a 0.440 Mb interstitial deletion, which does not overlap with previously published consensus regions of 1q44 deletions. Two copies of AKT3 and ZNF238, two previously proposed dosage sensitive candidate genes for microcephaly and agenesis of the corpus callosum, were retained in two of our patients. The deletion shared by our patients encompassed the FAM36A, HNRPU, EFCAB2 and KIF26B genes. Since HNRPU is involved in the regulation of embryonic brain development, this represents a novel plausible candidate gene for the combination of developmental delay, speech delay, hypotonia, hypo- or agenesis of the corpus callosum, and seizures in patients with 1q44 deletions. Since only one of the two patients with deletions including the ZNF124 gene showed a vermis hypoplasia, mere hemizygosity for this gene is not sufficient to cause this anomaly. Moreover, to reconcile the variability in the corpus callosum thickness, additional mechanisms, such as unmasking of hemizygous mutations, position effects and possible interactions with other loci need consideration. Copyright 2010 Elsevier Masson SAS. All rights reserved.

Seizure disorders of the rolandic region comprise a spectrum of different epilepsy syndromes ranging from benign rolandic epilepsy to more severe seizure disorders including atypical benign partial epilepsy/pseudo-Lennox syndrome,electrical status epilepticus during sleep, and Landau-Kleffner syndrome. Centrotemporal spikes are the unifying electroencephalographic hallmark of these benign focal epilepsies, indicating a pathophysiologic relationship between the various epilepsies arising from the rolandic region. The etiology of these epilepsies is elusive, but a genetic component is assumed given the heritability of the characteristic electrographic trait. Herein we report on three patients with intellectual disability, various dysmorphic features, and epilepsies involving the rolandic region, carrying previously undescribed deletions in 16p13. The only gene located in the critical region shared by all three patients is GRIN2A coding for the alpha-2 subunit of the neuronal N-methyl-D-aspartate(NMDA) receptor.

We report a 21-year-old patient with speech problems, autistic traits, dysmorphic facial features, broad thumbs with short distal phalanges and a pancreatic gastrinoma. Array-CGH demonstrated a 0.57 Mb de novo deletion in chromosome 11q13.1. The deleted region contains several genes which likely contribute to the patient's complex phenotype, including the MEN1 gene. The deletion of the MEN1 gene is causing multiple endocrine neoplasia type 1 (MEN1). The neurodevelopmental phenotype of the patient might be associated with the deletion of the genes NRXN2 and PPP2R5B which have been described to be involved in synaptogenesis and dendritic branching. According to our knowledge, we report for the first time a patient with the combination of a neurodevelopmental phenotype and MEN1 caused by a microdeletion on chromosome 11. Copyright © 2011 Elsevier Masson SAS. All rights reserved.