1 Human Genetics, Department of Clinical Research, Det Sundhedsvidenskabelige Fakultet, SDU2 Department of Genetics, Institute of Regional Health Research, Det Sundhedsvidenskabelige Fakultet, SDU3 Genetic Medicine Central California, Fresno, CA 93701, USA. firstname.lastname@example.org unknown5 Afdeling IV6 Human Genetics, Department of Clinical Research, Det Sundhedsvidenskabelige Fakultet, SDU7 Department of Genetics, Institute of Regional Health Research, Det Sundhedsvidenskabelige Fakultet, SDU
analysis of 21 families delineates developmental, behavioral and brain abnormalities, and rare variant phenotypes
Chromosome 17p13.3 is a gene rich region that when deleted is associated with the well-known Miller-Dieker syndrome. A recently described duplication syndrome involving this region has been associated with intellectual impairment, autism and occasional brain MRI abnormalities. We report 34 additional patients from 21 families to further delineate the clinical, neurological, behavioral, and brain imaging findings. We found a highly diverse phenotype with inter- and intrafamilial variability, especially in cognitive development. The most specific phenotype occurred in individuals with large duplications that include both the YWHAE and LIS1 genes. These patients had a relatively distinct facial phenotype and frequent structural brain abnormalities involving the corpus callosum, cerebellar vermis, and cranial base. Autism spectrum disorders were seen in a third of duplication probands, most commonly in those with duplications of YWHAE and flanking genes such as CRK. The typical neurobehavioral phenotype was usually seen in those with the larger duplications. We did not confirm the association of early overgrowth with involvement of YWHAE and CRK, or growth failure with duplications of LIS1. Older patients were often overweight. Three variant phenotypes included cleft lip/palate (CLP), split hand/foot with long bone deficiency (SHFLD), and a connective tissue phenotype resembling Marfan syndrome. The duplications in patients with clefts appear to disrupt ABR, while the SHFLD phenotype was associated with duplication of BHLHA9 as noted in two recent reports. The connective tissue phenotype did not have a convincing critical region. Our experience with this large cohort expands knowledge of this diverse duplication syndrome.
American Journal of Medical Genetics. Part a, 2013, Vol 161, Issue 8, p. 1833-52