Ring chromosome 12 with inverted microduplication of 12p13.3 involving the Von Willebrand Factor gene associated with cryptogenic stroke in a young adult male.

We report a 35-year-old male with a ring chromosome 12 originally diagnosed 20 years prior to presentation with an ischemic stroke. Array CGH analysis revealed a sub-microscopic microdeletion and microduplication within 12p13.3 and a microdeletion in 12q24.33. FISH analysis further revealed that the duplication was in an inverted orientation and included exons 35-52 of the dosage-sensitive Von Willebrand Factor (VWF) gene. Partial duplication of this gene, which has a role in the clotting cascade, suggests a potential mechanism for generating a pro-thrombotic state that may have contributed to a premature cerebrovascular event. Evidence of raised VWF antigen levels and VWF activity levels in the highest quartile provides support for this hypothesis. This case illustrates that when a ring chromosome is identified, the possibility of cryptic genomic rearrangements needs to be considered as these may have implications in predicting natural history.

Novel deletion variants of 9q13-q21.12 and classical euchromatic variants of 9q12/qh involve deletion, duplication and triplication of large tracts of segmentally duplicated pericentromeric euchromatin.

Large-scale copy number variation that is cytogenetically visible in normal individuals has been described as euchromatic variation but needs to be distinguished from pathogenic euchromatic deletion or duplication. Here, we report eight patients (three families and two individuals) with interstitial deletions of 9q13-q21.12. Fluorescence in situ hybridisation with a large panel of BACs showed that all the deleted clones were from extensive tracts of segmentally duplicated euchromatin, copies of which map to both the long and short arms of chromosome 9. The variety of reasons for which these patients were ascertained, and the phenotypically normal parents, indicates that this is a novel euchromatic variant with no phenotypic effect. Further, four patients with classical euchromatic variants of 9q12/qh or 9p12 were also shown to have duplications or triplications of this segmentally duplicated material common to both 9p and 9q. The cytogenetic boundaries between the segmentally duplicated regions and flanking unique sequences were mapped to 9p13.1 in the short arm (BAC RP11-402N8 at 38.7 Mb) and to 9q21.12 in the long arm (BAC RP11-88I18 at 70.3 Mb). The BACs identified in this study should in future make it possible to differentiate between clinically significant deletions or duplications and euchromatic variants with no established phenotypic consequences.