Constitutional chromosomal events at 22q11 and 15q26 in a child with a pilocytic astrocytoma of the spinal cord

Samantha Mascelli,Claudia Milanaccio,Patrizia De Marco,Andrea Rossi,Giovanni Morana,Alessandro Raso,Maria Garrè,Armando Cama,Marco Pavanello,Paolo Nozza,Valeria Capra,Mariasavina Severino,Elisa Merello,Elisa Tassano

doi:10.1186/1755-8166-7-31

Samantha Mascelli, Claudia Milanaccio + Show 12 more

Open Access

https://doi.org/10.1186/1755-8166-7-31

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Journal: Molecular Cytogenetics	Publication Date: Jan 1, 2014
Citations: 25	License type: cc-by

Affiliation: Istituto Giannina Gaslini

Abstract

We report on a 9-years-old patient with mild intellectual disability, facial dimorphisms, bilateral semicircular canal dysplasia, periventricular nodular heterotopias, bilateral hippocampal malrotation and abnormal cerebellar foliation, who developed mild motor impairment and gait disorder due to a pilocytic astrocytoma of the spinal cord. Array-CGH analysis revealed two paternal inherited chromosomal events: a 484.3 Kb duplication on chromosome 15q26.3 and a 247 Kb deletion on 22q11.23. Further, a second de novo 1.5 Mb deletion on 22q11.21 occurred. Chromosome 22 at q11.2 and chromosome 15 at q24q26 are considered unstable regions subjected to copy number variations, i.e. structural alterations of genome, mediated by low copy repeat sequences or segmental duplications. The link between some structural CNVs, which compromise fundamental processes controlling DNA stability, and genomic disorders suggest a plausible scenario for cancer predisposition.Evaluation of the genes at the breakpoints cannot account simultaneously for the phenotype and tumour development in this patient. The two paternal inherited CNVs arguably are not pathogenic and do not contribute to the clinical manifestations. Similarly, although the de novo large deletion at 22q11.21 overlaps with the Di George (DGS) critical region and results in haploinsufficiency of genes compromising critical processes for DNA stability, this case lacks several hallmarks of DGS.

Highlights

Patients harbouring deletions within chromosome 22q11 present a wide array of clinical phenotypes, including DiGeorge, Velo-Cardio-Facial (DGS/VCFS) or 22q11.2 deletion syndrome [1,2,3]
We present the clinical features of a 9-years-old male harbouring two paternally inherited events – a short 22q11.23 deletion and a 15q26.3 duplication – and a de novo 1.5 Mb deletion at 22q11.2 band
We previously reported the cytogenetic characterization of the child and his family, suggesting that parental microdeletions/duplications could predispose to the formation of de novo pathogenically distinct Copy number variation (CNV) in offspring [14]

Summary

Background

Patients harbouring deletions within chromosome 22q11 present a wide array of clinical phenotypes, including DiGeorge, Velo-Cardio-Facial (DGS/VCFS) or 22q11.2 deletion syndrome [1,2,3]. Besides T-box 1 (TBX1), a transcription factor regulating developmental processes, several genes are involved, as clathrin, heavy chain-like 1 (CLTCL1) [MIM 601273], RAN binding protein 1 (RANBP1) [MIM 601180], histone cell cycle regulator (HIRA) [MIM 600237], cell division cycle 45 (CDC45) [MIM 603465], and catecholO-methyltransferase (COMT) [MIM 116790] partially overlapping thioredoxin reductase 2 (TXNRD2) [MIM 606448]. These genes are active in many cellular processes, including cell cycle progression, senescence, signal transduction, apoptosis and gene regulation

Discussion

Conclusion

18. Lindsay EA