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Comprehensive clinically oriented workflow for nucleotide level resolution and interpretation in prenatal diagnosis of de novo apparently balanced chromosomal translocations in their genomic landscape
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Advisor(s)
Abstract(s)
We present a comprehensive clinically oriented workflow for large-insert genome sequencing (liGS)-based nucleotide level resolution and interpretation of de novo (dn) apparently balanced chromosomal abnormalities (BCA) in prenatal diagnosis (PND). Retrospective or concomitant with conventional PND and liGS, molecular and newly developed clinically inspired bioinformatic tools (TAD-GConTool and CNV-ConTool) are applied to analyze and assess the functional and phenotypic outcome of dn structural variants (dnSVs). Retrospective analysis of four phenotype-associated dnSVs identified during conventional PND precisely reveal the genomic elements disrupted by the translocation breakpoints. Identification of autosomal dominant disease due to the disruption of ANKS1B and WDR26 by t(12;17)(q23.1;q21.33)dn and t(1;3)(q24.11;p25.3)dn breakpoints, respectively, substantiated the proposed workflow. We then applied this workflow to two ongoing prenatal cases with apparently balanced dnBCAs: 46,XX,t(16;17)(q24;q21.3)dn referred for increased risk on combined first trimester screening and 46,XY,t(2;19)(p13;q13.1)dn referred due to a previous trisomy 21 pregnancy. Translocation breakpoints in the t(16;17) involve ANKRD11 and WNT3 and disruption of ANKRD11 resulted in KBG syndrome confirmed in postnatal follow-up. Breakpoints in the t(2;19) are within ATP6V1B1 and the 3' UTR of CEP89, and are not interpreted to cause disease. Genotype-phenotype correlation confirms the causative role of WDR26 in the Skraban-Deardorff and 1q41q42 microdeletion phenocopy syndromes, and that disruption of ANKS1B causes ANKS1B haploinsufficiency syndrome. In sum, we show that an liGS-based approach can be realized in PND care providing additional information concerning clinical outcomes of dnBCAs in patients with such rearrangements.
Description
Acknowledgements We dedicate this article to Maria Guida Boavida
who founded the Human Genetics Laboratory as the precursor of the
current Department of Human Genetics at the National Health Institute
Doutor Ricardo Jorge, Lisbon, Portugal. She and her colleagues performed
the first chromosomal prenatal diagnosis from cultured amniocytes
in Portugal in July 1977 (no. 77180). However, the first translocation
in PND, a paternally inherited Robertsonian t(13;14) (no. 80321),
was only identified in June 1980. Almost 40 years later, we report
application of an liGS-based approach for the identification of dnBCAs
breakpoints in PND. First, we are grateful to the family members
for their involvement in this study. We thank Dr. Michael Talkowski
and members of his lab for library preparation and sequencing data
generation. We thank Jader Cruz for echographic diagnosis of fetal
heart defects, to Hildeberto Correia, Ana Cristina Alves and Bárbara
Marques for conventional prenatal diagnosis, and to Márcia Rodrigues,
Sofia Nunes, Teresa Kay, and Rui Gonçalves for their contribution
to the project.
Keywords
Adolescent Adult Chromosomes, Human Female Humans Male Pregnancy Workflow Abnormalities, Multiple Bone Diseases, Developmental Chromosome Disorders Facies Genes, Dominant Intellectual Disability Prenatal Diagnosis Tooth Abnormalities Translocation, Genetic Doenças Genéticas
Pedagogical Context
Citation
Hum Genet. 2020 Apr;139(4):531-543. doi: 10.1007/s00439-020-02121-x. Epub 2020 Feb 6.
Publisher
Springer