Deletion of conserved non‐coding sequences downstream from NKX2‐1: A novel disease‐causing mechanism for benign hereditary chorea

Jun Liao; Keith A. Coffman; Joseph Locker; Quasar S. Padiath; Bruce Nmezi; Robyn A. Filipink; Jie Hu; Malini Sathanoori; Suneeta Madan‐Khetarpal; Marianne McGuire; Allison Schreiber; Rocio Moran; Neil Friedman; Lori Hoffner; Aleksandar Rajkovic; Svetlana A. Yatsenko; Urvashi Surti

doi:10.1002/mgg3.1647

Molecular Genetics & Genomic Medicine (Apr 2021)

Deletion of conserved non‐coding sequences downstream from NKX2‐1: A novel disease‐causing mechanism for benign hereditary chorea

Jun Liao,
Keith A. Coffman,
Joseph Locker,
Quasar S. Padiath,
Bruce Nmezi,
Robyn A. Filipink,
Jie Hu,
Malini Sathanoori,
Suneeta Madan‐Khetarpal,
Marianne McGuire,
Allison Schreiber,
Rocio Moran,
Neil Friedman,
Lori Hoffner,
Aleksandar Rajkovic,
Svetlana A. Yatsenko,
Urvashi Surti

Affiliations

Jun Liao: Pittsburgh Cytogenetics Laboratory Magee‐Womens Hospital of UPMC Pittsburgh PA USA
Keith A. Coffman: Department of Pediatrics University of Pittsburgh School of Medicine Pittsburgh PA USA
Joseph Locker: Department of Pathology University of Pittsburgh School of Medicine Pittsburgh PA USA
Quasar S. Padiath: Department of Human Genetics Graduate School of Public Health University of Pittsburgh Pittsburgh PA USA
Bruce Nmezi: Department of Human Genetics Graduate School of Public Health University of Pittsburgh Pittsburgh PA USA
Robyn A. Filipink: Department of Pediatrics University of Pittsburgh School of Medicine Pittsburgh PA USA
Jie Hu: Pittsburgh Cytogenetics Laboratory Magee‐Womens Hospital of UPMC Pittsburgh PA USA
Malini Sathanoori: Pittsburgh Cytogenetics Laboratory Magee‐Womens Hospital of UPMC Pittsburgh PA USA
Suneeta Madan‐Khetarpal: Department of Pediatrics University of Pittsburgh School of Medicine Pittsburgh PA USA
Marianne McGuire: Department of Pediatrics University of Pittsburgh School of Medicine Pittsburgh PA USA
Allison Schreiber: Genomic Medicine Institute Cleveland Clinic Cleveland OH USA
Rocio Moran: Genomic Medicine Institute Cleveland Clinic Cleveland OH USA
Neil Friedman: Center for Pediatric Neurology Cleveland Clinic Cleveland OH USA
Lori Hoffner: Magee Womens Research InstituteUniversity of Pittsburgh Medical Center Pittsburgh PA USA
Aleksandar Rajkovic: Department of Human Genetics Graduate School of Public Health University of Pittsburgh Pittsburgh PA USA
Svetlana A. Yatsenko: Pittsburgh Cytogenetics Laboratory Magee‐Womens Hospital of UPMC Pittsburgh PA USA
Urvashi Surti: Pittsburgh Cytogenetics Laboratory Magee‐Womens Hospital of UPMC Pittsburgh PA USA

DOI: https://doi.org/10.1002/mgg3.1647
Journal volume & issue: Vol. 9, no. 4
pp. n/a – n/a

Abstract

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Abstract Background Benign hereditary chorea (BHC) is an autosomal dominant disorder characterized by early‐onset non‐progressive involuntary movements. Although NKX2‐1 mutations or deletions are the cause of BHC, some BHC families do not have pathogenic alterations in the NKX2‐1 gene, indicating that mutations of non‐coding regulatory elements of NKX2‐1 may also play a role. Methods and Results By using whole‐genome microarray analysis, we identified a 117 Kb founder deletion in three apparently unrelated BHC families that were negative for NKX2‐1 sequence variants. Targeted next generation sequencing analysis confirmed the deletion and showed that it was part of a complex local genomic rearrangement. In addition, we also detected a 648 Kb de novo deletion in an isolated BHC case. Both deletions are located downstream from NKX2‐1 on chromosome 14q13.2‐q13.3 and share a 33 Kb smallest region of overlap with six previously reported cases. This region has no gene but contains multiple evolutionarily highly conserved non‐coding sequences. Conclusion We propose that the deletion of potential regulatory elements necessary for NKX2‐1 expression in this critical region is responsible for BHC phenotype in these patients, and this is a novel disease‐causing mechanism for BHC.

Published in Molecular Genetics & Genomic Medicine

ISSN: 2324-9269 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Genetics
Website: https://onlinelibrary.wiley.com/journal/23249269

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