TY - JOUR
T1 - A novel, likely pathogenic variant in UBTF-related neurodegeneration with brain atrophy is associated with a severe divergent neurodevelopmental phenotype
AU - Tinker, Rory J.
AU - Guess, Tiffany
AU - Rinker, David C.
AU - Sheehan, Jonathan H.
AU - Lubarsky, Daniel
AU - Porath, Binu
AU - Mosera, Mackenzie
AU - Mayo, Ping
AU - Solem, Emily
AU - Lee, Laura A.
AU - Sharam, Asha
AU - Brault, Jennifer
N1 - Publisher Copyright:
© 2022 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals LLC.
PY - 2022/12
Y1 - 2022/12
N2 - Background: A de novo, pathogenic, missense variant in UBTF, c.628G>A p.Glu210Lys, has been described as the cause of an emerging neurodegenerative disorder, Childhood-Onset Neurodegeneration with Brain Atrophy (CONDBA). The p.Glu210Lys alteration yields a positively charged stretch of three lysine residues. Functional studies confirmed this change results in a stronger interaction with negatively charged DNA and gain-of-function activity when compared to the wild-type sequence. The CONDBA phenotype reported in association with p.Glu210Lys consists of normal early-neurodevelopment followed by progressive motor, cognitive, and behavioral regression in early-to-middle childhood. Methods and Results: The current proband presented at 9 months of age with baseline developmental delay and more extensive neuroradiological findings, including pontine hypoplasia, thalamic volume loss and signal abnormality, and hypomyelination. Like the recurrent CONDBA p.Glu210Lys variant, this novel variant, c.608A>G p.(Gln203Arg) lies within the highly conserved second HMG-box homology domain and involves the replacement of the wild-type residue with a positively charged residue, arginine. Computational structural modeling demonstrates that this amino acid substitution potentiates the interaction between UBTF and DNA, likely resulting in a gain-of-function effect for the UBTF protein, UBF. Conclusion: Here we present a new divergent phenotype associated with a novel, likely pathogenic, missense variant at a different position in the UBTF gene, c.608A>G p.(Gln203Arg).
AB - Background: A de novo, pathogenic, missense variant in UBTF, c.628G>A p.Glu210Lys, has been described as the cause of an emerging neurodegenerative disorder, Childhood-Onset Neurodegeneration with Brain Atrophy (CONDBA). The p.Glu210Lys alteration yields a positively charged stretch of three lysine residues. Functional studies confirmed this change results in a stronger interaction with negatively charged DNA and gain-of-function activity when compared to the wild-type sequence. The CONDBA phenotype reported in association with p.Glu210Lys consists of normal early-neurodevelopment followed by progressive motor, cognitive, and behavioral regression in early-to-middle childhood. Methods and Results: The current proband presented at 9 months of age with baseline developmental delay and more extensive neuroradiological findings, including pontine hypoplasia, thalamic volume loss and signal abnormality, and hypomyelination. Like the recurrent CONDBA p.Glu210Lys variant, this novel variant, c.608A>G p.(Gln203Arg) lies within the highly conserved second HMG-box homology domain and involves the replacement of the wild-type residue with a positively charged residue, arginine. Computational structural modeling demonstrates that this amino acid substitution potentiates the interaction between UBTF and DNA, likely resulting in a gain-of-function effect for the UBTF protein, UBF. Conclusion: Here we present a new divergent phenotype associated with a novel, likely pathogenic, missense variant at a different position in the UBTF gene, c.608A>G p.(Gln203Arg).
KW - CONDBA
KW - UBTF
KW - whole exome sequencing
UR - http://www.scopus.com/inward/record.url?scp=85137926149&partnerID=8YFLogxK
U2 - 10.1002/mgg3.2054
DO - 10.1002/mgg3.2054
M3 - Article
C2 - 36106513
AN - SCOPUS:85137926149
SN - 2324-9269
VL - 10
JO - Molecular Genetics and Genomic Medicine
JF - Molecular Genetics and Genomic Medicine
IS - 12
M1 - e2054
ER -