TY - JOUR
T1 - Loss-of-function in RBBP5 results in a syndromic neurodevelopmental disorder associated with microcephaly
AU - Undiagnosed Diseases Network
AU - Huang, Yue
AU - Jay, Kristy L.
AU - Yen-Wen Huang, Alden
AU - Wan, Jijun
AU - Jangam, Sharayu V.
AU - Chorin, Odelia
AU - Rothschild, Annick
AU - Barel, Ortal
AU - Mariani, Milena
AU - Iascone, Maria
AU - Xue, Han
AU - Acosta, Maria T.
AU - Adams, David R.
AU - Raquel,
AU - Alvarez, L.
AU - Alvey, Justin
AU - Allworth, Aimee
AU - Andrews, Ashley
AU - Ashley, Euan A.
AU - Bacino, Carlos A.
AU - Bademci, Guney
AU - Balasubramanyam, Ashok
AU - Baldridge, Dustin
AU - Bale, Jim
AU - Bamshad, Michael
AU - Barbouth, Deborah
AU - Bayrak-Toydemir, Pinar
AU - Beck, Anita
AU - Beggs, Alan H.
AU - Behrens, Edward
AU - Bejerano, Gill
AU - Bellen, Hugo J.
AU - Bennett, Jimmy
AU - Bernstein, Jonathan A.
AU - Berry, Gerard T.
AU - Bican, Anna
AU - Bivona, Stephanie
AU - Blue, Elizabeth
AU - Bohnsack, John
AU - Bonner, Devon
AU - Botto, Lorenzo
AU - Briere, Lauren C.
AU - Brown, Gabrielle
AU - Burke, Elizabeth A.
AU - Burrage, Lindsay C.
AU - Butte, Manish J.
AU - Byers, Peter
AU - Byrd, William E.
AU - Carey, John
AU - Carrasquillo, Olveen
N1 - Publisher Copyright:
© 2024 The Authors
PY - 2024/11
Y1 - 2024/11
N2 - Purpose: Epigenetic dysregulation has been associated with many inherited disorders. RBBP5 (HGNC:9888) encodes a core member of the protein complex that methylates histone 3 lysine-4 and has not been implicated in human disease. Methods: We identify 5 unrelated individuals with de novo heterozygous variants in RBBP5. Three nonsense/frameshift and 2 missense variants were identified in probands with neurodevelopmental symptoms, including global developmental delay, intellectual disability, microcephaly, and short stature. Here, we investigate the pathogenicity of the variants through protein structural analysis and transgenic Drosophila models. Results: Both missense p.(T232I) and p.(E296D) variants affect evolutionarily conserved amino acids located at the interface between RBBP5 and the nucleosome. In Drosophila, overexpression analysis identifies partial loss-of-function mechanisms when the variants are expressed using the fly Rbbp5 or human RBBP5 cDNA. Loss of Rbbp5 leads to a reduction in brain size. The human reference or variant transgenes fail to rescue this loss and expression of either missense variant in an Rbbp5 null background results in a less severe microcephaly phenotype than the human reference, indicating both missense variants are partial loss-of-function alleles. Conclusion: Haploinsufficiency of RBBP5 observed through de novo null and hypomorphic loss-of-function variants is associated with a syndromic neurodevelopmental disorder.
AB - Purpose: Epigenetic dysregulation has been associated with many inherited disorders. RBBP5 (HGNC:9888) encodes a core member of the protein complex that methylates histone 3 lysine-4 and has not been implicated in human disease. Methods: We identify 5 unrelated individuals with de novo heterozygous variants in RBBP5. Three nonsense/frameshift and 2 missense variants were identified in probands with neurodevelopmental symptoms, including global developmental delay, intellectual disability, microcephaly, and short stature. Here, we investigate the pathogenicity of the variants through protein structural analysis and transgenic Drosophila models. Results: Both missense p.(T232I) and p.(E296D) variants affect evolutionarily conserved amino acids located at the interface between RBBP5 and the nucleosome. In Drosophila, overexpression analysis identifies partial loss-of-function mechanisms when the variants are expressed using the fly Rbbp5 or human RBBP5 cDNA. Loss of Rbbp5 leads to a reduction in brain size. The human reference or variant transgenes fail to rescue this loss and expression of either missense variant in an Rbbp5 null background results in a less severe microcephaly phenotype than the human reference, indicating both missense variants are partial loss-of-function alleles. Conclusion: Haploinsufficiency of RBBP5 observed through de novo null and hypomorphic loss-of-function variants is associated with a syndromic neurodevelopmental disorder.
KW - Epigenetic
KW - H3K4 methylation
KW - Microcephaly
KW - Neurodevelopmental disorder
KW - RBBP5
UR - http://www.scopus.com/inward/record.url?scp=85204686308&partnerID=8YFLogxK
U2 - 10.1016/j.gim.2024.101218
DO - 10.1016/j.gim.2024.101218
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C2 - 39036895
AN - SCOPUS:85204686308
SN - 1098-3600
VL - 26
JO - Genetics in Medicine
JF - Genetics in Medicine
IS - 11
M1 - 101218
ER -