TY - JOUR
T1 - Histone H3.3 beyond cancer
T2 - Germline mutations in Histone 3 Family 3A and 3B cause a previously unidentified neurodegenerative disorder in 46 patients
AU - DDD Study
AU - Care4Rare Canada Consortium
AU - CAUSES Study
AU - Undiagnosed Diseases Network
AU - Bryant, Laura
AU - Li, Dong
AU - Cox, Samuel G.
AU - Marchione, Dylan
AU - Joiner, Evan F.
AU - Wilson, Khadija
AU - Janssen, Kevin
AU - Lee, Pearl
AU - March, Michael E.
AU - Nair, Divya
AU - Sherr, Elliott
AU - Fregeau, Brieana
AU - Wierenga, Klaas J.
AU - Wadley, Alexandrea
AU - Mancini, Grazia M.S.
AU - Powell-Hamilton, Nina
AU - van de Kamp, Jiddeke
AU - Grebe, Theresa
AU - Dean, John
AU - Ross, Alison
AU - Crawford, Heather P.
AU - Powis, Zoe
AU - Cho, Megan T.
AU - Willing, Marcia C.
AU - Manwaring, Linda
AU - Schot, Rachel
AU - Nava, Caroline
AU - Afenjar, Alexandra
AU - Lessel, Davor
AU - Wagner, Matias
AU - Klopstock, Thomas
AU - Winkelmann, Juliane
AU - Catarino, Claudia B.
AU - Retterer, Kyle
AU - Schuette, Jane L.
AU - Innis, Jeffrey W.
AU - Pizzino, Amy
AU - Lüttgen, Sabine
AU - Denecke, Jonas
AU - Strom, Tim M.
AU - Monaghan, Kristin G.
AU - Yuan, Zuo Fei
AU - Dubbs, Holly
AU - Bend, Renee
AU - Lee, Jennifer A.
AU - Lyons, Michael J.
AU - Hoefele, Julia
AU - Günthner, Roman
AU - Reutter, Heiko
AU - Keren, Boris
N1 - Funding Information:
Funding was provided by the French Foundation for Rare Diseases (Fondation maladies rares). This work was also supported in part by a grant from the from SFARI (to W.K.C.), JPB Foundation (to W.K.C.), and the Morton S. and Henrietta K. Sellner Professorship in Human Genetics (to J.W.I.), as well as an NIDDK T35 training grant (T35DK093430) (to E.F.J.). E.J.B. was supported by a K12 training grant (K12HD043245-14) and the Roberts Collaborative. D.M. was supported by a T32 training grant (T32GM008275). Funding from NIH grants GM110174 and CA196539 to B.G. is acknowledged. This research was funded in part by the Estonian Science Foundation grant PUT0355 and PRG471. Analysis for one patient was provided by the Broad Institute of MIT and Harvard Center for Mendelian Genomics (Broad CMG) and was funded by the National Human Genome Research Institute, the National Eye Institute, and the National Heart, Lung, and Blood Institute grant UM1 HG008900 to D. MacArthur and H. Rehm. Support also provided by NIH T32 HD07466 (to M.H.W.), Alabama Genomic Health Initiative F170303004 through University of Alabama at Birmingham IRB (to A.C.H., J.D., and M.T.) The Toronto-based authors (to G.C., M.S.M., and D.C.) acknowledge support from the Centre for Genetic Medicine, The Centre for Applied Genomics, and the Norman Saunders Complex Care Initiative. The Care4Rare Canada Consortium is funded by Genome Canada, the Canadian Institutes of Health Research, the Ontario Genomics Institute, Ontario Research Fund, Genome Quebec, and Children’s Hospital of Eastern Ontario Foundation. This work was also supported by Dipartimenti di Eccellenza 2018–2022 Project code D15D18000410001 to A.B. and Fondazione Bambino Gesù (Vite Coraggiose) and Italian Ministry of Health (CCR-2017-23669081) to M.T.
Publisher Copyright:
Copyright © 2020 The Authors, some rights reserved;
PY - 2020/12/2
Y1 - 2020/12/2
N2 - Although somatic mutations in Histone 3.3 (H3.3) are well-studied drivers of oncogenesis, the role of germline mutations remains unreported. We analyze 46 patients bearing de novo germline mutations in histone 3 family 3A (H3F3A) or H3F3B with progressive neurologic dysfunction and congenital anomalies without malignancies. Molecular modeling of all 37 variants demonstrated clear disruptions in interactions with DNA, other histones, and histone chaperone proteins. Patient histone posttranslational modifications (PTMs) analysis revealed notably aberrant local PTM patterns distinct from the somatic lysine mutations that cause global PTM dysregulation. RNA sequencing on patient cells demonstrated up-regulated gene expression related to mitosis and cell division, and cellular assays confirmed an increased proliferative capacity. A zebrafish model showed craniofacial anomalies and a defect in Foxd3-derived glia. These data suggest that the mechanism of germline mutations are distinct from cancer-associated somatic histone mutations but may converge on control of cell proliferation.
AB - Although somatic mutations in Histone 3.3 (H3.3) are well-studied drivers of oncogenesis, the role of germline mutations remains unreported. We analyze 46 patients bearing de novo germline mutations in histone 3 family 3A (H3F3A) or H3F3B with progressive neurologic dysfunction and congenital anomalies without malignancies. Molecular modeling of all 37 variants demonstrated clear disruptions in interactions with DNA, other histones, and histone chaperone proteins. Patient histone posttranslational modifications (PTMs) analysis revealed notably aberrant local PTM patterns distinct from the somatic lysine mutations that cause global PTM dysregulation. RNA sequencing on patient cells demonstrated up-regulated gene expression related to mitosis and cell division, and cellular assays confirmed an increased proliferative capacity. A zebrafish model showed craniofacial anomalies and a defect in Foxd3-derived glia. These data suggest that the mechanism of germline mutations are distinct from cancer-associated somatic histone mutations but may converge on control of cell proliferation.
UR - http://www.scopus.com/inward/record.url?scp=85097125370&partnerID=8YFLogxK
U2 - 10.1126/sciadv.abc9207
DO - 10.1126/sciadv.abc9207
M3 - Article
C2 - 33268356
AN - SCOPUS:85097125370
SN - 2375-2548
VL - 6
JO - Science Advances
JF - Science Advances
IS - 49
M1 - eabc9207
ER -