Sequence variants in HECTD1 result in a variable neurodevelopmental disorder

Gazelle Zerafati-Jahromi; Elias Oxman; Hieu D. Hoang; Wu Lin Charng; Tanvitha Kotla; Weimin Yuan; Keito Ishibashi; Sonia Sebaoui; Kathryn Luedtke; Bryce Winrow; Rebecca D. Ganetzky; Anna Ruiz; Carmen Manso-Basúz; Nino Spataro; Peter Kannu; Taryn Athey; Christina Peroutka; Caitlin Barnes; Richard Sidlow; George Anadiotis; Kari Magnussen; Irene Valenzuela; Alejandro Moles-Fernandez; Seth Berger; Christina L. Grant; Eric Vilain; Gudny A. Arnadottir; Patrick Sulem; Telma S. Sulem; Kari Stefansson; Shavonne Massey; Natalie Ginn; Annapurna Poduri; Alissa M. D'Gama; Rozalia Valentine; Sara K. Trowbridge; Chaya N. Murali; Rachel Franciskovich; Yen Tran; Bryn D. Webb; Kim M. Keppler-Noreuil; April L. Hall; Bobbi McGivern; Kristin G. Monaghan; Maria J. Guillen Sacoto; Dustin Baldridge; Gary A. Silverman; Sonika Dahiya; Tychele N. Turner; Tim Schedl; Joshua G. Corbin; Stephen C. Pak; Irene E. Zohn; Christina A. Gurnett

doi:10.1016/j.ajhg.2025.01.001

Sequence variants in HECTD1 result in a variable neurodevelopmental disorder

Gazelle Zerafati-Jahromi, Elias Oxman, Hieu D. Hoang, Wu Lin Charng, Tanvitha Kotla, Weimin Yuan, Keito Ishibashi, Sonia Sebaoui, Kathryn Luedtke, Bryce Winrow, Rebecca D. Ganetzky, Anna Ruiz, Carmen Manso-Basúz, Nino Spataro, Peter Kannu, Taryn Athey, Christina Peroutka, Caitlin Barnes, Richard Sidlow, George AnadiotisKari Magnussen, Irene Valenzuela, Alejandro Moles-Fernandez, Seth Berger, Christina L. Grant, Eric Vilain, Gudny A. Arnadottir, Patrick Sulem, Telma S. Sulem, Kari Stefansson, Shavonne Massey, Natalie Ginn, Annapurna Poduri, Alissa M. D'Gama, Rozalia Valentine, Sara K. Trowbridge, Chaya N. Murali, Rachel Franciskovich, Yen Tran, Bryn D. Webb, Kim M. Keppler-Noreuil, April L. Hall, Bobbi McGivern, Kristin G. Monaghan, Maria J. Guillen Sacoto, Dustin Baldridge, Gary A. Silverman, Sonika Dahiya, Tychele N. Turner, Tim Schedl, Joshua G. Corbin, Stephen C. Pak, Irene E. Zohn, Christina A. Gurnett

Research output: Contribution to journal › Article › peer-review

Abstract

Dysregulation of genes encoding the homologous to E6AP C-terminus (HECT) E3 ubiquitin ligases has been linked to cancer and structural birth defects. One member of this family, the HECT-domain-containing protein 1 (HECTD1), mediates developmental pathways, including cell signaling, gene expression, and embryogenesis. Through GeneMatcher, we identified 14 unrelated individuals with 15 different variants in HECTD1 (10 missense, 3 frameshift, 1 nonsense, and 1 splicing variant) with neurodevelopmental disorders (NDDs), including autism, attention-deficit/hyperactivity disorder, and epilepsy. Of these 15 HECTD1 variants, 10 occurred de novo, 3 had unknown inheritance, and 2 were compound heterozygous. While all individuals in this cohort displayed NDDs, no genotype-phenotype correlation was apparent. Conditional knockout of Hectd1 in the neural lineage in mice resulted in microcephaly, severe hippocampal malformations, and complete agenesis of the corpus callosum, supporting a role for Hectd1 in embryonic brain development. Functional studies of select variants in C. elegans revealed dominant effects, including either change-of-function or loss-of-function/haploinsufficient mechanisms, which may explain phenotypic heterogeneity. Significant enrichment of de novo variants in HECTD1 was also shown in an independent cohort of 53,305 published trios with NDDs or congenital heart disease. Thus, our clinical and functional data support a critical requirement of HECTD1 for human brain development.

Original language	English
Pages (from-to)	537-553
Number of pages	17
Journal	American Journal of Human Genetics
Volume	112
Issue number	3
DOIs	https://doi.org/10.1016/j.ajhg.2025.01.001
State	Published - 6 Mar 2025
Externally published	Yes

Keywords

HECTD1
autism
epilepsy
neurodevelopmental disorders
ubiquitin-proteasome system

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10.1016/j.ajhg.2025.01.001

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Zerafati-Jahromi, G., Oxman, E., Hoang, H. D., Charng, W. L., Kotla, T., Yuan, W., Ishibashi, K., Sebaoui, S., Luedtke, K., Winrow, B., Ganetzky, R. D., Ruiz, A., Manso-Basúz, C., Spataro, N., Kannu, P., Athey, T., Peroutka, C., Barnes, C., Sidlow, R., ... Gurnett, C. A. (2025). Sequence variants in HECTD1 result in a variable neurodevelopmental disorder. American Journal of Human Genetics, 112(3), 537-553. https://doi.org/10.1016/j.ajhg.2025.01.001

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title = "Sequence variants in HECTD1 result in a variable neurodevelopmental disorder",

abstract = "Dysregulation of genes encoding the homologous to E6AP C-terminus (HECT) E3 ubiquitin ligases has been linked to cancer and structural birth defects. One member of this family, the HECT-domain-containing protein 1 (HECTD1), mediates developmental pathways, including cell signaling, gene expression, and embryogenesis. Through GeneMatcher, we identified 14 unrelated individuals with 15 different variants in HECTD1 (10 missense, 3 frameshift, 1 nonsense, and 1 splicing variant) with neurodevelopmental disorders (NDDs), including autism, attention-deficit/hyperactivity disorder, and epilepsy. Of these 15 HECTD1 variants, 10 occurred de novo, 3 had unknown inheritance, and 2 were compound heterozygous. While all individuals in this cohort displayed NDDs, no genotype-phenotype correlation was apparent. Conditional knockout of Hectd1 in the neural lineage in mice resulted in microcephaly, severe hippocampal malformations, and complete agenesis of the corpus callosum, supporting a role for Hectd1 in embryonic brain development. Functional studies of select variants in C. elegans revealed dominant effects, including either change-of-function or loss-of-function/haploinsufficient mechanisms, which may explain phenotypic heterogeneity. Significant enrichment of de novo variants in HECTD1 was also shown in an independent cohort of 53,305 published trios with NDDs or congenital heart disease. Thus, our clinical and functional data support a critical requirement of HECTD1 for human brain development.",

keywords = "HECTD1, autism, epilepsy, neurodevelopmental disorders, ubiquitin-proteasome system",

author = "Gazelle Zerafati-Jahromi and Elias Oxman and Hoang, {Hieu D.} and Charng, {Wu Lin} and Tanvitha Kotla and Weimin Yuan and Keito Ishibashi and Sonia Sebaoui and Kathryn Luedtke and Bryce Winrow and Ganetzky, {Rebecca D.} and Anna Ruiz and Carmen Manso-Bas{\'u}z and Nino Spataro and Peter Kannu and Taryn Athey and Christina Peroutka and Caitlin Barnes and Richard Sidlow and George Anadiotis and Kari Magnussen and Irene Valenzuela and Alejandro Moles-Fernandez and Seth Berger and Grant, {Christina L.} and Eric Vilain and Arnadottir, {Gudny A.} and Patrick Sulem and Sulem, {Telma S.} and Kari Stefansson and Shavonne Massey and Natalie Ginn and Annapurna Poduri and D'Gama, {Alissa M.} and Rozalia Valentine and Trowbridge, {Sara K.} and Murali, {Chaya N.} and Rachel Franciskovich and Yen Tran and Webb, {Bryn D.} and Keppler-Noreuil, {Kim M.} and Hall, {April L.} and Bobbi McGivern and Monaghan, {Kristin G.} and {Guillen Sacoto}, {Maria J.} and Dustin Baldridge and Silverman, {Gary A.} and Sonika Dahiya and Turner, {Tychele N.} and Tim Schedl and Corbin, {Joshua G.} and Pak, {Stephen C.} and Zohn, {Irene E.} and Gurnett, {Christina A.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = mar,

day = "6",

doi = "10.1016/j.ajhg.2025.01.001",

language = "English",

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journal = "American Journal of Human Genetics",

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Zerafati-Jahromi, G, Oxman, E, Hoang, HD, Charng, WL, Kotla, T, Yuan, W, Ishibashi, K, Sebaoui, S, Luedtke, K, Winrow, B, Ganetzky, RD, Ruiz, A, Manso-Basúz, C, Spataro, N, Kannu, P, Athey, T, Peroutka, C, Barnes, C, Sidlow, R, Anadiotis, G, Magnussen, K, Valenzuela, I, Moles-Fernandez, A, Berger, S, Grant, CL, Vilain, E, Arnadottir, GA, Sulem, P, Sulem, TS, Stefansson, K, Massey, S, Ginn, N, Poduri, A, D'Gama, AM, Valentine, R, Trowbridge, SK, Murali, CN, Franciskovich, R, Tran, Y, Webb, BD, Keppler-Noreuil, KM, Hall, AL, McGivern, B, Monaghan, KG, Guillen Sacoto, MJ, Baldridge, D, Silverman, GA, Dahiya, S, Turner, TN, Schedl, T, Corbin, JG, Pak, SC, Zohn, IE & Gurnett, CA 2025, 'Sequence variants in HECTD1 result in a variable neurodevelopmental disorder', American Journal of Human Genetics, vol. 112, no. 3, pp. 537-553. https://doi.org/10.1016/j.ajhg.2025.01.001

TY - JOUR

T1 - Sequence variants in HECTD1 result in a variable neurodevelopmental disorder

AU - Zerafati-Jahromi, Gazelle

AU - Oxman, Elias

AU - Hoang, Hieu D.

AU - Charng, Wu Lin

AU - Kotla, Tanvitha

AU - Yuan, Weimin

AU - Ishibashi, Keito

AU - Sebaoui, Sonia

AU - Luedtke, Kathryn

AU - Winrow, Bryce

AU - Ganetzky, Rebecca D.

AU - Ruiz, Anna

AU - Manso-Basúz, Carmen

AU - Spataro, Nino

AU - Kannu, Peter

AU - Athey, Taryn

AU - Peroutka, Christina

AU - Barnes, Caitlin

AU - Sidlow, Richard

AU - Anadiotis, George

AU - Magnussen, Kari

AU - Valenzuela, Irene

AU - Moles-Fernandez, Alejandro

AU - Berger, Seth

AU - Grant, Christina L.

AU - Vilain, Eric

AU - Arnadottir, Gudny A.

AU - Sulem, Patrick

AU - Sulem, Telma S.

AU - Stefansson, Kari

AU - Massey, Shavonne

AU - Ginn, Natalie

AU - Poduri, Annapurna

AU - D'Gama, Alissa M.

AU - Valentine, Rozalia

AU - Trowbridge, Sara K.

AU - Murali, Chaya N.

AU - Franciskovich, Rachel

AU - Tran, Yen

AU - Webb, Bryn D.

AU - Keppler-Noreuil, Kim M.

AU - Hall, April L.

AU - McGivern, Bobbi

AU - Monaghan, Kristin G.

AU - Guillen Sacoto, Maria J.

AU - Baldridge, Dustin

AU - Silverman, Gary A.

AU - Dahiya, Sonika

AU - Turner, Tychele N.

AU - Schedl, Tim

AU - Corbin, Joshua G.

AU - Pak, Stephen C.

AU - Zohn, Irene E.

AU - Gurnett, Christina A.

PY - 2025/3/6

Y1 - 2025/3/6

N2 - Dysregulation of genes encoding the homologous to E6AP C-terminus (HECT) E3 ubiquitin ligases has been linked to cancer and structural birth defects. One member of this family, the HECT-domain-containing protein 1 (HECTD1), mediates developmental pathways, including cell signaling, gene expression, and embryogenesis. Through GeneMatcher, we identified 14 unrelated individuals with 15 different variants in HECTD1 (10 missense, 3 frameshift, 1 nonsense, and 1 splicing variant) with neurodevelopmental disorders (NDDs), including autism, attention-deficit/hyperactivity disorder, and epilepsy. Of these 15 HECTD1 variants, 10 occurred de novo, 3 had unknown inheritance, and 2 were compound heterozygous. While all individuals in this cohort displayed NDDs, no genotype-phenotype correlation was apparent. Conditional knockout of Hectd1 in the neural lineage in mice resulted in microcephaly, severe hippocampal malformations, and complete agenesis of the corpus callosum, supporting a role for Hectd1 in embryonic brain development. Functional studies of select variants in C. elegans revealed dominant effects, including either change-of-function or loss-of-function/haploinsufficient mechanisms, which may explain phenotypic heterogeneity. Significant enrichment of de novo variants in HECTD1 was also shown in an independent cohort of 53,305 published trios with NDDs or congenital heart disease. Thus, our clinical and functional data support a critical requirement of HECTD1 for human brain development.

AB - Dysregulation of genes encoding the homologous to E6AP C-terminus (HECT) E3 ubiquitin ligases has been linked to cancer and structural birth defects. One member of this family, the HECT-domain-containing protein 1 (HECTD1), mediates developmental pathways, including cell signaling, gene expression, and embryogenesis. Through GeneMatcher, we identified 14 unrelated individuals with 15 different variants in HECTD1 (10 missense, 3 frameshift, 1 nonsense, and 1 splicing variant) with neurodevelopmental disorders (NDDs), including autism, attention-deficit/hyperactivity disorder, and epilepsy. Of these 15 HECTD1 variants, 10 occurred de novo, 3 had unknown inheritance, and 2 were compound heterozygous. While all individuals in this cohort displayed NDDs, no genotype-phenotype correlation was apparent. Conditional knockout of Hectd1 in the neural lineage in mice resulted in microcephaly, severe hippocampal malformations, and complete agenesis of the corpus callosum, supporting a role for Hectd1 in embryonic brain development. Functional studies of select variants in C. elegans revealed dominant effects, including either change-of-function or loss-of-function/haploinsufficient mechanisms, which may explain phenotypic heterogeneity. Significant enrichment of de novo variants in HECTD1 was also shown in an independent cohort of 53,305 published trios with NDDs or congenital heart disease. Thus, our clinical and functional data support a critical requirement of HECTD1 for human brain development.

KW - HECTD1

KW - autism

KW - epilepsy

KW - neurodevelopmental disorders

KW - ubiquitin-proteasome system

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U2 - 10.1016/j.ajhg.2025.01.001

DO - 10.1016/j.ajhg.2025.01.001

M3 - Article

C2 - 39879987

AN - SCOPUS:85218079257

SN - 0002-9297

VL - 112

SP - 537

EP - 553

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 3

ER -

Sequence variants in HECTD1 result in a variable neurodevelopmental disorder

Abstract

Keywords

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