Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy

Maimuna S. Paul; Anna R. Duncan; Casie A. Genetti; Hongling Pan; Adam Jackson; Patricia E. Grant; Jiahai Shi; Michele Pinelli; Nicola Brunetti-Pierri; Alexandra Garza-Flores; Dave Shahani; Russell P. Saneto; Giuseppe Zampino; Chiara Leoni; Emanuele Agolini; Antonio Novelli; Ulrike Blümlein; Tobias B. Haack; Wolfram Heinritz; Eva Matzker; Bader Alhaddad; Rami Abou Jamra; Tobias Bartolomaeus; Saber Alhamdan; Raphael Carapito; Bertrand Isidor; Seiamak Bahram; Alyssa Ritter; Kosuke Izumi; Ben Pode Shakked; Ortal Barel; Bruria Ben Zeev; Amber Begtrup; Deanna Alexis Carere; Sureni V. Mullegama; Timothy Blake Palculict; Daniel G. Calame; Katharina Schwan; Alicia R.P. Aycinena; Rasa Traberg; Sofia Douzgou; Harrison Pirt; Naila Ismayilova; Siddharth Banka; Hsiao-Tuan Chao; Pankaj B. Agrawal

doi:10.1016/j.ajhg.2022.11.011

Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy

Maimuna S. Paul, Anna R. Duncan, Casie A. Genetti, Hongling Pan, Adam Jackson, Patricia E. Grant, Jiahai Shi, Michele Pinelli, Nicola Brunetti-Pierri, Alexandra Garza-Flores, Dave Shahani, Russell P. Saneto, Giuseppe Zampino, Chiara Leoni, Emanuele Agolini, Antonio Novelli, Ulrike Blümlein, Tobias B. Haack, Wolfram Heinritz, Eva MatzkerBader Alhaddad, Rami Abou Jamra, Tobias Bartolomaeus, Saber Alhamdan, Raphael Carapito, Bertrand Isidor, Seiamak Bahram, Alyssa Ritter, Kosuke Izumi, Ben Pode Shakked, Ortal Barel, Bruria Ben Zeev, Amber Begtrup, Deanna Alexis Carere, Sureni V. Mullegama, Timothy Blake Palculict, Daniel G. Calame, Katharina Schwan, Alicia R.P. Aycinena, Rasa Traberg, Sofia Douzgou, Harrison Pirt, Naila Ismayilova, Siddharth Banka, Hsiao-Tuan Chao, Pankaj B. Agrawal

Risultato della ricerca: Contributo in rivista › Articolo

Abstract

Eukaryotic initiation factor-4A2 (EIF4A2) is an ATP-dependent RNA helicase and a member of the DEAD-box protein family that recognizes the 5ʹ cap structure of mRNAs, allows mRNA to bind to the ribosome, and plays an important role in microRNA-regulated gene repression. Here, we report on 15 individuals from 14 families presenting with global developmental delay, intellectual disability, hypotonia, epilepsy, and structural brain anomalies, all of whom have extremely rare de novo mono-allelic or inherited bi-allelic variants in EIF4A2. Neurodegeneration was predominantly reported in individuals with bi-allelic variants. Molecular modeling predicts these variants would perturb structural interactions in key protein domains. To determine the pathogenicity of the EIF4A2 variants in vivo, we examined the mono-allelic variants in Drosophila melanogaster (fruit fly) and identified variant-specific behavioral and developmental defects. The fruit fly homolog of EIF4A2 is eIF4A, a negative regulator of decapentaplegic (dpp) signaling that regulates embryo patterning, eye and wing morphogenesis, and stem cell identity determination. Our loss-of-function (LOF) rescue assay demonstrated a pupal lethality phenotype induced by loss of eIF4A, which was fully rescued with human EIF4A2 wild-type (WT) cDNA expression. In comparison, the EIF4A2 variant cDNAs failed or incompletely rescued the lethality. Overall, our findings reveal that EIF4A2 variants cause a genetic neurodevelopmental syndrome with both LOF and gain of function as underlying mechanisms.

Lingua originale	Inglese
pagine (da-a)	120-145
Numero di pagine	26
Rivista	American Journal of Human Genetics
Volume	110
DOI	https://doi.org/10.1016/j.ajhg.2022.11.011
Stato di pubblicazione	Pubblicato - 2023

Keywords

DEAD-box protein
Drosophila
transcription factor
neurodevelopmental disorder
epilepsy

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10.1016/j.ajhg.2022.11.011

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Paul, M. S., Duncan, A. R., Genetti, C. A., Pan, H., Jackson, A., Grant, P. E., Shi, J., Pinelli, M., Brunetti-Pierri, N., Garza-Flores, A., Shahani, D., Saneto, R. P., Zampino, G., Leoni, C., Agolini, E., Novelli, A., Blümlein, U., Haack, T. B., Heinritz, W., ... Agrawal, P. B. (2023). Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy. American Journal of Human Genetics, 110, 120-145. https://doi.org/10.1016/j.ajhg.2022.11.011

@article{79a910bdcb7b47899623f5bd5d2b6f54,

title = "Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy",

abstract = "Eukaryotic initiation factor-4A2 (EIF4A2) is an ATP-dependent RNA helicase and a member of the DEAD-box protein family that recognizes the 5ʹ cap structure of mRNAs, allows mRNA to bind to the ribosome, and plays an important role in microRNA-regulated gene repression. Here, we report on 15 individuals from 14 families presenting with global developmental delay, intellectual disability, hypotonia, epilepsy, and structural brain anomalies, all of whom have extremely rare de novo mono-allelic or inherited bi-allelic variants in EIF4A2. Neurodegeneration was predominantly reported in individuals with bi-allelic variants. Molecular modeling predicts these variants would perturb structural interactions in key protein domains. To determine the pathogenicity of the EIF4A2 variants in vivo, we examined the mono-allelic variants in Drosophila melanogaster (fruit fly) and identified variant-specific behavioral and developmental defects. The fruit fly homolog of EIF4A2 is eIF4A, a negative regulator of decapentaplegic (dpp) signaling that regulates embryo patterning, eye and wing morphogenesis, and stem cell identity determination. Our loss-of-function (LOF) rescue assay demonstrated a pupal lethality phenotype induced by loss of eIF4A, which was fully rescued with human EIF4A2 wild-type (WT) cDNA expression. In comparison, the EIF4A2 variant cDNAs failed or incompletely rescued the lethality. Overall, our findings reveal that EIF4A2 variants cause a genetic neurodevelopmental syndrome with both LOF and gain of function as underlying mechanisms.",

keywords = "DEAD-box protein, Drosophila, transcription factor, neurodevelopmental disorder, epilepsy, DEAD-box protein, Drosophila, transcription factor, neurodevelopmental disorder, epilepsy",

author = "Paul, \{Maimuna S.\} and Duncan, \{Anna R.\} and Genetti, \{Casie A.\} and Hongling Pan and Adam Jackson and Grant, \{Patricia E.\} and Jiahai Shi and Michele Pinelli and Nicola Brunetti-Pierri and Alexandra Garza-Flores and Dave Shahani and Saneto, \{Russell P.\} and Giuseppe Zampino and Chiara Leoni and Emanuele Agolini and Antonio Novelli and Ulrike Bl{\"u}mlein and Haack, \{Tobias B.\} and Wolfram Heinritz and Eva Matzker and Bader Alhaddad and \{Abou Jamra\}, Rami and Tobias Bartolomaeus and Saber Alhamdan and Raphael Carapito and Bertrand Isidor and Seiamak Bahram and Alyssa Ritter and Kosuke Izumi and Shakked, \{Ben Pode\} and Ortal Barel and \{Ben Zeev\}, Bruria and Amber Begtrup and Carere, \{Deanna Alexis\} and Mullegama, \{Sureni V.\} and Palculict, \{Timothy Blake\} and Calame, \{Daniel G.\} and Katharina Schwan and Aycinena, \{Alicia R.P.\} and Rasa Traberg and Sofia Douzgou and Harrison Pirt and Naila Ismayilova and Siddharth Banka and Hsiao-Tuan Chao and Agrawal, \{Pankaj B.\}",

year = "2023",

doi = "10.1016/j.ajhg.2022.11.011",

language = "English",

volume = "110",

pages = "120--145",

journal = "American Journal of Human Genetics",

issn = "1537-6605",

publisher = "Cell Press",

}

Paul, MS, Duncan, AR, Genetti, CA, Pan, H, Jackson, A, Grant, PE, Shi, J, Pinelli, M, Brunetti-Pierri, N, Garza-Flores, A, Shahani, D, Saneto, RP, Zampino, G, Leoni, C, Agolini, E, Novelli, A, Blümlein, U, Haack, TB, Heinritz, W, Matzker, E, Alhaddad, B, Abou Jamra, R, Bartolomaeus, T, Alhamdan, S, Carapito, R, Isidor, B, Bahram, S, Ritter, A, Izumi, K, Shakked, BP, Barel, O, Ben Zeev, B, Begtrup, A, Carere, DA, Mullegama, SV, Palculict, TB, Calame, DG, Schwan, K, Aycinena, ARP, Traberg, R, Douzgou, S, Pirt, H, Ismayilova, N, Banka, S, Chao, H-T & Agrawal, PB 2023, 'Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy', American Journal of Human Genetics, vol. 110, pagg. 120-145. https://doi.org/10.1016/j.ajhg.2022.11.011

TY - JOUR

T1 - Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy

AU - Paul, Maimuna S.

AU - Duncan, Anna R.

AU - Genetti, Casie A.

AU - Pan, Hongling

AU - Jackson, Adam

AU - Grant, Patricia E.

AU - Shi, Jiahai

AU - Pinelli, Michele

AU - Brunetti-Pierri, Nicola

AU - Garza-Flores, Alexandra

AU - Shahani, Dave

AU - Saneto, Russell P.

AU - Zampino, Giuseppe

AU - Leoni, Chiara

AU - Agolini, Emanuele

AU - Novelli, Antonio

AU - Blümlein, Ulrike

AU - Haack, Tobias B.

AU - Heinritz, Wolfram

AU - Matzker, Eva

AU - Alhaddad, Bader

AU - Abou Jamra, Rami

AU - Bartolomaeus, Tobias

AU - Alhamdan, Saber

AU - Carapito, Raphael

AU - Isidor, Bertrand

AU - Bahram, Seiamak

AU - Ritter, Alyssa

AU - Izumi, Kosuke

AU - Shakked, Ben Pode

AU - Barel, Ortal

AU - Ben Zeev, Bruria

AU - Begtrup, Amber

AU - Carere, Deanna Alexis

AU - Mullegama, Sureni V.

AU - Palculict, Timothy Blake

AU - Calame, Daniel G.

AU - Schwan, Katharina

AU - Aycinena, Alicia R.P.

AU - Traberg, Rasa

AU - Douzgou, Sofia

AU - Pirt, Harrison

AU - Ismayilova, Naila

AU - Banka, Siddharth

AU - Chao, Hsiao-Tuan

AU - Agrawal, Pankaj B.

PY - 2023

Y1 - 2023

N2 - Eukaryotic initiation factor-4A2 (EIF4A2) is an ATP-dependent RNA helicase and a member of the DEAD-box protein family that recognizes the 5ʹ cap structure of mRNAs, allows mRNA to bind to the ribosome, and plays an important role in microRNA-regulated gene repression. Here, we report on 15 individuals from 14 families presenting with global developmental delay, intellectual disability, hypotonia, epilepsy, and structural brain anomalies, all of whom have extremely rare de novo mono-allelic or inherited bi-allelic variants in EIF4A2. Neurodegeneration was predominantly reported in individuals with bi-allelic variants. Molecular modeling predicts these variants would perturb structural interactions in key protein domains. To determine the pathogenicity of the EIF4A2 variants in vivo, we examined the mono-allelic variants in Drosophila melanogaster (fruit fly) and identified variant-specific behavioral and developmental defects. The fruit fly homolog of EIF4A2 is eIF4A, a negative regulator of decapentaplegic (dpp) signaling that regulates embryo patterning, eye and wing morphogenesis, and stem cell identity determination. Our loss-of-function (LOF) rescue assay demonstrated a pupal lethality phenotype induced by loss of eIF4A, which was fully rescued with human EIF4A2 wild-type (WT) cDNA expression. In comparison, the EIF4A2 variant cDNAs failed or incompletely rescued the lethality. Overall, our findings reveal that EIF4A2 variants cause a genetic neurodevelopmental syndrome with both LOF and gain of function as underlying mechanisms.

AB - Eukaryotic initiation factor-4A2 (EIF4A2) is an ATP-dependent RNA helicase and a member of the DEAD-box protein family that recognizes the 5ʹ cap structure of mRNAs, allows mRNA to bind to the ribosome, and plays an important role in microRNA-regulated gene repression. Here, we report on 15 individuals from 14 families presenting with global developmental delay, intellectual disability, hypotonia, epilepsy, and structural brain anomalies, all of whom have extremely rare de novo mono-allelic or inherited bi-allelic variants in EIF4A2. Neurodegeneration was predominantly reported in individuals with bi-allelic variants. Molecular modeling predicts these variants would perturb structural interactions in key protein domains. To determine the pathogenicity of the EIF4A2 variants in vivo, we examined the mono-allelic variants in Drosophila melanogaster (fruit fly) and identified variant-specific behavioral and developmental defects. The fruit fly homolog of EIF4A2 is eIF4A, a negative regulator of decapentaplegic (dpp) signaling that regulates embryo patterning, eye and wing morphogenesis, and stem cell identity determination. Our loss-of-function (LOF) rescue assay demonstrated a pupal lethality phenotype induced by loss of eIF4A, which was fully rescued with human EIF4A2 wild-type (WT) cDNA expression. In comparison, the EIF4A2 variant cDNAs failed or incompletely rescued the lethality. Overall, our findings reveal that EIF4A2 variants cause a genetic neurodevelopmental syndrome with both LOF and gain of function as underlying mechanisms.

KW - DEAD-box protein

KW - Drosophila

KW - transcription factor

KW - neurodevelopmental disorder

KW - epilepsy

KW - DEAD-box protein

KW - Drosophila

KW - transcription factor

KW - neurodevelopmental disorder

KW - epilepsy

UR - http://hdl.handle.net/10807/302066

U2 - 10.1016/j.ajhg.2022.11.011

DO - 10.1016/j.ajhg.2022.11.011

M3 - Article

SN - 1537-6605

VL - 110

SP - 120

EP - 145

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

ER -

Rare EIF4A2 variants are associated with a neurodevelopmental disorder characterized by intellectual disability, hypotonia, and epilepsy

Abstract

Keywords

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