Genetic heterogeneity in familial forms of genetic generalized epilepsy: from mono- to oligogenism

Maha Dahawi; Jean Madeleine de Sainte Agathe; Mohamed S. Elmagzoub; Elhami A. Ahmed; Julien Buratti; Thomas Courtin; Eric Noé; Julie Bogoin; Bruno Copin; Fatima A. Elmugadam; Wasma A. Abdelgadir; Ahmed K.M.A. Ahmed; Mohamed A. Daldoum; Rayan Mamoon Ibrahim Altayeb; Mohamed Bashir; Leena Mohamed Khalid; Sahar Gamil; Sara Baldassari; Liena Elsayed; Boris Keren; Gregory Nuel; Ammar E. Ahmed; Eric Leguern

doi:10.1186/s40246-024-00659-9

Genetic heterogeneity in familial forms of genetic generalized epilepsy: from mono- to oligogenism

Maha Dahawi, Jean Madeleine de Sainte Agathe, Mohamed S. Elmagzoub, Elhami A. Ahmed, Julien Buratti, Thomas Courtin, Eric Noé, Julie Bogoin, Bruno Copin, Fatima A. Elmugadam, Wasma A. Abdelgadir, Ahmed K.M.A. Ahmed, Mohamed A. Daldoum, Rayan Mamoon Ibrahim Altayeb, Mohamed Bashir, Leena Mohamed Khalid, Sahar Gamil, Sara Baldassari, Liena Elsayed, Boris KerenGregory Nuel, Ammar E. Ahmed, Eric Leguern

Basic Medical Sciences

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1 Scopus citations

Abstract

Genetic generalized epilepsy (GGE) including childhood absence epilepsy, juvenile absence epilepsy, juvenile myoclonic epilepsy (JME), and GGE with tonic–clonic seizures (TCS) (GGE-TCS), is genetically influenced with a two- to four- fold increased risk in the first-degree relatives of patients. Since large families with GGE are very rare, international studies have focused on sporadic GGE patients using whole exome sequencing, suggesting that GGE are highly genetically heterogeneous and rather involve rare or ultra-rare variants. Moreover, a polygenic mode of inheritance is suspected in most cases. We performed SNP microarrays and whole exome sequencing in 20 families from Sudan, focusing on those with at least four affected members. Standard genetic filters and Endeavour algorithm for functional prioritization of genes selected likely susceptibility variants in FAT1, DCHS1 or ASTN2 genes. FAT1 and DCHS1 are adhesion transmembrane proteins interacting during brain development, while ASTN2 is involved in dendrite development. Our approach on familial forms of GGE is complementary to large-scale collaborative consortia studies of sporadic cases. Our study reinforces the hypothesis that GGE is genetically heterogeneous, even in a relatively limited geographic area, and mainly oligogenic, as supported by the low familial penetrance of GGE and by the Bayesian algorithm that we developed in a large pedigree with JME. Since populations with founder effect and endogamy are appropriate to study autosomal recessive pathologies, they would be also adapted to decipher genetic components of complex diseases, using the reported bayesian model. Graphical Abstract: (Figure presented.)

Original language	English
Article number	130
Journal	Human Genomics
Volume	18
Issue number	1
DOIs	https://doi.org/10.1186/s40246-024-00659-9
State	Published - Dec 2024

Keywords

ASTN2
Bayesian model
DCHS1
FAT1
GGE
JME
Oligogenic
Polygenic

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10.1186/s40246-024-00659-9

Cite this

Dahawi, M., de Sainte Agathe, J. M., Elmagzoub, M. S., Ahmed, E. A., Buratti, J., Courtin, T., Noé, E., Bogoin, J., Copin, B., Elmugadam, F. A., Abdelgadir, W. A., Ahmed, A. K. M. A., Daldoum, M. A., Altayeb, R. M. I., Bashir, M., Khalid, L. M., Gamil, S., Baldassari, S., Elsayed, L., ... Leguern, E. (2024). Genetic heterogeneity in familial forms of genetic generalized epilepsy: from mono- to oligogenism. Human Genomics, 18(1), Article 130. https://doi.org/10.1186/s40246-024-00659-9

@article{a82e919f52334d1fb3891a2f48389f39,

title = "Genetic heterogeneity in familial forms of genetic generalized epilepsy: from mono- to oligogenism",

abstract = "Genetic generalized epilepsy (GGE) including childhood absence epilepsy, juvenile absence epilepsy, juvenile myoclonic epilepsy (JME), and GGE with tonic–clonic seizures (TCS) (GGE-TCS), is genetically influenced with a two- to four- fold increased risk in the first-degree relatives of patients. Since large families with GGE are very rare, international studies have focused on sporadic GGE patients using whole exome sequencing, suggesting that GGE are highly genetically heterogeneous and rather involve rare or ultra-rare variants. Moreover, a polygenic mode of inheritance is suspected in most cases. We performed SNP microarrays and whole exome sequencing in 20 families from Sudan, focusing on those with at least four affected members. Standard genetic filters and Endeavour algorithm for functional prioritization of genes selected likely susceptibility variants in FAT1, DCHS1 or ASTN2 genes. FAT1 and DCHS1 are adhesion transmembrane proteins interacting during brain development, while ASTN2 is involved in dendrite development. Our approach on familial forms of GGE is complementary to large-scale collaborative consortia studies of sporadic cases. Our study reinforces the hypothesis that GGE is genetically heterogeneous, even in a relatively limited geographic area, and mainly oligogenic, as supported by the low familial penetrance of GGE and by the Bayesian algorithm that we developed in a large pedigree with JME. Since populations with founder effect and endogamy are appropriate to study autosomal recessive pathologies, they would be also adapted to decipher genetic components of complex diseases, using the reported bayesian model. Graphical Abstract: (Figure presented.)",

keywords = "ASTN2, Bayesian model, DCHS1, FAT1, GGE, JME, Oligogenic, Polygenic",

author = "Maha Dahawi and \{de Sainte Agathe\}, \{Jean Madeleine\} and Elmagzoub, \{Mohamed S.\} and Ahmed, \{Elhami A.\} and Julien Buratti and Thomas Courtin and Eric No{\'e} and Julie Bogoin and Bruno Copin and Elmugadam, \{Fatima A.\} and Abdelgadir, \{Wasma A.\} and Ahmed, \{Ahmed K.M.A.\} and Daldoum, \{Mohamed A.\} and Altayeb, \{Rayan Mamoon Ibrahim\} and Mohamed Bashir and Khalid, \{Leena Mohamed\} and Sahar Gamil and Sara Baldassari and Liena Elsayed and Boris Keren and Gregory Nuel and Ahmed, \{Ammar E.\} and Eric Leguern",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1186/s40246-024-00659-9",

language = "English",

volume = "18",

journal = "Human Genomics",

issn = "1473-9542",

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Dahawi, M, de Sainte Agathe, JM, Elmagzoub, MS, Ahmed, EA, Buratti, J, Courtin, T, Noé, E, Bogoin, J, Copin, B, Elmugadam, FA, Abdelgadir, WA, Ahmed, AKMA, Daldoum, MA, Altayeb, RMI, Bashir, M, Khalid, LM, Gamil, S, Baldassari, S, Elsayed, L, Keren, B, Nuel, G, Ahmed, AE & Leguern, E 2024, 'Genetic heterogeneity in familial forms of genetic generalized epilepsy: from mono- to oligogenism', Human Genomics, vol. 18, no. 1, 130. https://doi.org/10.1186/s40246-024-00659-9

TY - JOUR

T1 - Genetic heterogeneity in familial forms of genetic generalized epilepsy

T2 - from mono- to oligogenism

AU - Dahawi, Maha

AU - de Sainte Agathe, Jean Madeleine

AU - Elmagzoub, Mohamed S.

AU - Ahmed, Elhami A.

AU - Buratti, Julien

AU - Courtin, Thomas

AU - Noé, Eric

AU - Bogoin, Julie

AU - Copin, Bruno

AU - Elmugadam, Fatima A.

AU - Abdelgadir, Wasma A.

AU - Ahmed, Ahmed K.M.A.

AU - Daldoum, Mohamed A.

AU - Altayeb, Rayan Mamoon Ibrahim

AU - Bashir, Mohamed

AU - Khalid, Leena Mohamed

AU - Gamil, Sahar

AU - Baldassari, Sara

AU - Elsayed, Liena

AU - Keren, Boris

AU - Nuel, Gregory

AU - Ahmed, Ammar E.

AU - Leguern, Eric

PY - 2024/12

Y1 - 2024/12

N2 - Genetic generalized epilepsy (GGE) including childhood absence epilepsy, juvenile absence epilepsy, juvenile myoclonic epilepsy (JME), and GGE with tonic–clonic seizures (TCS) (GGE-TCS), is genetically influenced with a two- to four- fold increased risk in the first-degree relatives of patients. Since large families with GGE are very rare, international studies have focused on sporadic GGE patients using whole exome sequencing, suggesting that GGE are highly genetically heterogeneous and rather involve rare or ultra-rare variants. Moreover, a polygenic mode of inheritance is suspected in most cases. We performed SNP microarrays and whole exome sequencing in 20 families from Sudan, focusing on those with at least four affected members. Standard genetic filters and Endeavour algorithm for functional prioritization of genes selected likely susceptibility variants in FAT1, DCHS1 or ASTN2 genes. FAT1 and DCHS1 are adhesion transmembrane proteins interacting during brain development, while ASTN2 is involved in dendrite development. Our approach on familial forms of GGE is complementary to large-scale collaborative consortia studies of sporadic cases. Our study reinforces the hypothesis that GGE is genetically heterogeneous, even in a relatively limited geographic area, and mainly oligogenic, as supported by the low familial penetrance of GGE and by the Bayesian algorithm that we developed in a large pedigree with JME. Since populations with founder effect and endogamy are appropriate to study autosomal recessive pathologies, they would be also adapted to decipher genetic components of complex diseases, using the reported bayesian model. Graphical Abstract: (Figure presented.)

AB - Genetic generalized epilepsy (GGE) including childhood absence epilepsy, juvenile absence epilepsy, juvenile myoclonic epilepsy (JME), and GGE with tonic–clonic seizures (TCS) (GGE-TCS), is genetically influenced with a two- to four- fold increased risk in the first-degree relatives of patients. Since large families with GGE are very rare, international studies have focused on sporadic GGE patients using whole exome sequencing, suggesting that GGE are highly genetically heterogeneous and rather involve rare or ultra-rare variants. Moreover, a polygenic mode of inheritance is suspected in most cases. We performed SNP microarrays and whole exome sequencing in 20 families from Sudan, focusing on those with at least four affected members. Standard genetic filters and Endeavour algorithm for functional prioritization of genes selected likely susceptibility variants in FAT1, DCHS1 or ASTN2 genes. FAT1 and DCHS1 are adhesion transmembrane proteins interacting during brain development, while ASTN2 is involved in dendrite development. Our approach on familial forms of GGE is complementary to large-scale collaborative consortia studies of sporadic cases. Our study reinforces the hypothesis that GGE is genetically heterogeneous, even in a relatively limited geographic area, and mainly oligogenic, as supported by the low familial penetrance of GGE and by the Bayesian algorithm that we developed in a large pedigree with JME. Since populations with founder effect and endogamy are appropriate to study autosomal recessive pathologies, they would be also adapted to decipher genetic components of complex diseases, using the reported bayesian model. Graphical Abstract: (Figure presented.)

KW - ASTN2

KW - Bayesian model

KW - DCHS1

KW - FAT1

KW - GGE

KW - JME

KW - Oligogenic

KW - Polygenic

UR - http://www.scopus.com/inward/record.url?scp=85209755207&partnerID=8YFLogxK

U2 - 10.1186/s40246-024-00659-9

DO - 10.1186/s40246-024-00659-9

M3 - Article

C2 - 39574152

AN - SCOPUS:85209755207

SN - 1473-9542

VL - 18

JO - Human Genomics

JF - Human Genomics

IS - 1

M1 - 130

ER -

Genetic heterogeneity in familial forms of genetic generalized epilepsy: from mono- to oligogenism

Abstract

Keywords

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