TY - JOUR
T1 - Complex inheritance and parent-of-origin effect in juvenile myoclonic epilepsy
AU - Pal, Deb K.
AU - Durner, Martina
AU - Klotz, Irene
AU - Dicker, Elisa
AU - Shinnar, Shlomo
AU - Resor, Stanley
AU - Cohen, Jeffrey
AU - Harden, Cynthia
AU - Moshé, Solomon L.
AU - Ballaban-Gill, Karen
AU - Bromfield, Edward B.
AU - Greenberg, David A.
N1 - Funding Information:
Our thanks to the families participating in the New York Epilepsy Project. This study was supported by a Royal Society-Fulbright Distinguished Postdoctoral Scholarship (DKP); a grant from the Dunhill Medical Trust (DKP); and members of the Partnership for Pediatric Epilepsy Research, which includes the American Epilepsy Society, the Epilepsy Foundation, Anna and Jim Fantaci, Fight Against Childhood Epilepsy and Seizures (f.a.c.e.s), Neurotherapy Ventures Charitable Research Fund, and Parents Against Childhood Epilepsy (P.A.C.E.) (DKP); the Epilepsy Foundation through the generous support of the Charles L Shor Foundation for Epilepsy Research, Inc (DKP); National Institutes of Health grants NS047530 (DKP), NS27941 (DAG), MH48858 (DAG), DK31775 (DAG), NS37466 (MD). Thanks to Dr Louise Resor for reporting EEGs. We thank Debra Wolgemuth, Tom Crowley, Rhonda Trousdale, and Enyuan Shang at Columbia University, and Barry Keverne at Cambridge University, for stimulating comments and discussion. DKP also acknowledges the facilities of the Providence Athenaeum Library, Rhode Island.
PY - 2006/3
Y1 - 2006/3
N2 - Background: Juvenile myoclonic epilepsy (JME) is an idiopathic generalized epilepsy (IGE) with complex inheritance. Previous studies have suggested maternal inheritance and female excess in IGEs but have not been specific for JME. We investigated evidence for maternal inheritance, female excess and patterns of familial seizure risk in a well-characterized sample of JME families. Methods: We ascertained 89 families through a JME proband and 50 families through a non-JME IGE proband. JME families were divided into those with and without evidence of linkage to the EJM1 susceptibility locus on chromosome 6. We analyzed transmission in 43 multigenerational families, calculated the adjusted sex ratio for JME, and looked for evidence of seizure specific risk in 806 family members. Results: We found evidence for preferential maternal transmission in both EJM1-linked and unlinked families (2.7:1), evidence even more marked when potential selection factors were excluded. The adjusted female: male risk ratio was very high in JME (RR=12.5; 95% CI: 1.9-83.7). Absence seizures in JME probands increased the overall risk of seizures in first degree relatives (15.8% vs. 7.0%, P=0.011), as well as first-degree relatives' specific risk of absence seizures (6% vs. 1.6%, P=0.01), but not myoclonic seizures. Conclusions: We have confirmed the finding of maternal inheritance in JME, which is not restricted to JME families linked to the EJM1 locus. The striking female excess in JME may relate to anatomical and/or endocrine sexual dimorphism in the brain. Evidence for independent inheritance of absence and myoclonic seizures in JME families reinforces a model in which combinations of loci confer susceptibility to the component seizure types of IGE.
AB - Background: Juvenile myoclonic epilepsy (JME) is an idiopathic generalized epilepsy (IGE) with complex inheritance. Previous studies have suggested maternal inheritance and female excess in IGEs but have not been specific for JME. We investigated evidence for maternal inheritance, female excess and patterns of familial seizure risk in a well-characterized sample of JME families. Methods: We ascertained 89 families through a JME proband and 50 families through a non-JME IGE proband. JME families were divided into those with and without evidence of linkage to the EJM1 susceptibility locus on chromosome 6. We analyzed transmission in 43 multigenerational families, calculated the adjusted sex ratio for JME, and looked for evidence of seizure specific risk in 806 family members. Results: We found evidence for preferential maternal transmission in both EJM1-linked and unlinked families (2.7:1), evidence even more marked when potential selection factors were excluded. The adjusted female: male risk ratio was very high in JME (RR=12.5; 95% CI: 1.9-83.7). Absence seizures in JME probands increased the overall risk of seizures in first degree relatives (15.8% vs. 7.0%, P=0.011), as well as first-degree relatives' specific risk of absence seizures (6% vs. 1.6%, P=0.01), but not myoclonic seizures. Conclusions: We have confirmed the finding of maternal inheritance in JME, which is not restricted to JME families linked to the EJM1 locus. The striking female excess in JME may relate to anatomical and/or endocrine sexual dimorphism in the brain. Evidence for independent inheritance of absence and myoclonic seizures in JME families reinforces a model in which combinations of loci confer susceptibility to the component seizure types of IGE.
KW - Genetics
KW - Idiopathic generalized epilepsy
KW - Parent-of-origin
KW - Phenotype
UR - http://www.scopus.com/inward/record.url?scp=32044452016&partnerID=8YFLogxK
U2 - 10.1016/j.braindev.2005.05.009
DO - 10.1016/j.braindev.2005.05.009
M3 - Article
C2 - 16414227
AN - SCOPUS:32044452016
SN - 0387-7604
VL - 28
SP - 92
EP - 98
JO - Brain and Development
JF - Brain and Development
IS - 2
ER -