CACNA1G变异可能是新生儿癫痫SCN2A新生突变婴儿的遗传修饰因子

IF 0.4 Q4 PEDIATRICS Journal of pediatric genetics Pub Date : 2023-06-01 DOI:10.1055/s-0041-1723958
Juan Jose Nieto-Barcelo, Noelia Gonzalez Montes, Isabel Gonzalo Alonso, Francisco Martinez, Maria Jose Aparisi, Marina Martinez-Matilla, Ana Victoria Marco Hernandez, Miguel Tomás Vila
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引用次数: 2

摘要

SCN2A基因突变已在癫痫患者中被描述,发现从良性家族性癫痫到癫痫性脑病有很大的表型变异。为了解释这种变异性,有人提出在一个或多个基因座上存在显性修饰等位基因,这些等位基因决定了癫痫表型的严重程度。CACNA1G基因可能是修饰因子的一个例子,已在动物模型中得到证实。我们报告了一个6天大的男性新生儿复发性癫痫发作,其中SCN2A基因突变以及CACNA1G基因突变被观察到。我们的患者在出生的第一天就出现了肌阵挛性发作,伴有病理性的临界间期脑电图模式,需要多种药物来达到适当的控制。在接下来的几周内,患者逐渐好转,直到生命第二个月完全缓解,可以停止抗癫痫治疗。我们提出,CACNA1G基因的变异可能是我们患者的SCN2A基因突变所产生的癫痫综合征的修饰因子。
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Variant in CACNA1G as a Possible Genetic Modifier of Neonatal Epilepsy in an Infant with a De Novo SCN2A Mutation.

Mutations in SCN2A genes have been described in patients with epilepsy, finding a large phenotypic variability, from benign familial epilepsy to epileptic encephalopathy. To explain this variability, it was proposed the existence of dominant modifier alleles at one or more loci that contribute to determine the severity of the epilepsy phenotype. One example of modifier factor may be the CACNA1G gene, as proved in animal models. We present a 6-day-old male newborn with recurrent seizures in which a mutation in the SCN2A gene is observed, in addition to a variant in CACNA1G gene. Our patient suffered in the first days of life myoclonic seizures, with pathologic intercritical electroencephalogram pattern, requiring multiple drugs to achieve adequate control of them. During the next weeks, the patient progressively improved until complete remission at the second month of life, being possible to withdraw the antiepileptic treatment. We propose that the variant in CACNA1G gene could have acted as a modifier of the epilepsy syndrome produced by the mutation in SCN2A gene in our patient.

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期刊介绍: The Journal of Pediatric Genetics is an English multidisciplinary peer-reviewed international journal publishing articles on all aspects of genetics in childhood and of the genetics of experimental models. These topics include clinical genetics, molecular genetics, biochemical genetics, medical genetics, dysmorphology, teratology, genetic counselling, genetic engineering, formal genetics, neuropsychiatric genetics, behavioral genetics, community genetics, cytogenetics, hereditary or syndromic cancer genetics, genetic mapping, reproductive genetics, fetal pathology and prenatal diagnosis, multiple congenital anomaly syndromes, and molecular embryology of birth defects. Journal of Pediatric Genetics provides an in-depth update on new subjects and current comprehensive coverage of the latest techniques used in the diagnosis of childhood genetics. Journal of Pediatric Genetics encourages submissions from all authors throughout the world. The following articles will be considered for publication: editorials, original and review articles, short report, rapid communications, case reports, letters to the editor, and book reviews. The aim of the journal is to share and disseminate knowledge between all disciplines in the field of pediatric genetics. This journal is a publication of the World Pediatric Society: http://www.worldpediatricsociety.org/ The Journal of Pediatric Genetics is available in print and online. Articles published ahead of print are available via the eFirst service on the Thieme E-Journals platform.
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