de Haan Gerrit-Jan, Pinto Dalila, Carton Dietbrandt, Bader Adri, Witte Jorien, Peters Edith, van Erp Gerard, Vandereyken Willem, Boezeman Eduard, Wapenaar Martin C, Boon Paul, Halley Dicky, Koeleman Bobby P C, Lindhout Dick
Epilepsy Institute of The Netherlands, Heemstede, Netherlands.
Epilepsia. 2006 May;47(5):851-9. doi: 10.1111/j.1528-1167.2006.00552.x.
A large multigenerational family with benign familial neonatal convulsions (BFNC) was revisited to identify the disease-causing mutation and to assess long-term outcome.
We supplemented the original data with recent clinical and neurophysiologic data on patients and first-degree relatives, including information on seizure recurrence. We conducted linkage analysis at the EBN1 and EBN2 loci, followed by mutation analysis of KCNQ2. We evaluated the qualitative effect of the KCNQ2 mutation at the messenger RNA (mRNA) level by using reverse-transcribed total RNA isolated from leukocytes.
Thirteen relatives had a history of neonatal convulsions, 11 of whom showed remission within 2 months. One patient showed an atypical course of neonatal convulsions, developing photosensitive myoclonic epilepsy at age 13 years. We found suggestive linkage of the BFNC phenotype to the 20q13-EBN1 locus (lod score, 2.03) and an intronic mutation IVS14-6 C>A in KCNQ2 segregating with the trait in all affected members, but absent in 100 unrelated control subjects. This mutation creates a new, preferentially used, splice site. Alternative splicing adds 4 nt containing a premature stop codon to the transcript, resulting in a truncated protein after position R588.
We detected and characterized a novel splicing mutation in the brain-specific KCNQ2 gene by using easily accessible blood leukocytes. Aberrant splicing cosegregates with BFNC but not with photosensitivity.
对一个患有良性家族性新生儿惊厥(BFNC)的大型多代家族进行再次研究,以确定致病突变并评估长期预后。
我们用患者及其一级亲属最近的临床和神经生理学数据补充原始数据,包括癫痫复发信息。我们在EBN1和EBN2基因座进行连锁分析,随后对KCNQ2进行突变分析。我们使用从白细胞中分离的逆转录总RNA在信使RNA(mRNA)水平评估KCNQ2突变的定性影响。
13名亲属有新生儿惊厥病史,其中11人在2个月内缓解。1例患者表现为非典型的新生儿惊厥病程,13岁时发展为光敏性肌阵挛癫痫。我们发现BFNC表型与20q13-EBN1基因座存在提示性连锁(对数优势分数,2.03),并且在KCNQ2中存在一个内含子突变IVS14-6 C>A,该突变在所有受影响成员中与该性状共分离,但在100名无关对照受试者中不存在。该突变产生了一个新的、优先使用的剪接位点。选择性剪接在转录本中添加了4个包含过早终止密码子的核苷酸,导致在R588位置之后产生截短的蛋白质。
我们通过使用易于获取的血液白细胞检测并鉴定了脑特异性KCNQ2基因中的一种新型剪接突变。异常剪接与BFNC共分离,但与光敏性无关。
