Loke Julian C P, Kraev Natasha, Sharma Parveen, Du GuoGuang, Patel Leena, Kraev Alexander, MacLennan David H
Malignant Hyperthermia Investigation Unit, Banting and Best Department of Medical Research, University of Toronto, Canada.
Anesthesiology. 2003 Aug;99(2):297-302. doi: 10.1097/00000542-200308000-00011.
To determine whether malignant hyperthermia (MH) susceptibility in a Canadian pedigree is associated with a mutation in the ryanodine receptor subtype 1 (RYR1) gene, the complete RYR1 transcript obtained from the leukocytes of one MH-susceptible family member was sequenced, using a newly developed protocol.
RNA was extracted from leukocytes and converted into complementary DNA. Overlapping fragments of RYR1 complementary DNA were amplified by the polymerase chain reaction and used for double-strand sequencing to find a single mutation likely to be causal of MH susceptibility. Inheritance of the mutation in the family was studied by restriction endonuclease analysis and/or sequencing of genomic DNA and compared to available caffeine halothane contracture test data. The mutation was introduced into rabbit RYR1 complementary DNA, the complementary DNA was expressed in human embryonic kidney line 293 cells, and Ca2+ release by the mutant Ca2+ release channel was measured following the addition of caffeine and halothane.
A novel arginine 328 to tryptophan mutation in RYR1 was detected by direct sequencing of the RYR1 transcript from leukocytes of one MH-susceptible individual. A causal role for this mutation in MH is indicated by cosegregation of the mutation with the MH-susceptible phenotype within the family and by the demonstration that the mutant channel has increased sensitivity to both caffeine and halothane.
The feasibility of using complete RYR1 transcripts from leukocytes for sequence analysis offers an efficient and noninvasive method for scanning RYR1 for novel mutations.
为了确定一个加拿大谱系中的恶性高热(MH)易感性是否与1型兰尼碱受体(RYR1)基因突变相关,使用一种新开发的方案对从一名MH易感家庭成员的白细胞中获得的完整RYR1转录本进行了测序。
从白细胞中提取RNA并转化为互补DNA。通过聚合酶链反应扩增RYR1互补DNA的重叠片段,并用于双链测序以寻找可能导致MH易感性的单一突变。通过限制性内切酶分析和/或基因组DNA测序研究该家族中突变的遗传情况,并与现有的咖啡因氟烷挛缩试验数据进行比较。将该突变引入兔RYR1互补DNA中,该互补DNA在人胚肾293细胞中表达,并在添加咖啡因和氟烷后测量突变型钙释放通道的钙释放情况。
通过对一名MH易感个体白细胞中的RYR1转录本进行直接测序,检测到RYR1中一个新的精氨酸328突变为色氨酸的突变。该突变与家族中MH易感表型的共分离以及突变通道对咖啡因和氟烷的敏感性增加表明该突变在MH中起因果作用。
使用白细胞中的完整RYR1转录本进行序列分析的可行性为扫描RYR1寻找新突变提供了一种高效且非侵入性的方法。
