Strasberg P M, Skomorowski M A, Warren I B, Hilson W L, Callahan J W, Clarke J T
Division of Neurosciences, Hospital for Sick Children, Toronto, Ontario, Canada.
Biochem Med Metab Biol. 1994 Oct;53(1):16-21. doi: 10.1006/bmmb.1994.1052.
Gaucher disease (GD) is an inherited deficiency of beta-glucocerebrosidase (EC 3.1.2.45, gene symbol GBA). In type I GD, the CNS is not involved (nonneuronopathic), whereas in type II GD (acute neuronopathic) CNS involvement is early and rapidly progressive, while in type III GD (subacute neuronopathic) CNS involvement occurs later and is slowly progressive. The T6433C (L444P) substitution is prevalent in type GD II. It may occur alone as a single base-pair mutation but often is found as part of a complex allele containing additional GBA nucleotide substitutions, G6468C (A456P) and G6482C (V460V), without (recNciI) or with (recTL) G5957C (D409H). This complex allele is presumed to have formed by recombination (crossover, fusion) of the structural gene with the pseudogene, which contains the mutated sequences. Two complex alleles have never been demonstrated to coexist in any individual. We devised a selective PCR method for the specific amplification of the normal and/or fusion gene. Using this procedure we demonstrated the fusion gene in homozygous form for the first time, in a Macedonian/Ashkenazi Jewish GD type II fetus. Both parents were carriers of the recombination. This was confirmed by direct sequence analysis. A previous conceptus in this family was stillborn at 36 weeks, with features of severe type II GD. Neonates showing a severe clinical phenotype, analogous to the early neonatal lethal disease occurring in mice homozygous for a null allele produced by targeted disruption of GBA, have been described elsewhere, but the specific mutations in these cases have not yet been characterized.(ABSTRACT TRUNCATED AT 250 WORDS)
戈谢病(GD)是一种由于β-葡萄糖脑苷脂酶(EC 3.1.2.45,基因符号GBA)遗传性缺乏引起的疾病。在I型GD中,中枢神经系统未受累(非神经病变型),而在II型GD(急性神经病变型)中,中枢神经系统早期受累且病情迅速进展,在III型GD(亚急性神经病变型)中,中枢神经系统较晚受累且病情进展缓慢。T6433C(L444P)替代在II型GD中很常见。它可能单独作为单个碱基对突变出现,但通常作为包含额外GBA核苷酸替代的复合等位基因的一部分被发现,即G6468C(A456P)和G6482C(V460V),不伴有(recNciI)或伴有(recTL)G5957C(D409H)。推测这种复合等位基因是由结构基因与假基因重组(交叉、融合)形成的,假基因包含突变序列。从未有证据表明两个复合等位基因会在任何个体中共存。我们设计了一种选择性PCR方法,用于特异性扩增正常和/或融合基因。通过这个程序,我们首次在一名马其顿/德系犹太人II型GD胎儿中以纯合形式证实了融合基因。父母双方都是重组携带者。这通过直接序列分析得到了证实。这个家族之前的一个胎儿在36周时死产,具有严重II型GD的特征。其他地方曾描述过表现出严重临床表型的新生儿,类似于因靶向破坏GBA产生的无效等位基因纯合的小鼠中出现的早期新生儿致死性疾病,但这些病例中的具体突变尚未得到鉴定。(摘要截选至250字)
