Krägeloh-Mann Inge, Harzer Klaus, Rostásy Kevin, Beck-Wödl Stefanie, Bornemann Antje, Böhringer Judith, Bevot Andrea, Beck Verena, Merkel Gisela, Pechan Maria
Department of Neuropediatrics and Neurometabolic Laboratory, Children's Hospital of the University of Tübingen, Hoppe-Seyler-Str. 1, 72076 Tübingen, Germany.
Department of Neuropediatrics and Neurometabolic Laboratory, Children's Hospital of the University of Tübingen, Hoppe-Seyler-Str. 1, 72076 Tübingen, Germany.
Eur J Paediatr Neurol. 2017 May;21(3):522-529. doi: 10.1016/j.ejpn.2016.12.012. Epub 2017 Jan 6.
Krabbe disease (KD) is an inherited leukodystrophy due to a defect in the GALC gene which encodes the lysosomal galactosylceramide β-galactosidase (GALC). About two thirds of patients show the early onset form of KD dominated by cerebral demyelination leading to death in early infancy. Late onset forms include a spectrum of late infantile, juvenile and adult clinical courses. The deficiency of GALC leads to a galactosylceramide lipidosis in which lysosomal storage phenomena are seen almost only at the ultrastructural level.
In a 4-year-old boy, the clinical suspicion of KD was high according to neurologic and neuroimaging findings. However, laboratory results were inconclusive; white blood cell GALC activity being at 23 to 25% of the normal level, and GALC genotyping revealing the new homozygous p.Ala543Pro variant which, ex silico, was of unclear significance. Studying a skin biopsy, cultured fibroblasts showed the GALC activity at 21 to 30% of the normal level; ultrastructurally, clearly KD-specific inclusions were seen in the eccrine sweat gland cells, confirming a KD diagnosis.
The high clinical suspicion combined with the morphologic evidence for KD predict that the p.Ala543Pro variant is pathogenic for (late onset) KD. A hypothesis linked to the proline in the mutant GALC may explain the in vitro effect with high residual GALC activity. This patient would not have been correctly diagnosed, despite the strong clinical criteria of KD, if the electron microscopic results had not been available. The detailed knowledge of neurologic and neuroimaging signs is important in diagnostically problematic KD patients in which also an electron microscopic approach can be crucial.
克拉伯病(KD)是一种遗传性脑白质营养不良,由编码溶酶体半乳糖基神经酰胺β-半乳糖苷酶(GALC)的GALC基因缺陷引起。约三分之二的患者表现为KD的早发型,以脑脱髓鞘为主,导致婴儿早期死亡。晚发型包括一系列晚婴儿期、青少年期和成人期临床病程。GALC缺乏导致半乳糖基神经酰胺脂质沉积症,其中溶酶体储存现象几乎仅在超微结构水平可见。
在一名4岁男孩中,根据神经学和神经影像学检查结果,临床高度怀疑为KD。然而,实验室结果尚无定论;白细胞GALC活性为正常水平的23%至25%,GALC基因分型显示新的纯合子p.Ala543Pro变异体,计算机模拟分析显示其意义不明确。对皮肤活检样本进行研究,培养的成纤维细胞显示GALC活性为正常水平的21%至30%;超微结构上,在小汗腺细胞中可见明显的KD特异性包涵体,从而确诊为KD。
高度的临床怀疑加上KD的形态学证据表明,p.Ala543Pro变异体对(晚发型)KD具有致病性。与突变型GALC中的脯氨酸相关的假说可能解释了高残余GALC活性的体外效应。如果没有电子显微镜检查结果,尽管该患者有强烈的KD临床标准,也无法得到正确诊断。对于诊断有问题的KD患者,详细了解神经学和神经影像学体征很重要,电子显微镜检查方法在其中也可能至关重要。