Mütze Ulrike, Bürger Friederike, Hoffmann Jessica, Tegetmeyer Helmut, Heichel Jens, Nickel Petra, Lemke Johannes R, Syrbe Steffen, Beblo Skadi
Department of General Pediatrics, Division of Neuropediatrics and Inherited Metabolic Diseases, University Children's Hospital Heidelberg, Im Neuenheimer Feld 430, 69120 Heidelberg, Germany; Hospital for Children and Adolescents, Centre for Pediatric Research Leipzig (CPL), Department of Women and Child Health, University Hospitals, University of Leipzig, Liebigstraße 20 a, 04103 Leipzig, Germany.
Center for Pediatric Metabolic Medicine, Department of General Pediatrics, University Children's Hospital Heidelberg, Im Neuenheimer Feld 669, 69120 Heidelberg, Germany.
Mol Genet Metab Rep. 2016 Dec 1;10:1-4. doi: 10.1016/j.ymgmr.2016.11.004. eCollection 2017 Mar.
Lysosomal storage diseases (LSD) often manifest with cherry red macular spots. Diagnosis is based on clinical features and specific biochemical and enzymatic patterns. In uncertain cases, genetic testing with next generation sequencing can establish a diagnosis, especially in milder or atypical phenotypes. We report on the diagnostic work-up in a boy with sialidosis type I, presenting initially with marked cherry red macular spots but non-specific urinary oligosaccharide patterns and unusually mild excretion of bound sialic acid.
Biochemical, enzymatic and genetic tests were performed in the patient. The clinical and electrophysiological data was reviewed and a genotype-phenotype analysis was performed. In addition a systematic literature review was carried out.
Cherry red macular spots were first noted at 6 years of age after routine screening myopia. Physical examination, psychometric testing, laboratory investigations as well as cerebral MRI were unremarkable at 9 years of age. So far no clinical myoclonic seizures occurred, but EEG displays generalized epileptic discharges and visual evoked potentials are prolonged bilaterally. Urine thin layer chromatography showed an oligosaccharide pattern compatible with different LSD including sialidosis, galactosialidosis, GM1 gangliosidosis or mucopolysaccharidosis type IV B. Urinary bound sialic acid excretion was mildly elevated in spontaneous and 24 h urine samples. In cultured fibroblasts, α-sialidase activity was markedly decreased to < 1%; however, bound and free sialic acid were within normal range. Diagnosis was eventually established by multigene panel next generation sequencing of genes associated to LSD, identifying two novel, compound heterozygous variants in gene (c.699C > A, p.S233R in exon 4 and c.803A > G; p.Y268C in Exon 5 in transcript NM_000434.3), leading to amino acid changes predicted to impair protein function.
Sialidosis should be suspected in patients with cherry red macular spots, even with non-significant urinary sialic acid excretion. Multigene panel next generation sequencing can establish a definite diagnosis, allowing for counseling of the patient and family.
溶酶体贮积症(LSD)常表现为樱桃红斑。诊断基于临床特征以及特定的生化和酶学模式。在不确定的病例中,采用下一代测序进行基因检测可明确诊断,尤其是在症状较轻或不典型的表型中。我们报告了一名I型唾液酸沉积症男孩的诊断过程,该男孩最初表现为明显的樱桃红斑,但尿寡糖模式不特异,结合唾液酸排泄异常轻微。
对患者进行了生化、酶学和基因检测。回顾了临床和电生理数据并进行了基因型-表型分析。此外,还进行了系统的文献综述。
在常规筛查近视时,6岁首次发现樱桃红斑。9岁时体格检查、心理测试、实验室检查以及脑部MRI均无异常。到目前为止,未发生临床肌阵挛性癫痫发作,但脑电图显示广泛性癫痫放电,双侧视觉诱发电位延长。尿薄层色谱显示寡糖模式与包括唾液酸沉积症、半乳糖唾液酸沉积症、GM1神经节苷脂沉积症或IV B型黏多糖贮积症在内的不同溶酶体贮积症相符。自发尿样和24小时尿样中结合唾液酸排泄轻度升高。在培养的成纤维细胞中,α-唾液酸酶活性显著降低至<1%;然而,结合型和游离型唾液酸均在正常范围内。最终通过与溶酶体贮积症相关基因的多基因panel下一代测序确定诊断,在 基因中鉴定出两个新的复合杂合变异(外显子4中c.699C>A,p.S233R;转录本NM_000434.3中外显子5中c.803A>G;p.Y268C),导致预测会损害蛋白质功能的氨基酸变化。
即使尿唾液酸排泄无明显异常,对于有樱桃红斑的患者也应怀疑唾液酸沉积症。多基因panel下一代测序可明确诊断,从而为患者及其家属提供咨询。