Health Research Institute Hospital La Fe (IIS La Fe), Department of Neurology of the Hospital Universitari i Politècnic La Fe, 46026, Valencia, Spain.
Unit of Genetics and Genomics of Neuromuscular and Neurodegenerative Disorders, Centro de Investigación Príncipe Felipe (CIPF), 46012, Valencia, Spain.
J Neurol Sci. 2019 Jul 15;402:156-161. doi: 10.1016/j.jns.2019.05.015. Epub 2019 May 15.
Mutations in the FGD4 gene cause an autosomal recessive demyelinating peripheral neuropathy referred to as CMT4H, characterized by its onset in infancy or early-childhood and its slow progression.
The clinical and genetic status of two patients with CMT4H was studied, performing genetic testing with a panel of genes and analysing FGD4 mRNA expression by quantitative PCR.
Two novel FGD4 variants (c.514delG and c.2211dupA) were identified in two mildly affected Spanish siblings with CMT4H, and with disease onset in late adolescence/adulthood (one of them remaining asymptomatic at 20). On examination, foot deformity was observed without weakness or sensory involvement, and in the muscles of the lower extremities magnetic resonance imaging showed no fat replacement. Further analysis of FGD4 expression in peripheral blood suggested that neither mutation affected splicing, nor did they affect the dosage of FGD4 mRNA (compared to a healthy control). It was predicted that each allele would produce a truncated protein, p.Ala172Glnfs28 (c.514delG) and p.Ala738Serfs5 (c.2211dupA), the latter containing all the functional domains of the native protein.
The conservation of functional domains in the proteins produced from the FGD4 gene of two patients with CMT4H, could explain both the milder phenotype and the later disease onset in these patients. These results expand the clinical and mutational spectrum of FGD4-related peripheral neuropathies.
FGD4 基因突变导致常染色体隐性脱髓鞘周围神经病,称为 CMT4H,其特征为婴儿期或幼儿期发病,且进展缓慢。
研究了两名 CMT4H 患者的临床和遗传状况,通过基因组合进行基因检测,并通过定量 PCR 分析 FGD4 mRNA 表达。
在两名患有 CMT4H 的轻度西班牙同胞中发现了两个新的 FGD4 变体(c.514delG 和 c.2211dupA),发病于青少年后期/成年期(其中一人在 20 岁时仍无症状)。检查时,观察到足部畸形,但无无力或感觉受累,下肢肌肉磁共振成像无脂肪替代。进一步分析外周血中的 FGD4 表达表明,这两种突变均不影响剪接,也不影响 FGD4 mRNA 的剂量(与健康对照组相比)。预测每个等位基因都会产生截短的蛋白,p.Ala172Glnfs28(c.514delG)和 p.Ala738Serfs5(c.2211dupA),后者包含天然蛋白的所有功能域。
两名 CMT4H 患者 FGD4 基因产生的蛋白中功能域的保守性,可以解释这些患者的表型较轻和发病较晚。这些结果扩展了 FGD4 相关周围神经病的临床和突变谱。
