Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, Texas, USA.
Department of Pediatrics, Faculty of Medicine, Kuwait University, Safat, Kuwait.
J Inherit Metab Dis. 2023 Nov;46(6):1195-1205. doi: 10.1002/jimd.12679. Epub 2023 Oct 5.
Biallelic variants in genes for seven out of eight subunits of the conserved oligomeric Golgi complex (COG) are known to cause recessive congenital disorders of glycosylation (CDG) with variable clinical manifestations. COG3 encodes a constituent subunit of the COG complex that has not been associated with disease traits in humans. Herein, we report two COG3 homozygous missense variants in four individuals from two unrelated consanguineous families that co-segregated with COG3-CDG presentations. Clinical phenotypes of affected individuals include global developmental delay, severe intellectual disability, microcephaly, epilepsy, facial dysmorphism, and variable neurological findings. Biochemical analysis of serum transferrin from one family showed the loss of a single sialic acid. Western blotting on patient-derived fibroblasts revealed reduced COG3 and COG4. Further experiments showed delayed retrograde vesicular recycling in patient cells. This report adds to the knowledge of the COG-CDG network by providing collective evidence for a COG3-CDG rare disease trait and implicating a likely pathology of the disorder as the perturbation of Golgi trafficking.
已知保守的寡糖基化复合物(COG)的八个亚基中的七个基因的双等位基因变异可导致具有不同临床表现的常染色体隐性先天性糖基化缺陷(CDG)。COG3 编码 COG 复合物的一个组成亚基,尚未与人类疾病特征相关联。在此,我们报告了来自两个无关近亲家庭的四个人中存在的 COG3 纯合错义变体,它们与 COG3-CDG 表现共分离。受影响个体的临床表型包括全面发育迟缓、严重智力残疾、小头畸形、癫痫、面型畸形和可变的神经学发现。来自一个家庭的血清转铁蛋白的生化分析显示单个唾液酸的丢失。对患者衍生的成纤维细胞进行的 Western blot 分析显示 COG3 和 COG4 减少。进一步的实验表明患者细胞中的逆行囊泡回收延迟。该报告通过提供 COG3-CDG 罕见疾病特征的综合证据并暗示该疾病的病理可能是高尔基体运输的扰动,从而增加了 COG-CDG 网络的知识。
