Research laboratory of Neuropediatrics LR19ES15, Faculty of Medicine of Sfax, Sfax University, Sfax, Tunisia.
Laboratory of Regulatory Genomics, Genome Institute of Singapore, A*STAR, Singapore, Singapore.
J Hum Genet. 2024 Nov;69(11):591-597. doi: 10.1038/s10038-024-01273-2. Epub 2024 Jul 11.
The clinical diagnosis of patients with multisystem involvement including a pronounced neurologic damage is challenging. High-throughput sequencing methods remains crucial to provide an accurate diagnosis. In this study, we reported a Tunisian patient manifesting hypotonia and global developmental delay with visual and skin abnormalities. Exome sequencing was conducted followed by segregation analysis and, subsequently additional investigations. In silico analysis of non-synonymous variants (nsSNPs) described in COG5 in conserved positions was made. Results revealed a homozygous missense variant c.298 C > T (p.Leu100Phe) in the COG5 inherited from both parents. This variant altered both protein solubility and stability, in addition to a putative disruption of the COG5-COG7 interaction. This disruption has been confirmed using patient-derived cells in vitro in a COG5 co-immuno-precipitation, where interaction with binding partner COG7 was abrogated. Hence, we established the COG5-CDG diagnosis. Clinically, the patient shared common features with the already described cases with the report of the ichtyosis as a new manifestation. Conversely, the CADD scoring revealed 19 putatively pathogenic nsSNPs (Minor Allele Frequency MAF < 0.001, CADD > 30), 11 of which had a significant impact on the solubility and/or stability of COG5. These properties seem to be disrupted by six of the seven missense COG5-CDG variants. In conclusion, our study expands the genetic and phenotypic spectrum of COG5-CDG disease and highlight the utility of the next generation sequencing as a powerful tool in accurate diagnosis. Our results shed light on a likely molecular mechanism underlying the pathogenic effect of missense COG5 variants, which is the alteration of COG5 stability and solubility.
多系统受累患者的临床诊断具有挑战性,包括明显的神经损伤。高通量测序方法对于提供准确的诊断仍然至关重要。在这项研究中,我们报告了一名突尼斯患者,表现为张力减退和全面发育迟缓,伴有视觉和皮肤异常。进行了外显子组测序,随后进行了分离分析和进一步的研究。对 COG5 中保守位置的非同义变异(nsSNPs)进行了计算机分析。结果显示,患者从父母双方遗传了 COG5 的纯合错义变异 c.298C>T(p.Leu100Phe)。该变异改变了 COG5 的蛋白可溶性和稳定性,此外还可能破坏了 COG5-COG7 的相互作用。通过体外患者来源细胞的 COG5 共免疫沉淀证实了这种破坏,其中与结合伴侣 COG7 的相互作用被阻断。因此,我们建立了 COG5-CDG 诊断。临床上,该患者与已描述的病例具有共同特征,报告了鱼鳞癣作为一种新的表现。相反,CADD 评分显示 19 个可能致病的 nsSNPs(次要等位基因频率 MAF<0.001,CADD>30),其中 11 个对 COG5 的可溶性和/或稳定性有显著影响。这 7 个 COG5-CDG 变异中有 6 个似乎破坏了 COG5 的这些特性。总之,我们的研究扩展了 COG5-CDG 疾病的遗传和表型谱,并强调了下一代测序作为准确诊断的有力工具的实用性。我们的研究结果揭示了错义 COG5 变异导致致病效应的可能分子机制,即 COG5 稳定性和可溶性的改变。
