A novel loss of function mutation in the PHD domain of the RAG2 gene, affecting zinc-binding affinity.

Abstract

Severe combined immune deficiencies (SCIDs) are genetically heterogeneous disorders that lead to the absence or malfunction of adaptive immune cells, including T- and B-cells. Pathogenic variants in the RAG2 gene are associated with this disease. A couple with consanguineous marriage from the Iranian-Azeri-Turkish ethnic group was referred to the genetic lab. Two children of this family died due to SCID disease with symptoms of skin granulomas, lack of developed T- and B-cells, and intact NK cells. To infer their genotypes, DNA samples obtained from the parents were subjected to whole-exome sequencing (WES). WES data analysis revealed that both parents were carriers of a pathogenic variant, NC_000011.10 (NM_000536.4):c.1268G > C, in the RAG2 gene. This variant was absent in our cohort of 400 healthy individuals from the same ethnic group. To gain insight into the consequence of the variant on the protein function, further analysis was performed by applying bioinformatics tools. This study revealed that the replacement of cysteine with serine at the zinc-binding domain diminished the domain's affinity to zinc ion, resulting in the loss of the mutant protein's ability to bind to the recombination signal sequence (RSS). The formation of the RAG2-RSS complex is vital for T- and B-cell development. The identification of a novel pathogenic variant, c.1268G > C, revealed that this variant in the zinc-binding domain diminished the affinity of the zinc ion to the mutant protein and consequently led to the loss of its ability to bind to the RSS.