Novel NFkB Variant V213E: Phenotypic Description & Molecular Modeling

Abstract

Abstract BACKGROUND: Mutations of NFkB1 are a known cause of inborn errors of immunity resulting in immunodeficiency due to the role of NFkB1 as a transcriptional regulator of immunomodulating proteins. We present a patient with a diagnosis of common variable immunodeficiency (CVID), cytopenias with massive splenomegaly, and nodular regenerative hyperplasia of the liver. Our proband, a 22-year-old male, presents with a clinical picture of immunodeficiency, and has a maternal cousin with a similar gene mutation but differing phenotype. Next generation panel sequencing (NGPS) was utilized to discover a novel, single point mutation variant in NFkB1, V213E, that is present in our proband. METHODS: The novel single-point mutation V213E in the NFkB gene was modeled in-silico using the I-TASSER homology modeling software. Molecular dynamics simulations of both the wild type and variant mutant form fitted to accommodate the novel mutation were conducted and analyzed to assess for possible pathogenicity of the novel mutation. RESULTS: This variant replaces Valine with Glutamic Acid at position 213 in the transcription regulator’s sequence. We perform molecular modeling to analyze the proteomic impact and difference in molecular dynamics (MDS) which depicted suppressed dynamics in the ankyrin region and death domain of the protein complex. Analysis of the proband’s family showed no significant family history except for the maternal cousin with a mutation in NFkB1. CONCLUSION: This case both highlights the heterogeneity in phenotype of NFkB1 pathogenic variants as shown in this patient, full penetrance of the variant mutation, and suggests the pathogenicity of a new variant through protein modeling techniques and molecular dynamic simulations.