Abstract
Immunoglobulin G (IgG) proteins are known for the huge diversity of the variable domains of their heavy and light chains, aimed at protecting each individual against foreign antigens. The IgG also harbor specific polymorphism concentrated in the CH2 and CH3-CHS constant regions located on the Fc fragment of their heavy chains. But this individual particularity relies only on a few amino acids among which some could make accurate sequence determination a challenge for mass spectrometry-based techniques.The purpose of the study was to bring a molecular validation of proteomic results by the sequencing of encoding DNA fragments. It was performed using ten individual samples (DNA and sera) selected on the basis of their Gm (gamma marker) allotype polymorphism in order to cover the main immunoglobulin heavy gamma (IGHG) gene diversity. Gm allotypes, reflecting part of this diversity, were determined by a serological method. On its side, the IGH locus comprises four functional IGHG genes totalizing 34 alleles and encoding the four IgG subclasses. The genomic study focused on the nucleotide polymorphism of the CH2 and CH3-CHS exons and of the intron. Despite strong sequence identity, four pairs of specific gene amplification primers could be designed. Additional primers were identified to perform the subsequent sequencing. The nucleotide sequences obtained were first assigned to a specific IGHG gene, and then IGHG alleles were deduced using a home-made decision tree reading of the nucleotide sequences. IGHG amino acid (AA) alleles were determined by mass spectrometry. Identical results were found at 95% between alleles identified by proteomics and those deduced from genomics. These results validate the proteomic approach which could be used for diagnostic purposes, namely for a mother-and-child differential IGHG detection in a context of suspicion of congenital infection.
Highlights
gamma markers (Gm) Alleles Deduced from Serological Determination of Gm Allotypes—Experimental samples originated from 7 boys and 3 girls aged from 4 to 10 years all belonging to the Fon ethnic group which prevails in South-Benin except one child (PA09) who belonged to the Yoruba ethnic group originating from Nigeria
The present study was carried in an attempt to check with another technique the adequacy of bottom-up mass spectrometry for the identification of the immunoglobulin heavy gamma (IGHG) allelic diversity
A nucleotide sequencing of the CH2 and CH3-CHS domains, which concentrate the allelic diversity corresponding to the Fc fragment of the IG heavy gamma chain, was undertaken among DNA samples from ten individuals, and results were compared with those obtained in the corresponding sera by a hemagglutination inhibition method as well as in the corresponding purified Immunoglobulin G (IgG) by bottom-up mass spectrometry (MS)
Summary
The IgG harbor specific polymorphism concentrated in the CH2 and CH3-CHS constant regions located on the Fc fragment of their heavy chains. This individual particularity relies only on a few amino acids among which some could make accurate sequence determination a challenge for mass spectrometry-based techniques. The purpose of the study was to bring a molecular validation of proteomic results by the sequencing of encoding DNA fragments It was performed using ten individual samples (DNA and sera) selected on the basis of their Gm (gamma marker) allotype polymorphism in order to cover the main immunoglobulin heavy gamma (IGHG) gene diversity. The IGH locus comprises four functional IGHG genes totalizing 34 alleles and encoding the four IgG subclasses
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