Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection

Background: HLA-DRB1 is the most polymorphic gene in the human leukocyte antigen (HLA) class II, and exon 2 is critical because it encodes antigen-binding sites. This study aimed to detect functional or marker genetic variants of HLA-DRB1 exon 2 in renal transplant recipients (acceptance and rejecti...

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Autores principales: Hassan, Mohamed M., Hussain, Mohamed A., Ali, Sababil S., Mahdi, Mohammed A., Mohamed, Nouh Saad, AbdElbagi, Hanadi, Mohamed, Osama, Sherif, Asmaa E., Osman, Wadah, Ibrahim, Sabrin R. M., Ghazawi, Kholoud F., Miski, Samar F., Mohamed, Gamal A., Ashour, Ahmed
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10305364/
https://www.ncbi.nlm.nih.gov/pubmed/37374320
http://dx.doi.org/10.3390/medicina59061116
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author Hassan, Mohamed M.
Hussain, Mohamed A.
Ali, Sababil S.
Mahdi, Mohammed A.
Mohamed, Nouh Saad
AbdElbagi, Hanadi
Mohamed, Osama
Sherif, Asmaa E.
Osman, Wadah
Ibrahim, Sabrin R. M.
Ghazawi, Kholoud F.
Miski, Samar F.
Mohamed, Gamal A.
Ashour, Ahmed
author_facet Hassan, Mohamed M.
Hussain, Mohamed A.
Ali, Sababil S.
Mahdi, Mohammed A.
Mohamed, Nouh Saad
AbdElbagi, Hanadi
Mohamed, Osama
Sherif, Asmaa E.
Osman, Wadah
Ibrahim, Sabrin R. M.
Ghazawi, Kholoud F.
Miski, Samar F.
Mohamed, Gamal A.
Ashour, Ahmed
author_sort Hassan, Mohamed M.
collection PubMed
description Background: HLA-DRB1 is the most polymorphic gene in the human leukocyte antigen (HLA) class II, and exon 2 is critical because it encodes antigen-binding sites. This study aimed to detect functional or marker genetic variants of HLA-DRB1 exon 2 in renal transplant recipients (acceptance and rejection) using Sanger sequencing. Methods: This hospital-based case-control study collected samples from two hospitals over seven months. The 60 participants were equally divided into three groups: rejection, acceptance, and control. The target regions were amplified and sequenced by PCR and Sanger sequencing. Several bioinformatics tools have been used to assess the impact of non-synonymous single-nucleotide variants (nsSNVs) on protein function and structure. The sequences data that support the findings of this study with accession numbers (OQ747803-OQ747862) are available in National Center for Biotechnology Information (GenBank database). Results: Seven SNVs were identified, two of which were novel (chr6(GRCh38.p12): 32584356C>A (K41N) and 32584113C>A (R122R)). Three of the seven SNVs were non-synonymous and found in the rejection group (chr6(GRCh38.p12): 32584356C>A (K41N), 32584304A>G (Y59H), and 32584152T>A (R109S)). The nsSNVs had varying effects on protein function, structure, and physicochemical parameters and could play a role in renal transplant rejection. The chr6(GRCh38.p12):32584152T>A variant showed the greatest impact. This is because of its conserved nature, main domain location, and pathogenic effects on protein structure, function, and stability. Finally, no significant markers were identified in the acceptance samples. Conclusion: Pathogenic variants can affect intramolecular/intermolecular interactions of amino acid residues, protein function/structure, and disease risk. HLA typing based on functional SNVs could be a comprehensive, accurate, and low-cost method for covering all HLA genes while shedding light on previously unknown causes in many graft rejection cases.
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spelling pubmed-103053642023-06-29 Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection Hassan, Mohamed M. Hussain, Mohamed A. Ali, Sababil S. Mahdi, Mohammed A. Mohamed, Nouh Saad AbdElbagi, Hanadi Mohamed, Osama Sherif, Asmaa E. Osman, Wadah Ibrahim, Sabrin R. M. Ghazawi, Kholoud F. Miski, Samar F. Mohamed, Gamal A. Ashour, Ahmed Medicina (Kaunas) Article Background: HLA-DRB1 is the most polymorphic gene in the human leukocyte antigen (HLA) class II, and exon 2 is critical because it encodes antigen-binding sites. This study aimed to detect functional or marker genetic variants of HLA-DRB1 exon 2 in renal transplant recipients (acceptance and rejection) using Sanger sequencing. Methods: This hospital-based case-control study collected samples from two hospitals over seven months. The 60 participants were equally divided into three groups: rejection, acceptance, and control. The target regions were amplified and sequenced by PCR and Sanger sequencing. Several bioinformatics tools have been used to assess the impact of non-synonymous single-nucleotide variants (nsSNVs) on protein function and structure. The sequences data that support the findings of this study with accession numbers (OQ747803-OQ747862) are available in National Center for Biotechnology Information (GenBank database). Results: Seven SNVs were identified, two of which were novel (chr6(GRCh38.p12): 32584356C>A (K41N) and 32584113C>A (R122R)). Three of the seven SNVs were non-synonymous and found in the rejection group (chr6(GRCh38.p12): 32584356C>A (K41N), 32584304A>G (Y59H), and 32584152T>A (R109S)). The nsSNVs had varying effects on protein function, structure, and physicochemical parameters and could play a role in renal transplant rejection. The chr6(GRCh38.p12):32584152T>A variant showed the greatest impact. This is because of its conserved nature, main domain location, and pathogenic effects on protein structure, function, and stability. Finally, no significant markers were identified in the acceptance samples. Conclusion: Pathogenic variants can affect intramolecular/intermolecular interactions of amino acid residues, protein function/structure, and disease risk. HLA typing based on functional SNVs could be a comprehensive, accurate, and low-cost method for covering all HLA genes while shedding light on previously unknown causes in many graft rejection cases. MDPI 2023-06-09 /pmc/articles/PMC10305364/ /pubmed/37374320 http://dx.doi.org/10.3390/medicina59061116 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Hassan, Mohamed M.
Hussain, Mohamed A.
Ali, Sababil S.
Mahdi, Mohammed A.
Mohamed, Nouh Saad
AbdElbagi, Hanadi
Mohamed, Osama
Sherif, Asmaa E.
Osman, Wadah
Ibrahim, Sabrin R. M.
Ghazawi, Kholoud F.
Miski, Samar F.
Mohamed, Gamal A.
Ashour, Ahmed
Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection
title Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection
title_full Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection
title_fullStr Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection
title_full_unstemmed Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection
title_short Detection of Nonsynonymous Single Variants in Human HLA-DRB1 Exon 2 Associated with Renal Transplant Rejection
title_sort detection of nonsynonymous single variants in human hla-drb1 exon 2 associated with renal transplant rejection
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10305364/
https://www.ncbi.nlm.nih.gov/pubmed/37374320
http://dx.doi.org/10.3390/medicina59061116
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