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Personalized HLA typing leads to the discovery of novel HLA alleles and tumor‐specific HLA variants.

Authors :
Anzar, Irantzu
Sverchkova, Angelina
Samarakoon, Pubudu
Ellingsen, Espen Basmo
Gaudernack, Gustav
Stratford, Richard
Clancy, Trevor
Source :
HLA: Immune Response Genetics. Apr2022, Vol. 99 Issue 4, p313-327. 15p.
Publication Year :
2022

Abstract

Accurate and full‐length typing of the HLA region is important in many clinical and research settings. With the advent of next generation sequencing (NGS), several HLA typing algorithms have been developed, including many that are applicable to whole exome sequencing (WES). However, most of these solutions operate by providing the closest‐matched HLA allele among the known alleles in IPD‐IMGT/HLA Database. These database‐matching approaches have demonstrated very high performance when typing well characterized HLA alleles. However, as they rely on the completeness of the HLA database, they are not optimal for detecting novel or less well characterized alleles. Furthermore, the database‐matching approaches are also not adequate in the context of cancer, where a comprehensive characterization of somatic HLA variation and expression patterns of a tumor's HLA locus may guide therapy and clinical outcome, because of the pivotal role HLA alleles play in tumor antigen recognition and immune escape. Here, we describe a personalized HLA typing approach applied to WES data that leverages the strengths of database‐matching approaches while simultaneously allowing for the discovery of novel HLA alleles and tumor‐specific HLA variants, through the systematic integration of germline and somatic variant calling. We applied this approach on WES from 10 metastatic melanoma patients and validated the HLA typing results using HLA targeted NGS sequencing from patients where at least one HLA germline candidate was detected on Class I HLA. Targeted NGS sequencing confirmed 100% performance for the 1st and 2nd fields. In total, five out of the six detected HLA germline variants were because of Class I ambiguities at the third or fourth fields, and their detection recovered the correct HLA allele genotype. The sixth germline variant let to the formal discovery of a novel Class I allele. Finally, we demonstrated a substantially improved somatic variant detection accuracy in HLA alleles with a 91% of success rate in simulated experiments. The approach described here may allow the field to genotype more accurately using WES data, leading to the discovery of novel HLA alleles and help characterize the relationship between somatic variation in the HLA region and immunosurveillance. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20592302
Volume :
99
Issue :
4
Database :
Academic Search Index
Journal :
HLA: Immune Response Genetics
Publication Type :
Academic Journal
Accession number :
155837462
Full Text :
https://doi.org/10.1111/tan.14562