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A Novel Real-Time PCR Assay for Detection of HLA-A*31:01 in Individuals Being Considered for Carbamazepine Therapy

Published online by Cambridge University Press:  10 May 2021

David S. Krause
Affiliation:
Genomind, Inc., King of Prussia, PA, USA
Kathleen Davis
Affiliation:
Genomind, Inc., King of Prussia, PA, USA
Daniel Dowd
Affiliation:
Genomind, Inc., King of Prussia, PA, USA
David J. Robbins
Affiliation:
Genomind, Inc., King of Prussia, PA, USA
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Abstract

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Background

Carbamazepine, an anticonvulsant also used as a mood stabilizer and for trigeminal neuralgia, is associated with serious, sometimes fatal cutaneous adverse drug reactions, including Stevens Johnson Syndrome and toxic epidermal necrolysis1. Current literature demonstrates a genetic predisposition linked to specific class I and II human leukocyte antigen (HLA) types in various ethnic populations2. HLA-A*31:01 is one such HLA type, and is routinely identified by the tag SNP rs1061235. However, rs1061235 has poor specificity for HLA*31:01 due to interference of HLA-A*33 types3. We investigated the false positive rate in our population and developed a novel real-time PCR assay that distinguishes HLA-A*31:01 from other HLA-A types including HLA-A*33.

Methods

120 unique samples were tested in triplicate during the validation of this assay and were sent to a reference lab for HLA next generation sequencing (NGS) typing, including 89 in-house samples and 31 Coriell samples with documented HLA typing results. The results from our real-time PCR assay were compared to the HLA typing results. HLA typing results were also compared to the tag SNP rs1061235 results to calculate the false positive rate.

Results

There was 100% concordance between our real-time PCR results and expected results based on HLA typing. 89 sample results for tag SNP rs1061235 were compared to HLA typing results. 75/89 samples had a rs1061235 variant, but 31/75 (41%) samples did not have the HLA-A*31:01 type, thus defining the false positive rate of the tag SNP for our population. We theorized there would be a small subset of rare HLA-A types that would interfere with the assay and we tested the three types available to us. We confirmed that 3 of the HLA types (HLA-A*31:04, 31:12, and 31:16) result falsely positive due to sequence homology with 31:01. There is no known literature indicating whether these rare HLA-A*31 subtypes are associated with cutaneous adverse reactions. These 3 HLA types and the other suspected interfering HLA types have limited frequency data sets and are expected to occur rarely in our patient population; we expect these HLA types make up less than 0.003% of the our population. Our assay specificity for the validation is >99%.

Conclusions

Our custom real-time PCR assay for detection of HLA-A*31:01 is significantly more specific than the commonly used tag SNP rs1061235. Clinicians considering carbamazepine therapy for their patients will have a better understanding of cutaneous adverse reaction risk and can make improved personalized treatment decisions. This quick, cost effective assay allows more patients in need of carbamazepine treatment to benefit from its use.

Funding

Genomind, Inc.

Type
Abstracts
Copyright
© The Author(s), 2021. Published by Cambridge University Press

Footnotes

Presenting Author: David S. Krause