Magnetic Bead Processing Enables Sensitive Ligation-Based Detection of HIV Drug Resistance Mutations
AUTHORS
- PMID: 35077642 [PubMed].
ABSTRACT
HIV develops single nucleotide polymorphisms (SNPs), some of which lead to drug resistance mutations (DRMs) that prevent therapeutic viral suppression. Genomic sequencing enables healthcare professionals to select effective combination antiretroviral therapy (ART) to achieve and maintain viral suppression. However, sequencing technologies, which are resource-intensive, are limited in their availability. This report describes the first step toward a highly specific ligation-based SNP discrimination method with endpoint PCR detection, which is more suitable for resource-limited clinics. The approach is based on magnetic bead processing to maximize reaction product transfer and minimize the carryover of incompatible buffer for three consecutive enzymatic reactions─reverse transcription (RT), oligonucleotide ligation assay (OLA), and PCR. The method improved PCR detection following RT → OLA by 8.06 cycles (∼250-fold) compared to direct pipette processing and detected between 10 and 10 RNA copies per reaction. In studies with synthesized nucleic acids based on the well-studied HIV mutation, K103N, the assay successfully differentiated between wild-type and mutant for RNA targets with high specificity. With further development, this design provides a pathway for SNP detection with more accessible PCR instrumentation and is a step toward a self-contained processing approach that incorporates the SNP specificity of the ligation reaction for more effective clinical management of DRMs in resource-constrained settings.
Tags: faculty publications 2022