Halime Ekici1, Shwetha D Rao2, Anders Sönnerborg3, Vedam L Ramprasad4, Ravi Gupta4, Ujjwal Neogi5. 1. Division of Clinical Microbiology, Department of Laboratory Medicine, Karolinska Institutet, Stockholm, Sweden. 2. Hematology Research Unit, Division of Molecular Medicine, St John's Research Institute, Bangalore, India. 3. Division of Clinical Microbiology, Department of Laboratory Medicine, Karolinska Institutet, Stockholm, Sweden Unit of Infectious Diseases, Department of Medicine Huddinge, Karolinska Institutet, Stockholm, Sweden. 4. SciGenom Labs Pvt. Ltd, Cochin, Kerala, India. 5. Division of Clinical Microbiology, Department of Laboratory Medicine, Karolinska Institutet, Stockholm, Sweden Hematology Research Unit, Division of Molecular Medicine, St John's Research Institute, Bangalore, India ujjwal.neogi@ki.se.
Abstract
OBJECTIVES: Increased trends of primary drug resistance mutations (DRMs) among treatment-naive HIV-1-infected patients in low- and middle-income countries (LMICs) and the non-availability of pre-antiretroviral therapy (ART) genotypic resistance testing (GRT) may severely affect future therapeutic outcomes. The main objective of this study was therefore to develop a simplified, cost- and labour-efficient but high-throughput GRT protocol to be applied in the large-scale surveillance of DRMs in LMICs. PATIENTS AND METHODS: Ninety-six therapy-naive HIV-1-infected patients belonging to three cohorts were included: Indian patients followed at St John's Medical College Hospital, Bangalore, India (n = 49); East Africans (n = 21), who had migrated to Sweden; and Caucasians (n = 26) living in Sweden. GRT by population sequencing (GRT-PS) on individual plasma samples and GRT by next-generation sequencing (GRT-NGS) on equimolar multiplexed samples (n = 24) using Illumina MiSeq were performed. RESULTS: The multiplexing procedure was shown to be technically feasible and gave high-quality reads independent of whether HIV-1 subtype C or B was analysed. GRT-NGS detected all the DRMs found by GRT-PS. Additional clinically important low-abundance (<20% of the viral population) major DRMs (e.g. K101E, K103N, Y181C and M184V) were detected by GRT-NGS but not by GRT-PS. The frequency of low-abundance DRMs was higher among East African compared with Indian and Caucasian individuals. CONCLUSIONS: Our high-throughput next-generation sequencing with a multiplexed amplicon is a cost-efficient and promising approach for the large-scale surveillance of primary DRMs in LMICs where routine pre-ART GRT is not the standard of care. This strategy may be useful in optimizing future therapeutic regimens in those settings.
OBJECTIVES: Increased trends of primary drug resistance mutations (DRMs) among treatment-naive HIV-1-infectedpatients in low- and middle-income countries (LMICs) and the non-availability of pre-antiretroviral therapy (ART) genotypic resistance testing (GRT) may severely affect future therapeutic outcomes. The main objective of this study was therefore to develop a simplified, cost- and labour-efficient but high-throughput GRT protocol to be applied in the large-scale surveillance of DRMs in LMICs. PATIENTS AND METHODS: Ninety-six therapy-naive HIV-1-infectedpatients belonging to three cohorts were included: Indian patients followed at St John's Medical College Hospital, Bangalore, India (n = 49); East Africans (n = 21), who had migrated to Sweden; and Caucasians (n = 26) living in Sweden. GRT by population sequencing (GRT-PS) on individual plasma samples and GRT by next-generation sequencing (GRT-NGS) on equimolar multiplexed samples (n = 24) using Illumina MiSeq were performed. RESULTS: The multiplexing procedure was shown to be technically feasible and gave high-quality reads independent of whether HIV-1 subtype C or B was analysed. GRT-NGS detected all the DRMs found by GRT-PS. Additional clinically important low-abundance (<20% of the viral population) major DRMs (e.g. K101E, K103N, Y181C and M184V) were detected by GRT-NGS but not by GRT-PS. The frequency of low-abundance DRMs was higher among East African compared with Indian and Caucasian individuals. CONCLUSIONS: Our high-throughput next-generation sequencing with a multiplexed amplicon is a cost-efficient and promising approach for the large-scale surveillance of primary DRMs in LMICs where routine pre-ART GRT is not the standard of care. This strategy may be useful in optimizing future therapeutic regimens in those settings.
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