Population-based nanopore sequencing of the HIV-1 pangenome to identify drug resistance mutations

Hirotaka Ode; Masakazu Matsuda; Urara Shigemi; Mikiko Mori; Yoshimi Yamamura; Yoshihiro Nakata; Reiko Okazaki; Mai Kubota; Yuka Setoyama; Mayumi Imahashi; Yoshiyuki Yokomaku; Yasumasa Iwatani

doi:10.1038/s41598-024-63054-3

Population-based nanopore sequencing of the HIV-1 pangenome to identify drug resistance mutations

Hirotaka Ode, Masakazu Matsuda, Urara Shigemi, Mikiko Mori, Yoshimi Yamamura, Yoshihiro Nakata, Reiko Okazaki, Mai Kubota, Yuka Setoyama, Mayumi Imahashi, Yoshiyuki Yokomaku, Yasumasa Iwatani^*

^*Corresponding author for this work

Plant Resource Sciences

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

HIV-1 drug resistance genotypic tests have primarily been performed by Sanger sequencing of gene segments encoding different drug target proteins. Since the number of targets has increased with the addition of a new class of antiretroviral drugs, a simple high-throughput system for assessing nucleotide sequences throughout the HIV-1 genome is required. Here, we developed a new solution using nanopore sequencing of viral pangenomes amplified by PCR. Benchmark tests using HIV-1 molecular clones demonstrated an accuracy of up to 99.9%. In addition, validation tests of our protocol in 106 clinical samples demonstrated high concordance of drug resistance and tropism genotypes (92.5% and 98.1%, respectively) between the nanopore sequencing-based results and archived clinical determinations made based on Sanger sequencing data. These results suggest that our new approach will be a powerful solution for the comprehensive survey of HIV-1 drug resistance mutations in clinical settings.

Original language	English
Article number	12099
Journal	Scientific Reports
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41598-024-63054-3
State	Published - 2024/12

Keywords

Drug resistance
HIV-1
Mutation
Nanopore sequencing
Pangenome
Recombinant forms
Viral genome

ASJC Scopus subject areas

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41598-024-63054-3

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title = "Population-based nanopore sequencing of the HIV-1 pangenome to identify drug resistance mutations",

abstract = "HIV-1 drug resistance genotypic tests have primarily been performed by Sanger sequencing of gene segments encoding different drug target proteins. Since the number of targets has increased with the addition of a new class of antiretroviral drugs, a simple high-throughput system for assessing nucleotide sequences throughout the HIV-1 genome is required. Here, we developed a new solution using nanopore sequencing of viral pangenomes amplified by PCR. Benchmark tests using HIV-1 molecular clones demonstrated an accuracy of up to 99.9%. In addition, validation tests of our protocol in 106 clinical samples demonstrated high concordance of drug resistance and tropism genotypes (92.5% and 98.1%, respectively) between the nanopore sequencing-based results and archived clinical determinations made based on Sanger sequencing data. These results suggest that our new approach will be a powerful solution for the comprehensive survey of HIV-1 drug resistance mutations in clinical settings.",

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doi = "10.1038/s41598-024-63054-3",

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AU - Ode, Hirotaka

AU - Matsuda, Masakazu

AU - Shigemi, Urara

AU - Mori, Mikiko

AU - Yamamura, Yoshimi

AU - Nakata, Yoshihiro

AU - Okazaki, Reiko

AU - Kubota, Mai

AU - Setoyama, Yuka

AU - Imahashi, Mayumi

AU - Yokomaku, Yoshiyuki

AU - Iwatani, Yasumasa

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/12

Y1 - 2024/12

N2 - HIV-1 drug resistance genotypic tests have primarily been performed by Sanger sequencing of gene segments encoding different drug target proteins. Since the number of targets has increased with the addition of a new class of antiretroviral drugs, a simple high-throughput system for assessing nucleotide sequences throughout the HIV-1 genome is required. Here, we developed a new solution using nanopore sequencing of viral pangenomes amplified by PCR. Benchmark tests using HIV-1 molecular clones demonstrated an accuracy of up to 99.9%. In addition, validation tests of our protocol in 106 clinical samples demonstrated high concordance of drug resistance and tropism genotypes (92.5% and 98.1%, respectively) between the nanopore sequencing-based results and archived clinical determinations made based on Sanger sequencing data. These results suggest that our new approach will be a powerful solution for the comprehensive survey of HIV-1 drug resistance mutations in clinical settings.

AB - HIV-1 drug resistance genotypic tests have primarily been performed by Sanger sequencing of gene segments encoding different drug target proteins. Since the number of targets has increased with the addition of a new class of antiretroviral drugs, a simple high-throughput system for assessing nucleotide sequences throughout the HIV-1 genome is required. Here, we developed a new solution using nanopore sequencing of viral pangenomes amplified by PCR. Benchmark tests using HIV-1 molecular clones demonstrated an accuracy of up to 99.9%. In addition, validation tests of our protocol in 106 clinical samples demonstrated high concordance of drug resistance and tropism genotypes (92.5% and 98.1%, respectively) between the nanopore sequencing-based results and archived clinical determinations made based on Sanger sequencing data. These results suggest that our new approach will be a powerful solution for the comprehensive survey of HIV-1 drug resistance mutations in clinical settings.

KW - Drug resistance

KW - HIV-1

KW - Mutation

KW - Nanopore sequencing

KW - Pangenome

KW - Recombinant forms

KW - Viral genome

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DO - 10.1038/s41598-024-63054-3

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Population-based nanopore sequencing of the HIV-1 pangenome to identify drug resistance mutations

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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