1. HIVepsilon-seq-scalable characterization of intact persistent proviral HIV reservoirs in women.
- Author
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Barton K, Ferguson JM, Deveson IW, Falcinelli SD, James KS, Kirchherr J, Ramirez C, Gay CL, Hammond JM, Bevear B, Carswell SL, Margolis DM, Smith MA, Adimora AA, and Archin NM
- Subjects
- Female, Humans, CD4-Positive T-Lymphocytes, DNA, Viral genetics, Nucleotides, Viral Load, Sequence Analysis, DNA, Sex Factors, HIV Infections drug therapy, HIV Infections epidemiology, HIV Infections virology, Proviruses genetics, HIV genetics
- Abstract
Importance: The lack of a reliable method to accurately detect when replication-competent HIV has been cleared is a major challenge in developing a cure. This study introduces a new approach called the HIVepsilon-seq (HIVε-seq) assay, which uses long-read sequencing technology and bioinformatics to scrutinize the HIV genome at the nucleotide level, distinguishing between defective and intact HIV. This study included 30 participants on antiretroviral therapy, including 17 women, and was able to discriminate between defective and genetically intact viruses at the single DNA strand level. The HIVε-seq assay is an improvement over previous methods, as it requires minimal sample, less specialized lab equipment, and offers a shorter turnaround time. The HIVε-seq assay offers a promising new tool for researchers to measure the intact HIV reservoir, advancing efforts towards finding a cure for this devastating disease., Competing Interests: J.M.F., K.B., and M.A.S. have previously received travel expenses and research consumables from Oxford Nanopore Technologies. D.M.M. has provided consultancy to Merck Research Laboratories and ViiV Healthcare outside of this work and owns common stock in Gilead Sciences. A.A.A. has received funding from Merck and Gilead for consulting. Merck and Gilead have provided her institution with funding for her research. The remaining authors have no conflict to declare.
- Published
- 2023
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