A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1

Bernhard Ellinger; Daniel Pohlmann; Jannis Woens; Felix M Jäkel; Jeanette Reinshagen; Carol Stocking; Vladimir S Prassolov; Boris Fehse; Kristoffer Riecken

doi:10.3390/v12050580

A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1

Standard

A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1. / Ellinger, Bernhard; Pohlmann, Daniel; Woens, Jannis; Jäkel, Felix M; Reinshagen, Jeanette; Stocking, Carol; Prassolov, Vladimir S; Fehse, Boris ; Riecken, Kristoffer.

In: VIRUSES-BASEL, Vol. 12, No. 5, 25.05.2020.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Ellinger, B, Pohlmann, D, Woens, J, Jäkel, FM, Reinshagen, J, Stocking, C, Prassolov, VS, Fehse, B & Riecken, K 2020, 'A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1', VIRUSES-BASEL, vol. 12, no. 5. https://doi.org/10.3390/v12050580

APA

Ellinger, B., Pohlmann, D., Woens, J., Jäkel, F. M., Reinshagen, J., Stocking, C., Prassolov, V. S., Fehse, B., & Riecken, K. (2020). A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1. VIRUSES-BASEL, 12(5). https://doi.org/10.3390/v12050580

Vancouver

Ellinger B, Pohlmann D, Woens J, Jäkel FM, Reinshagen J, Stocking C et al. A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1. VIRUSES-BASEL. 2020 May 25;12(5). https://doi.org/10.3390/v12050580

Bibtex

@article{4226b9a068394a80b1b653be3e3290ed,

title = "A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1",

abstract = "HIV-1 infection is a complex, multi-step process involving not only viral, but also multiple cellular factors. To date, drug discovery methods have primarily focused on the inhibition of single viral proteins. We present an efficient and unbiased approach, compatible with biosafety level 1 (BSL-1) conditions, to identify inhibitors of HIV-1 reverse transcription, intracellular trafficking, nuclear entry and genome integration. Starting with a fluorescent assay setup, we systematically improved the screening methodology in terms of stability, efficiency and pharmacological relevance. Stability and throughput were optimized by switching to a luciferase-based readout. BSL-1 compliance was achieved without sacrificing pharmacological relevance by using lentiviral particles pseudo-typed with the mouse ecotropic envelope protein to transduce human PM1 T cells gene-modified to express the corresponding murine receptor. The cellular assay was used to screen 26,048 compounds selected for maximum diversity from a 200,640-compound in-house library. This yielded z' values greater than 0.8 with a hit rate of 3.3% and a confirmation rate of 50%. We selected 93 hits and enriched the collection with 279 similar compounds from the in-house library to identify promising structural features. The most active compounds were validated using orthogonal assay formats. The similarity of the compound profiles across the different platforms demonstrated that the reported lentiviral assay system is a robust and versatile tool for the identification of novel HIV-1 inhibitors.",

author = "Bernhard Ellinger and Daniel Pohlmann and Jannis Woens and J{\"a}kel, {Felix M} and Jeanette Reinshagen and Carol Stocking and Prassolov, {Vladimir S} and Boris Fehse and Kristoffer Riecken",

year = "2020",

month = may,

day = "25",

doi = "10.3390/v12050580",

language = "English",

volume = "12",

journal = "VIRUSES-BASEL",

issn = "1999-4915",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "5",

}

RIS

TY - JOUR

T1 - A High-Throughput HIV-1 Drug Screening Platform, Based on Lentiviral Vectors and Compatible with Biosafety Level-1

AU - Ellinger, Bernhard

AU - Pohlmann, Daniel

AU - Woens, Jannis

AU - Jäkel, Felix M

AU - Reinshagen, Jeanette

AU - Stocking, Carol

AU - Prassolov, Vladimir S

AU - Fehse, Boris

AU - Riecken, Kristoffer

PY - 2020/5/25

Y1 - 2020/5/25

N2 - HIV-1 infection is a complex, multi-step process involving not only viral, but also multiple cellular factors. To date, drug discovery methods have primarily focused on the inhibition of single viral proteins. We present an efficient and unbiased approach, compatible with biosafety level 1 (BSL-1) conditions, to identify inhibitors of HIV-1 reverse transcription, intracellular trafficking, nuclear entry and genome integration. Starting with a fluorescent assay setup, we systematically improved the screening methodology in terms of stability, efficiency and pharmacological relevance. Stability and throughput were optimized by switching to a luciferase-based readout. BSL-1 compliance was achieved without sacrificing pharmacological relevance by using lentiviral particles pseudo-typed with the mouse ecotropic envelope protein to transduce human PM1 T cells gene-modified to express the corresponding murine receptor. The cellular assay was used to screen 26,048 compounds selected for maximum diversity from a 200,640-compound in-house library. This yielded z' values greater than 0.8 with a hit rate of 3.3% and a confirmation rate of 50%. We selected 93 hits and enriched the collection with 279 similar compounds from the in-house library to identify promising structural features. The most active compounds were validated using orthogonal assay formats. The similarity of the compound profiles across the different platforms demonstrated that the reported lentiviral assay system is a robust and versatile tool for the identification of novel HIV-1 inhibitors.

AB - HIV-1 infection is a complex, multi-step process involving not only viral, but also multiple cellular factors. To date, drug discovery methods have primarily focused on the inhibition of single viral proteins. We present an efficient and unbiased approach, compatible with biosafety level 1 (BSL-1) conditions, to identify inhibitors of HIV-1 reverse transcription, intracellular trafficking, nuclear entry and genome integration. Starting with a fluorescent assay setup, we systematically improved the screening methodology in terms of stability, efficiency and pharmacological relevance. Stability and throughput were optimized by switching to a luciferase-based readout. BSL-1 compliance was achieved without sacrificing pharmacological relevance by using lentiviral particles pseudo-typed with the mouse ecotropic envelope protein to transduce human PM1 T cells gene-modified to express the corresponding murine receptor. The cellular assay was used to screen 26,048 compounds selected for maximum diversity from a 200,640-compound in-house library. This yielded z' values greater than 0.8 with a hit rate of 3.3% and a confirmation rate of 50%. We selected 93 hits and enriched the collection with 279 similar compounds from the in-house library to identify promising structural features. The most active compounds were validated using orthogonal assay formats. The similarity of the compound profiles across the different platforms demonstrated that the reported lentiviral assay system is a robust and versatile tool for the identification of novel HIV-1 inhibitors.

U2 - 10.3390/v12050580

DO - 10.3390/v12050580

M3 - SCORING: Journal article

C2 - 32466195

VL - 12

JO - VIRUSES-BASEL

JF - VIRUSES-BASEL

SN - 1999-4915

IS - 5

ER -