Pooled Nanoparticle Screening Using a Chemical Barcoding Approach

Katherine Vaidya; Michael S. Regan; James Lin; Jenna Houle; Aanchal Gupta; Sylwia A. Stopka; Nathalie Y.R. Agar; Paula T. Hammond; Natalie Boehnke

doi:10.1002/anie.202420052

Pooled Nanoparticle Screening Using a Chemical Barcoding Approach

Katherine Vaidya, Michael S. Regan, James Lin, Jenna Houle, Aanchal Gupta, Sylwia A. Stopka, Nathalie Y.R. Agar, Paula T. Hammond, Natalie Boehnke

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

Abstract

We report the development of a small molecule-based barcoding platform for pooled screening of nanoparticle delivery. Using aryl halide-based tags (halocodes), we achieve high-sensitivity detection via gas chromatography coupled with mass spectrometry or electron capture. This enables barcoding and tracking of nanoparticles with minimal halocode concentrations and without altering their physicochemical properties. To demonstrate the utility of our platform for pooled screening, we synthesized a halocoded library of polylactide-co-glycolide (PLGA) nanoparticles and quantified uptake in ovarian cancer cells in a pooled manner. Our findings correlate with conventional fluorescence-based assays. Additionally, we demonstrate the potential of halocodes for spatial mapping of nanoparticles using mass spectrometry imaging (MSI). Halocoding presents an accessible and modular nanoparticle screening platform capable of quantifying delivery of pooled nanocarrier libraries in a range of biological settings.

Original language	English (US)
Article number	e202420052
Journal	Angewandte Chemie - International Edition
Volume	64
Issue number	5
DOIs	https://doi.org/10.1002/anie.202420052
State	Published - Jan 27 2025

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Publisher Copyright:
© 2024 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.

Keywords

barcoding
gas chromatography
mass spectrometry
nanoparticles
pooled screening

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title = "Pooled Nanoparticle Screening Using a Chemical Barcoding Approach",

abstract = "We report the development of a small molecule-based barcoding platform for pooled screening of nanoparticle delivery. Using aryl halide-based tags (halocodes), we achieve high-sensitivity detection via gas chromatography coupled with mass spectrometry or electron capture. This enables barcoding and tracking of nanoparticles with minimal halocode concentrations and without altering their physicochemical properties. To demonstrate the utility of our platform for pooled screening, we synthesized a halocoded library of polylactide-co-glycolide (PLGA) nanoparticles and quantified uptake in ovarian cancer cells in a pooled manner. Our findings correlate with conventional fluorescence-based assays. Additionally, we demonstrate the potential of halocodes for spatial mapping of nanoparticles using mass spectrometry imaging (MSI). Halocoding presents an accessible and modular nanoparticle screening platform capable of quantifying delivery of pooled nanocarrier libraries in a range of biological settings.",

keywords = "barcoding, gas chromatography, mass spectrometry, nanoparticles, pooled screening",

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note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.",

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T1 - Pooled Nanoparticle Screening Using a Chemical Barcoding Approach

AU - Vaidya, Katherine

AU - Regan, Michael S.

AU - Lin, James

AU - Houle, Jenna

AU - Gupta, Aanchal

AU - Stopka, Sylwia A.

AU - Agar, Nathalie Y.R.

AU - Hammond, Paula T.

AU - Boehnke, Natalie

PY - 2025/1/27

Y1 - 2025/1/27

N2 - We report the development of a small molecule-based barcoding platform for pooled screening of nanoparticle delivery. Using aryl halide-based tags (halocodes), we achieve high-sensitivity detection via gas chromatography coupled with mass spectrometry or electron capture. This enables barcoding and tracking of nanoparticles with minimal halocode concentrations and without altering their physicochemical properties. To demonstrate the utility of our platform for pooled screening, we synthesized a halocoded library of polylactide-co-glycolide (PLGA) nanoparticles and quantified uptake in ovarian cancer cells in a pooled manner. Our findings correlate with conventional fluorescence-based assays. Additionally, we demonstrate the potential of halocodes for spatial mapping of nanoparticles using mass spectrometry imaging (MSI). Halocoding presents an accessible and modular nanoparticle screening platform capable of quantifying delivery of pooled nanocarrier libraries in a range of biological settings.

AB - We report the development of a small molecule-based barcoding platform for pooled screening of nanoparticle delivery. Using aryl halide-based tags (halocodes), we achieve high-sensitivity detection via gas chromatography coupled with mass spectrometry or electron capture. This enables barcoding and tracking of nanoparticles with minimal halocode concentrations and without altering their physicochemical properties. To demonstrate the utility of our platform for pooled screening, we synthesized a halocoded library of polylactide-co-glycolide (PLGA) nanoparticles and quantified uptake in ovarian cancer cells in a pooled manner. Our findings correlate with conventional fluorescence-based assays. Additionally, we demonstrate the potential of halocodes for spatial mapping of nanoparticles using mass spectrometry imaging (MSI). Halocoding presents an accessible and modular nanoparticle screening platform capable of quantifying delivery of pooled nanocarrier libraries in a range of biological settings.

KW - barcoding

KW - gas chromatography

KW - mass spectrometry

KW - nanoparticles

KW - pooled screening

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Pooled Nanoparticle Screening Using a Chemical Barcoding Approach

Abstract

Bibliographical note

Keywords

MRSEC Support

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UN SDGs

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University of Minnesota Materials Research Science and Engineering Center (DMR-2011401)

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Pooled Nanoparticle Screening Using a Chemical Barcoding Approach

Abstract

Bibliographical note

Keywords

MRSEC Support

PubMed: MeSH publication types

UN SDGs

Publisher link

Find It

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University of Minnesota Materials Research Science and Engineering Center (DMR-2011401)

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