Multicomponent Reactions for de Novo Synthesis of BODIPY Probes: In vivo Imaging of Phagocytic Macrophages

Ana M. Vazquez-Romero; Nicola Kielland; Maria J. Arevalo; Sara Preciado; Richard Mellanby; Yi Feng; Rodolfo Lavilla; Marc Vendrell

doi:10.1021/ja408093p

Multicomponent Reactions for de Novo Synthesis of BODIPY Probes: In vivo Imaging of Phagocytic Macrophages

Ana M. Vazquez-Romero, Nicola Kielland, Maria J. Arevalo, Sara Preciado, Richard Mellanby, Yi Feng, Rodolfo Lavilla, Marc Vendrell

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

Abstract

Multicomponent reactions are excellent tools to generate complex structures with broad chemical diversity and fluorescent properties. Herein we describe the adaptation of the fluorescent BODIPY scaffold to multicomponent reaction chemistry with the synthesis of BODIPY adducts with high fluorescence quantum yields and good cell permeability. From this library we identified one BODIPY derivative (PhagoGreen) as a low-pH sensing fluorescent probe that enabled imaging of phagosomal acidification in activated macrophages. The fluorescence emission of PhagoGreen was proportional to the degree of activation of macrophages and could be specifically blocked by bafilomycin A, an inhibitor of phagosomal acidification. PhagoGreen does not impair the normal functions of macrophages and can be used to image phagocytic macrophages in vivo.

Original language	English
Pages (from-to)	16018–16021
Journal	Journal of the American Chemical Society
Volume	135
Issue number	43
DOIs	https://doi.org/10.1021/ja408093p
Publication status	Published - 2013

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10.1021/ja408093p

http://pubs.acs.org/doi/abs/10.1021/ja408093p

ENDOIMAGE - Activatable Fluorescent Probes as Smart Diagnostic Tools for Microendoscopy Imaging
Vendrell Escobar, M.
EU other
1/08/13 → 31/07/17
Project: Research
Fellowship for Yi Feng: Live imaging and genetic analysis of the inflammatory response upon oncogene induced tissue homeostasis disruption and its contribution to tumour initiation in zebrafish larvae
Feng, Y.
UK-based charities
1/05/13 → 31/12/19
Project: Research
PhD STUDENT - JOANNE SIMPSON - Supervisor MOHINI GRAY
Iredale, J.
MRC
1/09/12 → 31/08/16
Project: Research

Cite this

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title = "Multicomponent Reactions for de Novo Synthesis of BODIPY Probes: In vivo Imaging of Phagocytic Macrophages",

abstract = "Multicomponent reactions are excellent tools to generate complex structures with broad chemical diversity and fluorescent properties. Herein we describe the adaptation of the fluorescent BODIPY scaffold to multicomponent reaction chemistry with the synthesis of BODIPY adducts with high fluorescence quantum yields and good cell permeability. From this library we identified one BODIPY derivative (PhagoGreen) as a low-pH sensing fluorescent probe that enabled imaging of phagosomal acidification in activated macrophages. The fluorescence emission of PhagoGreen was proportional to the degree of activation of macrophages and could be specifically blocked by bafilomycin A, an inhibitor of phagosomal acidification. PhagoGreen does not impair the normal functions of macrophages and can be used to image phagocytic macrophages in vivo.",

author = "Vazquez-Romero, {Ana M.} and Nicola Kielland and Arevalo, {Maria J.} and Sara Preciado and Richard Mellanby and Yi Feng and Rodolfo Lavilla and Marc Vendrell",

year = "2013",

doi = "10.1021/ja408093p",

language = "English",

volume = "135",

pages = "16018–16021",

journal = "Journal of the American Chemical Society",

issn = "0002-7863",

publisher = "American Chemical Society",

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T1 - Multicomponent Reactions for de Novo Synthesis of BODIPY Probes: In vivo Imaging of Phagocytic Macrophages

AU - Vazquez-Romero, Ana M.

AU - Kielland, Nicola

AU - Arevalo, Maria J.

AU - Preciado, Sara

AU - Mellanby, Richard

AU - Feng, Yi

AU - Lavilla, Rodolfo

AU - Vendrell, Marc

PY - 2013

Y1 - 2013

N2 - Multicomponent reactions are excellent tools to generate complex structures with broad chemical diversity and fluorescent properties. Herein we describe the adaptation of the fluorescent BODIPY scaffold to multicomponent reaction chemistry with the synthesis of BODIPY adducts with high fluorescence quantum yields and good cell permeability. From this library we identified one BODIPY derivative (PhagoGreen) as a low-pH sensing fluorescent probe that enabled imaging of phagosomal acidification in activated macrophages. The fluorescence emission of PhagoGreen was proportional to the degree of activation of macrophages and could be specifically blocked by bafilomycin A, an inhibitor of phagosomal acidification. PhagoGreen does not impair the normal functions of macrophages and can be used to image phagocytic macrophages in vivo.

AB - Multicomponent reactions are excellent tools to generate complex structures with broad chemical diversity and fluorescent properties. Herein we describe the adaptation of the fluorescent BODIPY scaffold to multicomponent reaction chemistry with the synthesis of BODIPY adducts with high fluorescence quantum yields and good cell permeability. From this library we identified one BODIPY derivative (PhagoGreen) as a low-pH sensing fluorescent probe that enabled imaging of phagosomal acidification in activated macrophages. The fluorescence emission of PhagoGreen was proportional to the degree of activation of macrophages and could be specifically blocked by bafilomycin A, an inhibitor of phagosomal acidification. PhagoGreen does not impair the normal functions of macrophages and can be used to image phagocytic macrophages in vivo.

U2 - 10.1021/ja408093p

DO - 10.1021/ja408093p

M3 - Article

SN - 0002-7863

VL - 135

SP - 16018

EP - 16021

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 43

ER -

Multicomponent Reactions for de Novo Synthesis of BODIPY Probes: In vivo Imaging of Phagocytic Macrophages

Abstract

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Projects

ENDOIMAGE - Activatable Fluorescent Probes as Smart Diagnostic Tools for Microendoscopy Imaging

Fellowship for Yi Feng: Live imaging and genetic analysis of the inflammatory response upon oncogene induced tissue homeostasis disruption and its contribution to tumour initiation in zebrafish larvae

PhD STUDENT - JOANNE SIMPSON - Supervisor MOHINI GRAY

Cite this