Kinetics-Based Measurement of Hypoxia in Living Cells and Animals Using an Acetoxymethyl Ester Chemiluminescent Probe

Lucas S. Ryan; Jeni Gerberich; Jian Cao; Weiwei An; Becky A. Jenkins; Ralph P. Mason; Alexander R. Lippert

doi:10.1021/acssensors.9b00360

Kinetics-Based Measurement of Hypoxia in Living Cells and Animals Using an Acetoxymethyl Ester Chemiluminescent Probe

Lucas S. Ryan, Jeni Gerberich, Jian Cao, Weiwei An, Becky A. Jenkins, Ralph P. Mason, Alexander R. Lippert

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

33 Scopus citations

Abstract

Oxygenation and tissue hypoxia play critical roles in mammalian biology and contribute to aggressive phenotypes in cancerous tumors, driving research to develop accurate and easy-to-implement methods for monitoring hypoxia in living cells and animal models. This study reports the chemiluminescent probe HyCL-4-AM, which contains a nitroaromatic sensing moiety and, importantly, an acetoxymethyl (AM) ester that dramatically improves operation in cells and animals. HyCL-4-AM provides a selective 60?raquo;000-fold increase in luminescence emission in the presence of rat liver microsomes (RLM). For cellular operation, the chemiluminescence response kinetics is sharply dependent on oxygen levels, enabling highly significant and reproducible measurement of hypoxia in living cells. Whole animal imaging experiments in muscle tissue and tumor xenografts show that HyCL-4-AM can differentiate between well oxygenated muscle tissue and hypoxic tumors, demonstrating potential for monitoring tumor reoxygenation via hyperoxic treatment.

Original language	English (US)
Pages (from-to)	1391-1398
Number of pages	8
Journal	ACS Sensors
Volume	4
Issue number	5
DOIs	https://doi.org/10.1021/acssensors.9b00360
State	Published - May 24 2019

Keywords

1,2-dioxetanes
chemiluminescence
hypoxia
in vivo imaging
nitroreductase

ASJC Scopus subject areas

Bioengineering
Instrumentation
Process Chemistry and Technology
Fluid Flow and Transfer Processes

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10.1021/acssensors.9b00360

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title = "Kinetics-Based Measurement of Hypoxia in Living Cells and Animals Using an Acetoxymethyl Ester Chemiluminescent Probe",

abstract = "Oxygenation and tissue hypoxia play critical roles in mammalian biology and contribute to aggressive phenotypes in cancerous tumors, driving research to develop accurate and easy-to-implement methods for monitoring hypoxia in living cells and animal models. This study reports the chemiluminescent probe HyCL-4-AM, which contains a nitroaromatic sensing moiety and, importantly, an acetoxymethyl (AM) ester that dramatically improves operation in cells and animals. HyCL-4-AM provides a selective 60?raquo;000-fold increase in luminescence emission in the presence of rat liver microsomes (RLM). For cellular operation, the chemiluminescence response kinetics is sharply dependent on oxygen levels, enabling highly significant and reproducible measurement of hypoxia in living cells. Whole animal imaging experiments in muscle tissue and tumor xenografts show that HyCL-4-AM can differentiate between well oxygenated muscle tissue and hypoxic tumors, demonstrating potential for monitoring tumor reoxygenation via hyperoxic treatment.",

keywords = "1,2-dioxetanes, chemiluminescence, hypoxia, in vivo imaging, nitroreductase",

author = "Ryan, {Lucas S.} and Jeni Gerberich and Jian Cao and Weiwei An and Jenkins, {Becky A.} and Mason, {Ralph P.} and Lippert, {Alexander R.}",

note = "Funding Information: This work was supported by the National Institutes of Health (NIH) under R15GM114792, the National Science Foundation under CHE 1653474, and optical imaging was performed using an IVIS purchased under NIH 1S10RR024757 and supported by NIH P30 CA142543. We acknowledge Daphne Nguyen and Alexander Winters for experimental assistance and thank Maciej Kukula (UT Arlington) for assistance with mass spectrometry. Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

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doi = "10.1021/acssensors.9b00360",

language = "English (US)",

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AU - An, Weiwei

AU - Jenkins, Becky A.

AU - Mason, Ralph P.

AU - Lippert, Alexander R.

N1 - Funding Information: This work was supported by the National Institutes of Health (NIH) under R15GM114792, the National Science Foundation under CHE 1653474, and optical imaging was performed using an IVIS purchased under NIH 1S10RR024757 and supported by NIH P30 CA142543. We acknowledge Daphne Nguyen and Alexander Winters for experimental assistance and thank Maciej Kukula (UT Arlington) for assistance with mass spectrometry. Publisher Copyright: © 2019 American Chemical Society.

PY - 2019/5/24

Y1 - 2019/5/24

N2 - Oxygenation and tissue hypoxia play critical roles in mammalian biology and contribute to aggressive phenotypes in cancerous tumors, driving research to develop accurate and easy-to-implement methods for monitoring hypoxia in living cells and animal models. This study reports the chemiluminescent probe HyCL-4-AM, which contains a nitroaromatic sensing moiety and, importantly, an acetoxymethyl (AM) ester that dramatically improves operation in cells and animals. HyCL-4-AM provides a selective 60?raquo;000-fold increase in luminescence emission in the presence of rat liver microsomes (RLM). For cellular operation, the chemiluminescence response kinetics is sharply dependent on oxygen levels, enabling highly significant and reproducible measurement of hypoxia in living cells. Whole animal imaging experiments in muscle tissue and tumor xenografts show that HyCL-4-AM can differentiate between well oxygenated muscle tissue and hypoxic tumors, demonstrating potential for monitoring tumor reoxygenation via hyperoxic treatment.

AB - Oxygenation and tissue hypoxia play critical roles in mammalian biology and contribute to aggressive phenotypes in cancerous tumors, driving research to develop accurate and easy-to-implement methods for monitoring hypoxia in living cells and animal models. This study reports the chemiluminescent probe HyCL-4-AM, which contains a nitroaromatic sensing moiety and, importantly, an acetoxymethyl (AM) ester that dramatically improves operation in cells and animals. HyCL-4-AM provides a selective 60?raquo;000-fold increase in luminescence emission in the presence of rat liver microsomes (RLM). For cellular operation, the chemiluminescence response kinetics is sharply dependent on oxygen levels, enabling highly significant and reproducible measurement of hypoxia in living cells. Whole animal imaging experiments in muscle tissue and tumor xenografts show that HyCL-4-AM can differentiate between well oxygenated muscle tissue and hypoxic tumors, demonstrating potential for monitoring tumor reoxygenation via hyperoxic treatment.

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Kinetics-Based Measurement of Hypoxia in Living Cells and Animals Using an Acetoxymethyl Ester Chemiluminescent Probe

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