Intracellular oxygen-sensitive phosphorescent probes based on cell-penetrating peptides

Ruslan I. Dmitriev; Alexander V. Zhdanov; Gelii V. Ponomarev; Dmitri V. Yashunski; Dmitri B. Papkovsky

doi:10.1016/j.ab.2009.10.048

Intracellular oxygen-sensitive phosphorescent probes based on cell-penetrating peptides

Ruslan I. Dmitriev
, Alexander V. Zhdanov
, Gelii V. Ponomarev
, Dmitri V. Yashunski
, Dmitri B. Papkovsky

Institute of Biomedical Chemistry

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

Abstract

Probing of molecular oxygen in mammalian cells is important for the analysis of mitochondrial function, metabolic responses, and energetic status of the cells. We describe a new panel of intracellular O₂-sensitive probes based on phosphorescent porphyrin dyes conjugated to cell-penetrating peptides. The probes comprising the uncharged derivatives of Pt(II)-coproporphyrin I covalently linked to positively charged TAT-derived peptides are shown to effectively load live mammalian cells without any transfection reagents. The probes work well with all cell types tested, show similar subcellular localization, and produce characteristic responses to cell stimulation with mitochondrial uncouplers and inhibitors. They provide a simple and versatile tool for O₂ monitoring in live cells and in tissue, and an alternative to the existing O₂ probes which require facilitated transport into the cell.

Original language	English
Pages (from-to)	24-33
Number of pages	10
Journal	Analytical Biochemistry
Volume	398
Issue number	1
DOIs	https://doi.org/10.1016/j.ab.2009.10.048
Publication status	Published - 1 Mar 2010

Keywords

Cell-penetrating peptides
Cellular oxygen
Hypoxia
Intracellular oxygen-sensitive probe
Mitochondrial function
Pt-porphyrins

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10.1016/j.ab.2009.10.048

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title = "Intracellular oxygen-sensitive phosphorescent probes based on cell-penetrating peptides",

abstract = "Probing of molecular oxygen in mammalian cells is important for the analysis of mitochondrial function, metabolic responses, and energetic status of the cells. We describe a new panel of intracellular O2-sensitive probes based on phosphorescent porphyrin dyes conjugated to cell-penetrating peptides. The probes comprising the uncharged derivatives of Pt(II)-coproporphyrin I covalently linked to positively charged TAT-derived peptides are shown to effectively load live mammalian cells without any transfection reagents. The probes work well with all cell types tested, show similar subcellular localization, and produce characteristic responses to cell stimulation with mitochondrial uncouplers and inhibitors. They provide a simple and versatile tool for O2 monitoring in live cells and in tissue, and an alternative to the existing O2 probes which require facilitated transport into the cell.",

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author = "Dmitriev, \{Ruslan I.\} and Zhdanov, \{Alexander V.\} and Ponomarev, \{Gelii V.\} and Yashunski, \{Dmitri V.\} and Papkovsky, \{Dmitri B.\}",

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doi = "10.1016/j.ab.2009.10.048",

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AU - Dmitriev, Ruslan I.

AU - Zhdanov, Alexander V.

AU - Ponomarev, Gelii V.

AU - Yashunski, Dmitri V.

AU - Papkovsky, Dmitri B.

PY - 2010/3/1

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AB - Probing of molecular oxygen in mammalian cells is important for the analysis of mitochondrial function, metabolic responses, and energetic status of the cells. We describe a new panel of intracellular O2-sensitive probes based on phosphorescent porphyrin dyes conjugated to cell-penetrating peptides. The probes comprising the uncharged derivatives of Pt(II)-coproporphyrin I covalently linked to positively charged TAT-derived peptides are shown to effectively load live mammalian cells without any transfection reagents. The probes work well with all cell types tested, show similar subcellular localization, and produce characteristic responses to cell stimulation with mitochondrial uncouplers and inhibitors. They provide a simple and versatile tool for O2 monitoring in live cells and in tissue, and an alternative to the existing O2 probes which require facilitated transport into the cell.

KW - Cell-penetrating peptides

KW - Cellular oxygen

KW - Hypoxia

KW - Intracellular oxygen-sensitive probe

KW - Mitochondrial function

KW - Pt-porphyrins

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DO - 10.1016/j.ab.2009.10.048

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IS - 1

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Intracellular oxygen-sensitive phosphorescent probes based on cell-penetrating peptides

Abstract

Keywords

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