Fluoresceinated phosphoethanolamine for flow-cytometric measurement of lipid peroxidation

A new lipophilic fluorescein probe (fluor-DHPE) has been identified that can assay lipid peroxidation in mammalian cells on a cell-by-cell or selected-cell-subpopulation basis by flow cytometry. Application of this approach requires that the fluorescent probe be nonexchangeable among cells. Fluorescein is an appropriate fluorophore, since its fluorescence matches the specifications of common flow cytometers and the compound loses its fluorescence upon reaction with peroxyl radicals. Upon examination of four lipophilic derivatives of fluorescein, fluor-DHPE was found to be the only probe that was nonexchangeable among labeled and unlabeled rat RBC for at least 24 h. The exposure of fluor-DHPE-labeled RBC to benzoyl peroxide followed by mixing the sample with RBC unexposed to peroxide led to a decrease in fluorescence. Furthermore, the flow cytometer could clearly select the subpopulation of cells undergoing lipid peroxidation from those cells that were not. Fluor-DHPE-labeled-RBC obtained from rats and expos ed to cumene hydroperoxide also displayed a gradual decrease in fluorescence. This decrease was preventable by either regulation of the vitamin E content in the animal diet or in vitro supplementation of cells with vitamin E. We conclude that fluor-DHPE is a stable and nonexchangeable probe for monitoring lipid peroxidation in cell subpopulations by flow cytometry. (C) 1998 Elsevier Science Inc.