Changes in the spectral properties of a plasma membrane lipid analog during the first seconds of endocytosis in living cells.

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Changes in the spectral properties of a plasma membrane lipid analog during the first seconds of endocytosis in living cells.

C S Chen, O C Martin and R E Pagano

Mayo Clinic and Foundation, Rochester, Minnesota 55905, USA.

ABSTRACT

N-[5-(5, 7-dimethyl Bodipy)-1-pentanoyl]-D-erythro-sphingosylphosphorylcholine(C5-DMB-SM), a fluorescent analog of sphingomyelin, has beenused in a study of the formation of very early endosomes inhuman skin fibroblasts. This lipid exhibits a shift in its fluorescenceemission maximum from green (approximately 515 nm) to red (approximately620 nm) wavelengths with increasing concentrations in membranes.When cells were incubated with 5 microM C5-DMB-SM at 4 degreesC and washed, only plasma membrane fluorescence (yellow-green)was observed. When these cells were briefly (< or = 1 min)warmed to 37 degrees C to allow internalization to occur, andthen incubated with defatted bovine serum albumin (back-exchanged)at 11 degrees C to remove fluorescent lipids from the plasmamembrane, C5-DMB-SM was distributed in a punctate pattern throughoutthe cytoplasm. Interestingly, within the same cell some endosomesexhibited green fluorescence, whereas others emitted red-orangefluorescence. Furthermore, the red-orange endosomes were usuallyseen at the periphery of the cell, while the green endosomeswere more uniformly distributed throughout the cytoplasm. Thismixed population of endosomes was seen after internalizationtimes as short as 7 s and was also seen over a wide range ofC5-DMB-SM concentrations (1-25 microM). Control experimentsestablished that the variously colored endosomes were not inducedby changes in pH, membrane potential, vesicle size, or temperature.Quantitative fluorescence microscopy demonstrated that the apparentconcentration of the lipid analog in the red-orange endosomeswas severalfold higher than its initial concentration at theplasma membrane, suggesting selective internalization (sorting)of the lipid into a subset of early endosomes. Colocalizationstudies using C5-DMB-SM and either anti-transferrin receptorantibodies or fluorescently labeled low-density lipoproteinfurther demonstrated that this subpopulation of endosomes resultedfrom receptor-mediated endocytosis. We conclude that the spectralproperties of C5-DMB-SM can be used to distinguish unique populationsof early endosomes from one another and to record dynamic changesin their number and distribution within living cells.

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