Peter C. Sullivan scite author profile

Peter C. Sullivan

2Publications

39Citation Statements Received

77Citation Statements Given

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Virginia Tech

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Effects of temperature, pH elevators, and energy production inhibitors on horseradish peroxidase transport through endocytic vesicles

Sullivan

Ferris

Storrie

1987

Journal Cellular Physiology

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We investigated the effects of reduced temperature, the pH elevators NH4Cl, monensin, and HEPES (N-2-hydroxy-ethylpiperazine-N'-2-ethanesulfonic acid) buffer, as well as the metabolic poisons NaF/KCN on transport of the fluid phase pinocytic marker, horseradish peroxidase (HRP), to lysosomes in Chinese hamster ovary (CHO) cells. In cell fractionation experiments, these agents appeared to block HRP transit at specific point(s) from "early" to "late" (i.e., low to high density) prelysosomal vesicles and lysosomes. Reduced temperature (17 degrees C) most strongly inhibited HRP transport from low density, early endosomes to lysosomes. In long-term HRP uptakes at 17 degrees C, marked peroxidase accumulation occurred both in early endosomes and in lysosomes. Loss (reversible pinocytosis) of HRP from "very early" endosomes occurred at 17 degrees C. All three pH elevators including the common media supplement HEPES buffer inhibited transit of internalized HRP into lysosomes. For all three pH elevators, inhibition was most pronounced at the "early" endosome stage. The respiratory inhibitors NaF/KCN also inhibited transport most strongly at the early endosome stage. Together these results suggest that "early" steps in the endocytic transport of HRP are the most sensitive and that the conditions tested may exert direct effects on the processing of endocytic vesicles.

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Hypertonic sucrose inhibition of endocytic transport suggests multiple early endocytic compartments

Park

Sullivan

Storrie

1988

Journal Cellular Physiology

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Incubation of animal cells with hypertonic sucrose and polyethylene glycol (PEG) 1,000 renders endosomes sensitive in situ to hypotonic shock (Okada and Rechsteiner, 1982). We found that: 1) in vitro endosomes were osmotically insensitive; and 2) hypertonic sucrose inhibited transport from very early endosomes to lysosomes. Endocytic vesicles were labeled by incubating Chinese hamster ovary (CHO) cells for 1-10 min at 37 degrees C with horseradish peroxidase (HRP) and/or fluorescein isothiocyanate-conjugated dextran (FITC-dextran). Cell fractions prepared in 0.25 M sucrose were hypotonically shocked by dilution with 5 mM Na phosphate buffer, pH 6.7, to a final sucrose concentration of 0.05 M. After hypotonic shock, endocytized HRP and FITC-dextran pelleted with membrane while lysosomal hydrolases did not. The HRP activity in the pellet was latent, suggesting that endosomes were resistant to osmotic shock. Uptake in the presence of hypertonic sucrose had little effect on the subsequent osmotic sensitivity of the endosomes. Uptake in the presence of hypertonic sucrose and PEG 1,000 rendered endosomes fragile to cell homogenization. Unexpectedly, the inclusion of hypertonic sucrose in the uptake and chase media inhibited the appearance of HRP in lysosomes. HRP internalized during a 10-min uptake appeared as if it were present in two physically distinct compartments, one accessible to transport inhibition by exogenous sucrose ("very early" endosomes) and the other not ("early" endosomes). After a brief uptake (1-3 min), postincubation of CHO cells in 0.25 M sucrose-containing media completely blocked transport of internalized HRP to lysosomes. This blockage could be partially relieved by cointernalization of invertase with HRP. These results suggest that transport between multiple early endosome populations is sensitive to intraorganellar osmotic conditions.

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Peter C. Sullivan

Effects of temperature, pH elevators, and energy production inhibitors on horseradish peroxidase transport through endocytic vesicles

Hypertonic sucrose inhibition of endocytic transport suggests multiple early endocytic compartments

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