Abstract

Here we report the use of a fluorescein-tagged peroxisomal targeting sequence peptide (F-PTS1, acetyl-C{K(FITC)}GGAKL) for investigating pH regulation of glycosomes in live procyclic form Trypanosoma brucei When added to cells, this fluorescent peptide is internalized within vesicular structures, including glycosomes, and can be visualized after 30-60 min. Using F-PTS1 we are able to observe the pH conditions inside glycosomes in response to starvation conditions. Previous studies have shown that in the absence of glucose, the glycosome exhibits mild acidification from pH 7.4 ± 0.2 to 6.8 ± 0.2. Our results suggest that this response occurs under proline starvation as well. This pH regulation is found to be independent from cytosolic pH and requires a source of Na+ ions. Glycosomes were also observed to be more resistant to external pH changes than the cytosol; placement of cells in acidic buffers (pH 5) reduced the pH of the cytosol by 0.8 ± 0.1 pH units, whereas glycosomal pH decreases by 0.5 ± 0.1 pH units. This observation suggests that regulation of glycosomal pH is different and independent from cytosolic pH regulation. Furthermore, pH regulation is likely to work by an active process, because cells depleted of ATP with 2-deoxyglucose and sodium azide were unable to properly regulate pH. Finally, inhibitor studies with bafilomycin and EIPA suggest that both V-ATPases and Na+/H+ exchangers are required for glycosomal pH regulation.

Highlights

  • We report the use of a fluorescein-tagged peroxisomal targeting sequence peptide (F-PTS1, acetyl-C{K(FITC)} GGAKL) for investigating pH regulation of glycosomes in live procyclic form Trypanosoma brucei

  • We compare glycosomal pH response in the presence or absence of both glucose and proline, an alternate amino acid carbon source metabolized by PF T. brucei

  • To measure intraglycosomal pH, we loaded live cells with F-PTS1 under various nutrient deprivation conditions, and measured the pH-dependent spectral change in fluorescein emission ratio followed by intracellular pH calibration with digitonin in calibration buffer (CB)

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Summary

Edited by Thomas Söllner

We report the use of a fluorescein-tagged peroxisomal targeting sequence peptide (F-PTS1, acetyl-C{K(FITC)} GGAKL) for investigating pH regulation of glycosomes in live procyclic form Trypanosoma brucei. Our results suggest that this response occurs under proline starvation as well This pH regulation is found to be independent from cytosolic pH and requires a source of Na؉ ions. We have previously demonstrated that conjugating fluorescein to PTS1 delivers the ratiometric pH sensor to glycosomes for quantitative measurements of pH in situ [5] Using this approach, we demonstrate the effect of proline and glucose starvation on glycosomal pH in PF T. brucei as well as the effects of incubation in acidic buffers (pHe). We determined that glycosomal pH is actively regulated and is independent of cytosolic pH This regulation process is ion- and ATP-dependent, and is likely regulated by a combination of glycosomal V-ATPases and Naϩ/Hϩ exchangers

Glycosomal pH response to nutrient deprivation
Glycosomal and cytosolic pH response to acidic external pH
Effects of ATP on pH regulation in glycosomes
Effect of protein inhibitors on glycosomal pH regulation
Discussion
Reagents and buffers
Digitonin titration
ATP deprivation and effect on pH regulation
Inhibitor effect on pH regulation

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