2007
DOI: 10.4161/auto.3634
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Autophagosome-Lysosome Fusion Depends on the pH in Acidic Compartments in CHO Cells

Abstract: AcKNOwledgemeNTSWe are indebted to Prof. Mori M. (Kumamoto University, Japan) for generously providing pCAGGS-pOTC-GFP. We thank Ms. Nagami Yamashita for her supports. Prof. Ohkuma died on November 5, 2006 by myocardial infarction at his home. We greatly miss him as a scientist and a friend. We offer sincere thanks to all the friends, colleagues and former collaborators of Prof. Ohkuma who showed him kindness during his lifetime. AbSTrAcTAutophagy is the bulk degradation of cytoplasmic constituents in respons… Show more

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Cited by 197 publications
(170 citation statements)
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“…The regulation of organelle pH by activation of the NAADP receptor on the vesicle membrane poses exciting questions relating not just to sea urchin biology but also to mammalian biology. Certainly, key enzymes in the lumen of egg vesicles are regulated by pH changes at fertilization (14,38), but in the acidic organelles of mammalian cells, luminal pH influences processes as diverse as secretory vesicle fusion (39), autophagy (40), and proteolysis (41). Our results may have far-reaching implications for NAADP regulating various cellular pathways via pH and not just by Ca 2ϩ .…”
Section: Discussionmentioning
confidence: 89%
“…The regulation of organelle pH by activation of the NAADP receptor on the vesicle membrane poses exciting questions relating not just to sea urchin biology but also to mammalian biology. Certainly, key enzymes in the lumen of egg vesicles are regulated by pH changes at fertilization (14,38), but in the acidic organelles of mammalian cells, luminal pH influences processes as diverse as secretory vesicle fusion (39), autophagy (40), and proteolysis (41). Our results may have far-reaching implications for NAADP regulating various cellular pathways via pH and not just by Ca 2ϩ .…”
Section: Discussionmentioning
confidence: 89%
“…As autophagosome-lysosome fusion depends on the pH in acidic compartments, 28 we first used acridine orange (AO; a dye that accumulates in intracellular acidic vesicles) staining to evaluate lysosomal pH. As shown in Figure 2C, treating cells with WA resulted in a significant increase in acidic vesicles compared to the control.…”
Section: Wa Inhibits the Fusion Of Lysosomes And Autophagosomesmentioning
confidence: 99%
“…1) suggests that the resistance of ␣-syn deposits to degradation and the impairment of autophagosome clearance may be caused by a defect in autophagosome maturation, rather than by an impairment of lysosomal degradation. Nevertheless, lysosomal defects could contribute to decreased autophagosome clearance by inhibiting lysosome-autophagosome fusion (47). To investigate whether ␣-syn aggregates affect Lamp1-positive lysosomes, we conducted IF analyses in PBS-td and Pff-td HEK293 cells.…”
Section: ␣-Syn Aggregates Also Interact With Autophagy and Proteasomementioning
confidence: 99%