Vacuolar ATPase in Phagosome-Lysosome Fusion
Kissing S, Hermsen C, Repnik U, Nesset CK, von Bargen K, Griffiths G, Ichihara A, Lee BS, Schwake M, De Brabander J, Haas A, et al. (2015)
Journal of Biological Chemistry 290(22): 14166-14180.
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Autor*in
Kissing, Sandra;
Hermsen, Christina;
Repnik, Urska;
Nesset, Cecilie Kasi;
von Bargen, Kristine;
Griffiths, Gareth;
Ichihara, Atsuhiro;
Lee, Beth S.;
Schwake, MichaelUniBi 
;
De Brabander, Jef;
Haas, Albert;
Saftig, Paul
Alle
;
De Brabander, Jef;
Haas, Albert;
Saftig, Paul
Alle
Einrichtung
Abstract / Bemerkung
The vacuolar H+ -ATPase (v-ATPase) complex is instrumental in establishing and maintaining acidification of some cellular compartments, thereby ensuring their functionality. Recently it has been proposed that the transmembrane V-0 sector of v-ATPase and its a-subunits promote membrane fusion in the endocytic and exocytic pathways independent of their acidification functions. Here, we tested if such a proton-pumping independent role of v-ATPase also applies to phagosome-lysosome fusion. Surprisingly, endo(lyso)somes in mouse embryonic fibroblasts lacking the V-0 a3 subunit of the v-ATPase acidified normally, and endosome and lysosome marker proteins were recruited to phagosomes with similar kinetics in the presence or absence of the a3 subunit. Further experiments used macrophages with a knockdown of v-ATPase accessory protein 2 (ATP6AP2) expression, resulting in a strongly reduced level of the V-0 sector of the v-ATPase. However, acidification appeared undisturbed, and fusion between latex bead-containing phagosomes and lysosomes, as analyzed by electron microscopy, was even slightly enhanced, as was killing of non-pathogenic bacteria by V-0 mutant macrophages. Pharmacologically neutralized lysosome pH did not affect maturation of phagosomes in mouse embryonic cells or macrophages. Finally, locking the two large parts of the v-ATPase complex together by the drug saliphenylhalamide A did not inhibit in vitro and in cellulo fusion of phagosomes with lysosomes. Hence, our data do not suggest a fusion-promoting role of the v-ATPase in the formation of phagolysosomes.
Erscheinungsjahr
2015
Zeitschriftentitel
Journal of Biological Chemistry
Band
290
Ausgabe
22
Seite(n)
14166-14180
ISSN
0021-9258
Page URI
https://pub.uni-bielefeld.de/record/2759802
Zitieren
Kissing S, Hermsen C, Repnik U, et al. Vacuolar ATPase in Phagosome-Lysosome Fusion. Journal of Biological Chemistry. 2015;290(22):14166-14180.
Kissing, S., Hermsen, C., Repnik, U., Nesset, C. K., von Bargen, K., Griffiths, G., Ichihara, A., et al. (2015). Vacuolar ATPase in Phagosome-Lysosome Fusion. Journal of Biological Chemistry, 290(22), 14166-14180. doi:10.1074/jbc.M114.628891
Kissing, Sandra, Hermsen, Christina, Repnik, Urska, Nesset, Cecilie Kasi, von Bargen, Kristine, Griffiths, Gareth, Ichihara, Atsuhiro, et al. 2015. “Vacuolar ATPase in Phagosome-Lysosome Fusion”. Journal of Biological Chemistry 290 (22): 14166-14180.
Kissing, S., Hermsen, C., Repnik, U., Nesset, C. K., von Bargen, K., Griffiths, G., Ichihara, A., Lee, B. S., Schwake, M., De Brabander, J., et al. (2015). Vacuolar ATPase in Phagosome-Lysosome Fusion. Journal of Biological Chemistry 290, 14166-14180.
Kissing, S., et al., 2015. Vacuolar ATPase in Phagosome-Lysosome Fusion. Journal of Biological Chemistry, 290(22), p 14166-14180.
S. Kissing, et al., “Vacuolar ATPase in Phagosome-Lysosome Fusion”, Journal of Biological Chemistry, vol. 290, 2015, pp. 14166-14180.
Kissing, S., Hermsen, C., Repnik, U., Nesset, C.K., von Bargen, K., Griffiths, G., Ichihara, A., Lee, B.S., Schwake, M., De Brabander, J., Haas, A., Saftig, P.: Vacuolar ATPase in Phagosome-Lysosome Fusion. Journal of Biological Chemistry. 290, 14166-14180 (2015).
Kissing, Sandra, Hermsen, Christina, Repnik, Urska, Nesset, Cecilie Kasi, von Bargen, Kristine, Griffiths, Gareth, Ichihara, Atsuhiro, Lee, Beth S., Schwake, Michael, De Brabander, Jef, Haas, Albert, and Saftig, Paul. “Vacuolar ATPase in Phagosome-Lysosome Fusion”. Journal of Biological Chemistry 290.22 (2015): 14166-14180.
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Hinton A, Bond S, Forgac M., Pflugers Arch. 457(3), 2007
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Reconstitution of Rab- and SNARE-dependent membrane fusion by synthetic endosomes.
Ohya T, Miaczynska M, Coskun U, Lommer B, Runge A, Drechsel D, Kalaidzidis Y, Zerial M., Nature 459(7250), 2009
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Direct recruitment of H+-ATPase from lysosomes for phagosomal acidification.
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Regulation and isoform function of the V-ATPases.
Toei M, Saum R, Forgac M., Biochemistry 49(23), 2010
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The (pro)renin receptor/ATP6AP2 is essential for vacuolar H+-ATPase assembly in murine cardiomyocytes.
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V-ATPase membrane sector associates with synaptobrevin to modulate neurotransmitter release.
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Structure of the vacuolar ATPase by electron microscopy.
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Conditional gene targeting in macrophages and granulocytes using LysMcre mice.
Clausen BE, Burkhardt C, Reith W, Renkawitz R, Forster I., Transgenic Res. 8(4), 1999
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The gene encoding the mouse homologue of the human osteoclast-specific 116-kDa V-ATPase subunit bears a deletion in osteosclerotic (oc/oc) mutants.
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Cathepsin L deficiency as molecular defect of furless: hyperproliferation of keratinocytes and pertubation of hair follicle cycling.
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Acidic endomembrane organelles are required for mouse postimplantation development.
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Prorenin receptor is essential for normal podocyte structure and function.
Oshima Y, Kinouchi K, Ichihara A, Sakoda M, Kurauchi-Mito A, Bokuda K, Narita T, Kurosawa H, Sun-Wada GH, Wada Y, Yamada T, Takemoto M, Saleem MA, Quaggin SE, Itoh H., J. Am. Soc. Nephrol. 22(12), 2011
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Current knowledge of (pro)renin receptor as an accessory protein of vacuolar H+-ATPase.
Ichihara A, Kinouchi K., J Renin Angiotensin Aldosterone Syst 12(4), 2011
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A rationale for osteoclast selectivity of inhibiting the lysosomal V-ATPase a3 isoform.
Nyman JK, Vaananen HK., Calcif. Tissue Int. 87(3), 2010
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