A UDP-glucose derivative is required for vacuolar autophagic cell death

Autophagy

Volumn 4, Issue 5, 2008, Pages 680-691

  Tresse, Emilie ^a   Kosta, Artemis ^a,b   Giusti, Corinne ^a   Luciani, Marie Françoise ^a   Golstein, Pierre ^a  

^a CENTRE D IMMUNOLOGIE DE MARSEILLE LUMINY   (France)

^b AIX MARSEILLE UNIVERSITÉ   (France)

Author keywords

Autophagic cell death; Autophagy; Dictyostelium; Glycogen; UDP glucose; Vacuolization

Indexed keywords

DEOXYGLUCOSE; GLYCOGEN; MALTOSE; URIDINE DIPHOSPHATE GLUCOSE; URIDINE TRIPHOSPHATE GLUCOSE 1 PHOSPHATE URIDYLYLTRANSFERASE;

ARTICLE; AUTOPHAGY; CELL DEATH; CELL STRUCTURE; CONTROLLED STUDY; DICTYOSTELIUM; ELECTRON MICROSCOPY; GENE; GENE MUTATION; GLCS GENE; GLYCOLYSIS; MICROSCOPY; NONHUMAN; PHENOTYPE; UGPB GENE;

DICTYOSTELIUM;

EID: 48249124986     PISSN: 15548627     EISSN: 15548635     Source Type: Journal    
DOI: 10.4161/auto.6084     Document Type: Article

References (70)

1. Zong WX, Thompson CB. Necrotic death as a cell fare. Genes & development 2006; 20:1-15.
2. Festjens N, Vanden Berghe T, Vandenabeele P. Necrosis, a well-orchestrated form of cell demise: signalling cascades, important mediators and concomitant immune response. Biochimica et biophysica acta 2006; 1757:1371-87.
3. Golstein P, Kroemer G. Cell death by necrosis: towards a molecular definition. Trends in biochemical sciences 2007; 32:37-43.
4. Gozuacik D, Kimchi A. Autophagy and cell death. Curr Top Dev Biol 2007; 78:217-45.
5. Hoyer-Hansen M, Bastholm L, Mathiasen IS, Elling F, Jaattela M. Vitamin D analog EB1089 triggers dramatic lysosomal changes and Beclin 1-mediated autophagic cell death. Cell Death Differ 2005; 12:1237-309.
6. Pyo JO, Jang MH, Kwon YK, Lee HJ, Jun JI, Woo HN, Cho DH, Choi B, Lee H, Kim JH, Mizushima N, Oshumi Y, Jung YK. Essential roles of Atg5 and FADD in autophagic cell death: Dissection of autophagic cell death into vacuole formation and cell death. J Biol Chem 2005; 280:20722-9.
7. Shimizu S, Kanaseki T, Mizushima N, Mizuta T, Arakawa-Kobayashi S, Thompson CB, Tsujimoto Y. Role of Bcl-2 family proteins in a non-apoptotic programmed cell death dependent on autophagy genes. Nature cell biology 2004; 6:1221-8.
8. Yu L, Alva A, Su H, Dutt P, Freundt E, Welsh S, Baehrecke EH, Lenardo MJ. Regulation of an ATG7-beclin 1 program of autophagic cell death by caspase-8. Science (New York, NY) 2004; 304:1500-2.
9. Maiuri MC, Le Toumelin G, Criollo A, Rain JC, Gautier F, Juin P, Tasdemir E, Pierron G, Troulinaki K, Tavernarakis N, Hickman JA, Geneste O, Kroemer G. Functional and physical interaction between Bcl-X(L) and a BH3-like domain in Beclin-1. The EMBO journal 2007; 26:2527-39.
10. Pattingre S, Tassa A, Qu X, Garuri R, Liang XH, Mizushima N, Packer M, Schneider MD, Levine B. Bcl-2 antiapoptotic proteins inhibit Beclin 1-dependent autophagy. Cell 2005; 122:927-39.
11. Yousefi S, Perozzo R, Schmid I, Ziemiecki A, Schaffner T, Scapozza L, Brunner T, Simon HU. Calpain-mediated cleavage of Atg5 switches autophagy to apoptosis. Nature cell biology 2006; 8:1124-32.
12. Eichinger L, Pachebat JA, Glockner G, Rajandream MA, Sucgang R, Berriman M, Song J, Olsen R, Szafranski K, Xu Q, Tunggal B, Kummerfeld S, Madera M, Konfortov BA, Rivero F, Bankier AT, Lehmann R, Hamlin N, Davies R, Gaudet P, Fey P, Pilcher K, Chen G, Saunders D, Sodergren E, Davis P, Kerhornou A, Nie X, Hall N, Anjard C, Hemphill L, Bason N, Farbrother P, Desany B, Just E, Morio T, Rost R, Churcher C, Cooper J, Haydock S, van Driessche N, Cronin A, Goodhead I, Muzny D, Mourier T, Pain A, Lu M, Harper D, Lindsay R, Hauser H, James K, Quiles M, Madan Babu M, Saito T, Buchrieser C, Wardroper A, Felder M, Thangavelu M, Johnson D, Knights A, Loulseged H, Mungall K, Oliver K, Price C, Quail MA, Urushihara H, Hernandez J, Rabbinowitsch E, Steffen D, Sanders M, Ma J, Kohara Y, Sharp S, Simmonds M, Spiegler S, Tivey A, Sugano S, White B, Walker D, Woodward J, Winckler T, Tanaka Y, Shaulsky G, Schleicher M, Weinstock G, Rosenthal A, Cox EC, Chisholm RL, Gibbs R, Loomis WF, Platzer M, Kay RR, Williams J, Dear PH, Noegel AA, Barrell B, Kuspa A. The genome of the social amoeba Dictyostelium discoideum. Nature 2005; 435:43-57.
13. Kessin RH. The secret lives of Dictyostelium. Methods Mol Biol 2006; 346:3-14.
14. Kuspa A, Loomis WF. The Genome of Dictyostelium discoideum. Methods Mol Biol 2006; 346:15-30.
15. Olie RA, Durrieu F, Cornillon S, Loughran G, Gross J, Earnshaw WC, Golstein P. Apparent caspase independence of programmed cell death in Dictyostelium. Current Biology 1998; 8:955-8.
16. Roisin Bouffay C, Luciani MF, Klein G, Levraud JP, Adam M, Golstein P. Developmental cell death in Dictyostelium does not require paracaspase. J Biol Chem 2004; 279:11489-94.
17. Lam D, Kosta A, Luciani MF, Golstein P. The IP3 Receptor Is Required to Signal Autophagic Cell Death. Mol Biol Cell 2008; 19:691-700.
18. Raper KB, Fennell DI. Stalk formation in Dictyostelium. Bulletin of the Torrey Botanical Club 1952; 79:25-51.
19. Maeda Y, Takeuchi I. Cell differentiation and fine structures in the development of the cellular slime molds. Development, Growth and Differentiation 1969; 11:232-45.
20. George RP, Hohl HR, Raper KB. Ultrastructural development of stalk-producing cells in Dictyostelium discoïdeum, a cellular slime mould. J Gen Microbiol 1972; 70:477-89.
21. de Chastellier C, Ryter A. Changes of the cell surface and of the digestive apparatus of Dictyostelium discoïdeum during the starvation period triggering aggregation. Journal of Cell Biology 1977; 75:218-36.
22. Quiviger B, Benichou JC, Ryter A. Comparative cytochemical localization of alkaline and acid phosphatases during starvation and differentiation of Dictyostelium discoïdeum. BiolCellulaire 1980; 37:241-50.
23. Schaap P, van der Molen L, Konijn TM. The vacuolar apparatus of the simple cellular slime mold Dictyostelium minutum. Biol Cell 1981; 41:133-42.
24. Whittingham WF, Raper KB. Non-viability of stalk cells in Dictyostelium. Proceedings of the National Academy of Sciences USA 1960; 46:642-9.
25. Kay RR. Cell differentiation in monolayers and the investigation of slime mold morphogens. Methods in Cell Biology 1987; 28:433-48.
26. Cornillon S, Foa C, Davoust J, Buonavista N, Gross JD, Golstein P. Programmed cell death in Dictyostelium. Journal of cell science 1994; 107:2691-704.
27. Levraud JP, Adam M, Luciani MF, De Chastellier C, Blanton RL, Golstein P. Dictyostelium cell death : early emergence and demise of highly polarized paddle cells. Journal of Cell Biology 2003; 160:1105-14.
28. Kosta A, Roisin-Bouffay C, Luciani MF, Otto GP, Kessin RH, Golstein P. Autophagy gene disruption reveals a non-vacuolar cell death pathway in Dictyostelium. J Biol Chem 2004; 279:48404-9.
29. Otto GP, Wu MY, Kazgan N, Anderson OR, Kessin RH. Dictyostelium macroautophagy mutants vary in the severity of their developmental defects. J Biol Chem 2004; 279:15621-9.
30. Laporte C, Kosta A, Klein G, Aubry L, Lam D, Tresse E, Luciani MF, Golstein P. A necrotic cell death model in a protist. Cell Death Differ 2007; 14:266-74.
31. Town CD, Gross JD, Kay RR. Cell differentiation without morphogenesis in Dictyostelium discoïdeum. Nature 1976; 262:717-9.
32. Town C, Stanford E. An oligosaccharide-containing factor that induces cell differentiation in Dictyostelium discoïdeum. Proceedings of the National Academy of Sciences USA 1979; 76:308-12.
33. Sobolewski A, Neave N, Weeks G. The induction of stalk cell differentiation in submerged monolayers of Dictyostelium discoïdeum. Characrerization of the temporal sequence for the molecular requirements. Differentiation 1983; 25:93-100.
34. Morris HR, Taylor GW, Masento MS, Jermyn KA, Kay RR. Chemical structure of the morphogen differentiation inducing factor from Dictyostelium discoideum. Nature 1987; 328:811-4.
35. Bishop JD, Moon BC, Harrow F, Ratner D, Gomer RH, Dottin JP, Brazill DT. A second UDP-glucose pytophosphorylase is required for differentiation and development in Dictyostelium discoideum. J Biol Chem 2002; 277:32430-7.
36. Blanton RL, Fuller D, Itanfar N, Grimson MJ, Loomis WF. The cellulose synthase gene of Dictyostelium. Proceedings of the National Academy of Sciences USA 2000; 97:2391-6.
37. Horcajada C, Guinovart JJ, Fita I, Ferrer JC. Crystal structute of an archaeal glycogen synthase: insights into oligomerization and substrate binding of eukaryotic glycogen synthases. J Biol Chem 2006; 281:2923-31.
38. Nakada HI, Wick AN. The effect of 2-deoxyglucose on the metabolism of glucose, fructose, and galactose by rat diaphragm. J Biol Chem 1956; 222:671-6.
39. Biely P, Farkas V, Bauer S. Incorporation of 2-deoxy-D-glucose into glycogen. Biochimica et biophysica acta 1968; 158:487-8.
40. Nigam VN. Incorporation of 2-deoxyglucose into glycogen by intact Novikoff ascites hepatoma. Arch Biochem Biophys 1967; 120:232-3.
41. Pentreath VW, Seal LH, Kai-Kai MA. Incorporation of [3H]2-deoxyglucose into glycogen in nervous tissues. Neuroscience 1982; 7:759-67.
42. Nelson T, Kaufman EE, Sokoloff L. 2-Deoxyglucose incorporation into rat brain glycogen during measurement of local cerebral glucose utilization by the 2-deoxyglucose method. J Neurochem 1984; 43:949-56.
43. Steiner S, Lester RL. Studies on the diversity of inositol-containing yeast phospholipids: incorporation of 2-deoxyglucose into lipid. J Bacteriol 1972; 109:81-8.
44. Nishino I. Autophagic vacuolar myopathy. Seminars in pediatric neurology 2006; 13:90-5.
45. Wang Z, Wilson WA, Fujino MA, Roach PJ. Antagonistic controls of autophagy and glycogen accumulation by Snf1p, the yeast homolog of AMP-activated protein kinase, and the cyclin-dependent kinase Pho85p. Molecular and cellular biology 2001; 21:5742-52.
46. Wilson WA, Wang Z, Roach PJ. Systematic identification of the genes affecting glycogen storage in the yeast Saccharomyces cerevisiae: implication of the vacuole as a determinant of glycogen level. Mol Cell Proteomics 2002; 1:232-42.
47. Kotoulas OB, Kalamidas SA, Kondomerkos DJ. Glycogen autophagy. Microscopy research and technique 2004; 64:10-20.
48. Matoba S, Kang JG, Patino WD, Wragg A, Boehm M, Gavrilova O, Hurley PJ, Bunz F, Hwang PM. p53 regulates mitochondrial respiration. Science (New York, NY) 2006; 312:1650-3.
49. Bensaad K, Tsuruta A, Selak MA, Vidal MN, Nakano K, Bartrons R, Gottlieb E, Vousden KH. TIGAR, a p53-inducible regulator of glycolysis and apoptosis. Cell 2006; 126:107-20.
50. Valera A, Pujol A, Gregori X, Riu E, Visa J, Bosch F. Evidence from transgenic mice that myc regulates hepatic glycolysis. Faseb J 1995; 9:1067-78.
51. Fulda S, Debatin KM. HIF-1-regulated glucose metabolism: a key to apoptosis resistance? Cell cycle (Georgetown, Tex) 2007; 6:790-2.
52. Jensen PJ, Gitlin JD, Carayannopoulos MO. GLUT1 deficiency links nutrient availability and apoptosis during embryonic development. J Biol Chem 2006; 281:13382-7.
53. Kilic M, Kasperczyk H, Fulda S, Debatin KM. Role of hypoxia inducible factor-1 alpha in modulation of apoptosis resistance. Oncogene 2007; 26:2027-38.
54. Gottlob K, Majewski N, Kennedy S, Kandel E, Robey RB, Hay N. Inhibition of early apoptotic events by Akt/PKB is dependent on the first committed step of glycolysis and mitochondrial hexokinase. Genes & development 2001; 15:1406-18.
55. Rathmell JC, Fox CJ, Plas DR, Hammerman PS, Cinalli RM, Thompson CB. Akt-directed glucose metabolism can prevent Bax conformation change and promote growth factor-independent survival. Molecular and cellular biology 2003; 23:7315-28.
56. Majewski N, Nogueira V, Bhaskar P, Coy PE, Skeen JE, Gottlob K, Chandel NS, Thompson CB, Robey RB, Hay N. Hexokinase-mirochondria interaction mediated by Akt is required to inhibit apoptosis in the presence or absence of Bax and Bak. Molecular cell 2004; 16:819-30.
57. Pastorino JG, Shulga N, Hoek JB. Mitochondrial binding of hexokinase II inhibits Bax-induced cytochrome c release and apoptosis. J Biol Chem 2002; 277:7610-8.
58. Beurel E, Jope RS. The paradoxical pro- and anti-apoptotic actions of GSK3 in the intrinsic and extrinsic apoptosis signaling pathways. Prog Neurobiol 2006; 79:173-89.
59. Lee A, Delegeane A, Scharff D. Highly conserved glucose-regulated protein in hamster and chicken cells: preliminary characterizarion of its c DNA. Proc Natl Acad Sci USA 1981; 78:4922-5.
60. Meares GP, Zmijewska AA, Jope RS. HSP105 interacts with GRP78 and GSK3 and promotes ER stress-induced caspase-3 activation. Cell Signal 2008; 20:347-58.
61. Shu CW, Sun FC, Cho JH, Lin CC, Liu PF, Chen PY, Chang MD, Fu HW, Lai YK. GRP78 and Raf-1 cooperatively confer resistance to endoplasmic reticulum stress-induced apoptosis. J Cell Physiol 2008; 245:627-35.
62. Townley R, Shapiro L. Crystal structures of the adenylate sensor from fission yeast AMP-activated protein kinase. Science (New York, NY) 2007; 315:1726-9.
63. Polekhina G, Gupta A, Michell BJ, van Denderen B, Murthy S, Feil SC, Jennings IG, Campbell DJ, Wirters LA, Parker MW, Kemp BE, Stapleton D. AMPK beta subunit targets metabolic stress sensing to glycogen. Curr Biol 2003; 13:867-71.
64. Hoyer-Hansen M, Jaattela M, AMP-activated protein kinase: a universal regulator of autophagy? Autophagy 2007; 3:381-3.
65. Jones RG, Plas DR, Kubek S, Buzzai M, Mu J, Xu Y, Birnbaum MJ, Thompson CB. AMP-activated protein kinase induces a p53-dependent metabolic checkpoint. Molecular cell 2005; 18:283-93.
66. Liang J, Shao SH, Xu ZX, Hennessy B, Ding Z, Larrea M, Kondo S, Dumont DJ, Gurrerman JU, Walker CL, Slingerland JM, Mills GB. The energy sensing LKB1-AMPK pathway regulates p27(kip 1) phosphorylation mediating the decision to enter autophagy or apoptosis. Nature cell biology 2007; 9:218-24.
67. Colell A, Ricci JE, Tait S, Milasta S, Maurer U, Bouchier Hayes L, Fitzgerald P, Guio-Carrion A, Waterhouse NJ, Li CW, Mari B, Barbry P, Newmeyer DD, Beere HM, Green DR. GAPDH and autophagy preserve survival after apoptotic cytochrome c release in the absence of caspase activation. Cell 2007; 129:983-97.
68. Kosta A, Laporte C, Lam D, Tresse E, Luciani MF, Golstein P. How to assess and study cell death in Dictyostelium discoideum. Methods Mol Biol 2006; 346:535-50.
69. Kuspa A, Loomis WF. Tagging developmental genes in Dictyostelium by restriction enzyme-mediated integration of plasmid DNA. Proceedings of the National Academy of Sciences USA 1992; 89:8803-7.
70. Parrou JL, Francois J. A simplified procedure for a rapid and reliable assay of both glycogen and trehalose in whole yeast cells. Analytical biochemistry 1997; 248:186-8.