Mitochondrial regulation of CRAC channel-driven cellular responses

Cell Calcium

Volumn 52, Issue 1, 2012, Pages 52-56

  Watson, Robert ^a   Parekh, Anant B ^a  

^a UNIVERSITY OF OXFORD   (United Kingdom)

Author keywords

Calcium signal; CRAC channel; Mitochondria

Indexed keywords

CALCIUM ION; CALCIUM RELEASE ACTIVATED CALCIUM CHANNEL; CALMODULIN; LEUKOTRIENE C4; MITOGEN ACTIVATED PROTEIN KINASE; STROMAL INTERACTION MOLECULE 1; TRANSCRIPTION FACTOR NFAT;

ARTICLE; CALCIUM HOMEOSTASIS; CALCIUM SIGNALING; CALCIUM TRANSPORT; CELL ACTIVATION; CELL ACTIVITY; CELL INTERACTION; CELL MEMBRANE DEPOLARIZATION; CELL METABOLISM; ENZYME ACTIVATION; GENE EXPRESSION PROFILING; INTRACELLULAR SIGNALING; INTRACELLULAR TRANSPORT; MITOCHONDRION; MOLECULAR DYNAMICS; PRIORITY JOURNAL; PROTEIN BINDING; PROTEIN DOMAIN; PROTEIN FUNCTION; PROTEIN TRANSPORT; SODIUM CALCIUM EXCHANGE;

EUKARYOTA;

EID: 84863189613     PISSN: 01434160     EISSN: 15321991     Source Type: Journal    
DOI: 10.1016/j.ceca.2012.02.003     Document Type: Article

References (60)

1. Carafoli E. Calcium signalling: a tale for all seasons. Proceedings of the National Academy of Sciences of the United States of America 2002, 99:1115-1122.
2. Drago I., Pizzo P., Pozzan T. After half a century mitochondrial calcium in-and efflux machineries reveal themselves. EMBO Journal 2011, 30:4119-4125.
3. 2+ from a non-mitochondrial intracellular store in pancreatic acinar cells. Nature 1983, 306:67-69.
4. 2+ revealed by specifically targeted recombinant aequorin. Nature 1992, 358:325-327.
5. 2+ close to IP3-sensitive channels that are sensed by neighboring mitochondria. Science 1993, 262:744-747.
6. Rizzuto R., Pozzan T. Microdomains of intracellular calcium: molecular determinants and functional consequences. Physiological Reviews 2006, 86:369-408.
7. Parekh A.B., Putney J.W.J. Store-operated calcium channels. Physiological Reviews 2005, 85:757-810.
8. Parekh A.B. Store-operated CRAC channels: function in health and disease. Nature Reviews Drug Discovery 2010, 9:399-410.
9. Hogan P.G., Lewis R.S., Rao A. Molecular basis of calcium signalling in lymphocytes:STIM and ORAI. Annual Review of Immunology 2010, 28:491-533.
10. Fahrner M., Muik M., Derler I., Schindl R., Fritsch R., Friischauf I., Romanin C. Mechanistic views on domains mediating STIM1-Orai coupling. Immunological Reviews 2009, 231:99-112.
11. Brandman O., Liou J., Park W.S., Meyer T. STIM2 is a feedback regulator that stabilizes basal cytosolic and endoplasmic reticulum calcium levels. Cell 2007, 131:1327-1339.
12. Bird G.S., Hwang S.Y., Smyth J.T., Fukushima M., Boyles R.R., Putney J.W.J. STIM1 is a calcium sensor specialised for digital signalling. Current Biology 2009, 19:1724-1729.
13. Oh-hora M., Yamashita M., Hogan P.G., Sharma S., Lamperti E., Chung W., Prakriya M., Feske S., Rao A. Dual functions for the endoplasmic reticulum calcium sensors for STIM1 and STIM2 in T cell activation and tolerance. Nature Immunology 2008, 9:432-442.
14. Muik M., Fahrner M., Schindl R., Stathopulos P., Frischauf I., Derler I., Plenk P., Lackner B., Groschner K., Ikura M., et al. STIM1 couples to ORAI1 via an intramolecular transition into an extended conformation. EMBO Journal 2011, 30:1678-1689.
15. Park C.Y., Hoover P.J., Mullins F.M., Bachhawat P., Covington E.D., Rausner S., Walz T., Garcia C., Dolmetsch R.E., Lewis R.S. STIM1 clusters and activates CRAC channels via direct binding of a cytosolic domain of Orai1. Cell 2009, 136:1-15.
16. Yuan J.P., Zeng W., Dorwart M.R., Choi Y.J., Worley P.F., Muallem S. SOAR and the polybasic STIM1 domains gate and regulate Orai channels. Nature Cell Biology 2009, 11:337-343.
17. Hajnoczky G., Robb-Gaspers L.D., Seitz M.B., Thomas A.P. Decoding of cytosolic calcium oscillations in the mitochondria. Cell 1995, 82:415-424.
18. Moreau B., Nelson C., Parekh A.B. Biphasic regulation of mitochondrial Ca uptake by cytosolic Ca concentration. Current Biology 2006, 16:1672-1677.
19. Jouaville L.S., Ichas F., Holmuhamedov E.L., Camacho P., Lechleiter J.D. Synchronization of calcium waves by mitochondrial substrates in Xenopus laevis oocytes. Nature 1995, 377:438-441.
20. 2+ current ICRAC. EMBO Journal 2000, 19:6401-6407.
21. Gilabert J.-A., Bakowski D., Parekh A.B. Energized mitochondria increase the dynamic range over which inositol 1,4,5-trisphosphate activates store-operated calcium influx. EMBO Journal 2001, 20:2672-2679.
22. Zweifach A., Lewis R.S. Rapid inactivation of depletion-activated calcium current (ICRAC) due to local calcium feedback. Journal of General Physiology 1995, 105:209-226.
23. Fierro L., Parekh A.B. Fast calcium-dependent inactivation of calcium release-activated calcium current (CRAC) in RBL-1 cells. Journal of Membrane Biology 1999, 168:9-17.
24. 2+-dependent inactivation of CRAC channels. Proceedings of the National Academy of Sciences of the United States of America 2009, 106:15495-15500.
25. 2+-dependent inactivation of Orai1 channels. Journal of Biological Chemistry 2009, 284:4933-4938.
26. 2+-dependent inactivation and gating of the Orai channels. Proceedings of the National Academy of Sciences of the United States of America 2009, 106:14687-14692.
27. 2+ channels. Journal of Biological Chemistry 2010, 285.
28. 2+ sensor that stabilises CRAC channels in T cells. Nature Cell Biology 2010, 12:436-446.
29. Zweifach A., Lewis R.S. Slow calcium-dependent inactivation of depletion-activated calcium current. Journal of Biological Chemistry 1995, 270:14445-14451.
30. Parekh A.B. Slow feedback inhibition of calcium release-activated calcium current by calcium entry. Journal of Biological Chemistry 1998, 273:14925-14932.
31. Quintana A., Pasche M., Junker C., Al-Ansary D., Rieger H., Kummerow C., Nunez L., Villalobos C., Meraner P., Becherer U., et al. Calcium microdomains at the immunological synapse: how ORAI channels, mitochondria and calcium pumps generate local calcium signals for efficient T-cell activation. EMBO Journal 2011, 30:3895-3912.
32. Hoth M., Button D., Lewis R.S. Mitochondrial control of calcium channel gating: a mechanism for sustained signaling and transcriptional activation in T lymphocytes. Proceedings of the National Academy of Sciences of the United States of America 2000, 97:10607-10612.
33. Parekh A.B. Mitochondrial regulation of store-operated CRAC channels. Cell Calcium 2008, 44:6-13.
34. De Stefani D., Raffaello A., Teardo E., Szabo I., Rizzuto R. A forty-kilodalton protein of the inner membrane is the mitochondrial calcium uniporter. Nature 2011, 476:336-340.
35. Baughman J.M., Perocchi F., Girgis H.S., Plovanich M., Sancak Y., Bao X.R., Strittmater L., Goldberger O., Bogorad B.L., et al. Integrative genomics identifies MCU as an essential component of the mitochondrial calcium uniporter. Nature 2011, 476:341-345.
36. 2+ channels. Molecular Cell 2010, 38:280-290.
37. 2+ uptake. EMBO Journal 2002, 21:6744-6754.
38. 2+ store to the plasma membrane in cells with depolarised mitochondria. Journal of Biological Chemistry 2011, 286:12189-12201.
39. Quintana A., Schwarz E.C., Schwindling C., Lipp P., Kaestner L., Hoth M. Sustained activity of calcium release-activated calcium channels requires translocation of mitochondria to the plasma membrane. Journal of Biological Chemistry 2007, 281:40302-40309.
40. Quintana A., Schwindling C., Wenning A.S., Becherer U., Rettig J., Schwarz E.C., Hoth M. T cell activation requires mitochondrial translocation to the immunological synapse. Proceedings of the national Academy of Sciences of the United States of America 2007, 104:14418-14423.
41. Kummerow C., Junker C., Kruse K., Rieger H., Quintana A., Hoth M. The immunological synapse controls local and global calcium signals in T lymphocytes. Immunological Reviews 2009, 231:132-147.
42. Lioudyno M.I., Kozak J.A., Penna A., Safrina O., Zhang S.L., Sen D., Roos J., Stauderman K.A., Cahalan M.D. Orai1 and STIM1 move to the immunological synapse and are up-regulated during T cell activation. Proceedings of the National Academy of Sciences of the United States of America 2008, 105:2011-2016.
43. de Brito O.M., Scorrano L. Mitofusin 2 tethers endoplasmic reticulum to mitochondria. Nature 2008, 456:605-610.
44. Giorgio M., Migliaccio E., Orsini F., Paolucci D., Moroni M., Contursi C., Pelliccia G., Luzi L., Minucci S., Marcaccio M., et al. Electron transfer between cytochrome c and p66Shc generates reactive oxygen species that trigger mitochondrial apoptosis. Cell 2005, 122:221-233.
45. Green D.R., Reed J.C. Mitochondria and apoptosis. Science 1998, 281:1309-1312.
46. Maechler P., Wollheim C. Mitochondrial glutamate acts as a messenger in glucose-induced insulin exocytosis. Nature 2000, 402:685-689.
47. Ortenblad N., Stephenson D.G. A novel signalling pathway originating in mitochondria modulates rat skeletal muscle membrane excitability. Journal of Physiology (London) 2003, 548:139-145.
48. Bakowski D., Parekh A.B. Regulation of store-operated calcium channels by the intermediary metabolite pyruvic acid. Current Biology 2007, 17:1076-1081.
49. 2+ homeostasis in the agonist-sensitive internal store: functional interactions between mitochondria and the ER measured in situ in intact cells. Journal of Cell Biology 1998, 142:1235-1243.
50. Vig M., Dehaven W.I., Bird G.S., Billingsley J.M., Wang H.J., Rao P.E., Hutchings A.B., Jouvin M.H., Putney J.W., Kinet J.P. Defective mast cell effector functions in mice lacking the CRACM1 pore subunit of store-operated calcium release-activated calcium channels. Nature Immunology 2008, 9:89-96.
51. 2+ influx through CRAC channels activates cytosolic phospholipase A2, leukotriene C4 secretion and expression of c-fos through ERK-dependent and independent pathways in mast cells. FASEB Journal 2006, 20:2381-2383.
52. Chang W.C., Parekh A.B. Close functional coupling between CRAC channels, arachidonic acid release and leukotriene secretion. Journal of Biological Chemistry 2004, 279:29994-29999.
53. Funk C.D. Prostaglandins and leukotrienes: advances in eicosanoid biology. Science 2001, 294:1871-1875.
54. DiCapite J.L., Shirley A., Nelson C., Bates G., Parekh A.B. Intercellular calcium wave propagation involving positive feedback between CRAC channels and cysteinyl leukotrienes. FASEB Journal 2009, 23:894-905.
55. Chang W.C., Di Capite J., Singaravelu K., Nelson C., Halse V., Parekh A.B. Local calcium influx through calcium release-activated calcium (CRAC) channels stimulates production of an intracellular messenger and an intercellular pro-inflammatory signal. Journal of Biological Chemistry 2008, 283:4622-4631.
56. Hogan P.G., Chen L., Nardone J., Rao A. Transcriptional regulation by calcium, calcineurin, and NFAT. Genes and Development 2003, 17:2205-2232.
57. Gallo E.M., Cante-Barrett K., Crabtree G.R. Lymphocyte calcium signaling from membrane to nucleus. Nature Immunology 2006, 7:25-32.
58. 2+ (CRAC) channels. Journal of Biological Chemistry 2011, 286:14795-14803.
59. 2+ cycling facilitates activation of the transcription factor NFAT in sensory neurons. Journal of Neuroscience 2009, 29:12101-12114.
60. Rizzuto R., Bernardi P., Pozzan T. Mitochondria as all-round players of the calcium game. Journal of Physiology (London) 2000, 529:37-47.