Advanced search
Publication Cover
Molecular and Cellular Biology Volume 27, 2007 - Issue 16
Submit an article Journal homepage
5
Views
11
CrossRef citations to date
0
Altmetric
Article

XIAP Activity Dictates Apaf-1 Dependency for Caspase 9 Activation

Andrew T. Ho1 Division of Cell and Molecular Biology, Toronto General Research Institute-University Health Network, 67 College Street, Toronto, Ontario, CanadaM5G 2M1;2 Departments of Medical Biophysics
,
Qin H. Li1 Division of Cell and Molecular Biology, Toronto General Research Institute-University Health Network, 67 College Street, Toronto, Ontario, CanadaM5G 2M1
,
Hitoshi Okada5 Immunology, University of Toronto;6 The Campbell Family Institute for Breast Cancer Research, Princess Margaret Hospital, 620 University Avenue, Toronto, Ontario, CanadaM5G 2C1
,
Tak W. Mak2 Departments of Medical Biophysics;5 Immunology, University of Toronto;6 The Campbell Family Institute for Breast Cancer Research, Princess Margaret Hospital, 620 University Avenue, Toronto, Ontario, CanadaM5G 2C1
&
Eldad Zacksenhaus1 Division of Cell and Molecular Biology, Toronto General Research Institute-University Health Network, 67 College Street, Toronto, Ontario, CanadaM5G 2M1;2 Departments of Medical Biophysics;3 Laboratory Medicine and Pathobiology;4 MedicineCorrespondence[email protected]
Pages 5673-5685 | Received 31 Jan 2007, Accepted 04 Jun 2007, Published online: 01 Apr 2023

REFERENCES

  • Akdemir, F., R. Farkas, P. Chen, G. Juhasz, L. Medved'ova, M. Sass, L. Wang, X. Wang, S. Chittaranjan, S. M. Gorski, A. Rodriguez, and J. M. Abrams. 2006. Autophagy occurs upstream or parallel to the apoptosome during histolytic cell death. Development 133:1457–1465.
  • Baliga, B., and S. Kumar. 2003. Apaf-1/cytochrome c apoptosome: an essential initiator of caspase activation or just a sideshow? Cell Death Differ. 10:16–18.
  • Boatright, K. M., M. Renatus, F. L. Scott, S. Sperandio, H. Shin, I. M. Pedersen, J. E. Ricci, W. A. Edris, D. P. Sutherlin, D. R. Green, and G. S. Salvesen. 2003. A unified model for apical caspase activation. Mol. Cell 11:529–541.
  • Chipuk, J. E., L. Bouchier-Hayes, and D. R. Green. 2006. Mitochondrial outer membrane permeabilization during apoptosis: the innocent bystander scenario. Cell Death Differ. 13:1396–1402.
  • Cregan, S. P., A. Fortin, J. G. MacLaurin, S. M. Callaghan, F. Cecconi, S. W. Yu, T. M. Dawson, V. L. Dawson, D. S. Park, G. Kroemer, and R. S. Slack. 2002. Apoptosis-inducing factor is involved in the regulation of caspase-independent neuronal cell death. J. Cell Biol. 158:507–517.
  • Du, C., M. Fang, Y. Li, L. Li, and X. Wang. 2000. Smac, a mitochondrial protein that promotes cytochrome c-dependent caspase activation by eliminating IAP inhibition. Cell 102:33–42.
  • Eckelman, B. P., and G. S. Salvesen. 2006. The human anti-apoptotic proteins cIAP1 and cIAP2 bind but do not inhibit caspases. J. Biol. Chem. 281:3254–3260.
  • Eckelman, B. P., G. S. Salvesen, and F. L. Scott. 2006. Human inhibitor of apoptosis proteins: why XIAP is the black sheep of the family. EMBO Rep. 7:988–994.
  • Ekert, P. G., S. H. Read, J. Silke, V. S. Marsden, H. Kaufmann, C. J. Hawkins, R. Gerl, S. Kumar, and D. L. Vaux. 2004. Apaf-1 and caspase-9 accelerate apoptosis, but do not determine whether factor-deprived or drug-treated cells die. J. Cell Biol. 165:835–842.
  • Galluzzi, L., N. Larochette, N. Zamzami, and G. Kroemer. 2006. Mitochondria as therapeutic targets for cancer chemotherapy. Oncogene 25:4812–4830.
  • Green, D. R. 2005. Apoptotic pathways: ten minutes to dead. Cell 121:671–674.
  • Guo, Z., Y. Shi, Y. Hiroki, T. W. Mak, and E. Zacksenhaus. 2001. Inactivation of the retinoblastoma tumor suppressor induces Apaf-1 dependent and independent apoptotic pathways during embryogenesis. Cancer Res. 61:8395–8400.
  • Hakem, R., A. Hakem, G. S. Duncan, J. T. Henderson, M. Woo, M. S. Soengas, A. Elia, J. L. de la Pompa, D. Kagi, W. Khoo, J. Potter, R. Yoshida, S. A. Kaufman, S. W. Lowe, J. M. Penninger, and T. W. Mak. 1998. Differential requirement for caspase 9 in apoptotic pathways in vivo. Cell 94:339–352.
  • Harlin, H., S. B. Reffey, C. S. Duckett, T. Lindsten, and C. B. Thompson. 2001. Characterization of XIAP-deficient mice. Mol. Cell. Biol. 21:3604–3608.
  • Ho, A., H. Li, R. Hakem, T. W. Mak, and E. Zacksenhaus. 2004. Coupling of caspase-9 to Apaf-1 in response to loss of pRb or cytotoxic drugs is cell type dependent. EMBO J. 23:460–472.
  • Ho, A. T., and E. Zacksenhaus. 2004. Splitting the apoptosome. Cell Cycle 3:446–448.
  • Jiang, X., H. E. Kim, H. Shu, Y. Zhao, H. Zhang, J. Kofron, J. Donnelly, D. Burns, S. C. Ng, S. Rosenberg, and X. Wang. 2003. Distinctive roles of PHAP proteins and prothymosin-alpha in a death regulatory pathway. Science 299:223–226.
  • Jiang, X., and X. Wang. 2000. Cytochrome c promotes caspase-9 activation by inducing nucleotide binding to Apaf-1. J. Biol. Chem. 275:31199–31203.
  • Jiang, X., and X. Wang. 2004. Cytochrome c-mediated apoptosis. Annu. Rev. Biochem. 73:87–106.
  • Kornbluth, S., and K. White. 2005. Apoptosis in Drosophila: neither fish nor fowl (nor man, nor worm). J. Cell Sci. 118:1779–1787.
  • Krajewski, S., M. Krajewska, L. M. Ellerby, K. Welsh, Z. Xie, Q. L. Deveraux, G. S. Salvesen, D. E. Bredesen, R. E. Rosenthal, G. Fiskum, and J. C. Reed. 1999. Release of caspase-9 from mitochondria during neuronal apoptosis and cerebral ischemia. Proc. Natl. Acad. Sci. USA 96:5752–5757.
  • Lakhani, S. A., A. Masud, K. Kuida, G. A. Porter, Jr., C. J. Booth, W. Z. Mehal, I. Inayat, and R. A. Flavell. 2006. Caspases 3 and 7: key mediators of mitochondrial events of apoptosis. Science 311:847–851.
  • Li, P., D. Nijhawan, I. Budihardjo, S. M. Srinivasula, M. Ahmad, E. S. Alnemri, and X. Wang. 1997. Cytochrome c and dATP-dependent formation of Apaf-1/caspase-9 complex initiates an apoptotic protease cascade. Cell 91:479–489.
  • Liu, X., C. N. Kim, J. Yang, R. Jemmerson, and X. Wang. 1996. Induction of apoptotic program in cell-free extracts: requirement for dATP and cytochrome c. Cell 86:147–157.
  • Marsden, V. S., L. O'Connor, L. A. O'Reilly, J. Silke, D. Metcalf, P. G. Ekert, D. C. Huang, F. Cecconi, K. Kuida, K. J. Tomaselli, S. Roy, D. W. Nicholson, D. L. Vaux, P. Bouillet, J. M. Adams, and A. Strasser. 2002. Apoptosis initiated by Bcl-2-regulated caspase activation independently of the cytochrome c/Apaf-1/caspase-9 apoptosome. Nature 419:634–637.
  • Martins, L. M., A. Morrison, K. Klupsch, V. Fedele, N. Moisoi, P. Teismann, A. Abuin, E. Grau, M. Geppert, G. P. Livi, C. L. Creasy, A. Martin, I. Hargreaves, S. J. Heales, H. Okada, S. Brandner, J. B. Schulz, T. Mak, and J. Downward. 2004. Neuroprotective role of the Reaper-related serine protease HtrA2/Omi revealed by targeted deletion in mice. Mol. Cell. Biol. 24:9848–9862.
  • Nikolovska-Coleska, Z., L. Xu, Z. Hu, Y. Tomita, P. Li, P. P. Roller, R. Wang, X. Fang, R. Guo, M. Zhang, M. E. Lippman, D. Yang, and S. Wang. 2004. Discovery of embelin as a cell-permeable, small-molecular weight inhibitor of XIAP through structure-based computational screening of a traditional herbal medicine three-dimensional structure database. J. Med. Chem. 47:2430–2440.
  • Okada, H., W. K. Suh, J. Jin, M. Woo, C. Du, A. Elia, G. S. Duncan, A. Wakeham, A. Itie, S. W. Lowe, X. Wang, and T. W. Mak. 2002. Generation and characterization of Smac/DIABLO-deficient mice. Mol. Cell. Biol. 22:3509–3517.
  • Okamoto, H., H. Shiraishi, and H. Yoshida. 2006. Histological analyses of normally grown, fertile Apaf1-deficient mice. Cell Death Differ. 13:668–671.
  • Pop, C., J. Timmer, S. Sperandio, and G. S. Salvesen. 2006. The apoptosome activates caspase-9 by dimerization. Mol. Cell 22:269–275.
  • Potts, M. B., A. E. Vaughn, H. McDonough, C. Patterson, and M. Deshmukh. 2005. Reduced Apaf-1 levels in cardiomyocytes engage strict regulation of apoptosis by endogenous XIAP. J. Cell Biol. 171:925–930.
  • Reed, J. C. 2006. Proapoptotic multidomain Bcl-2/Bax-family proteins: mechanisms, physiological roles, and therapeutic opportunities. Cell Death Differ. 13:1378–1386.
  • Renatus, M., H. R. Stennicke, F. L. Scott, R. C. Liddington, and G. S. Salvesen. 2001. Dimer formation drives the activation of the cell death protease caspase 9. Proc. Natl. Acad. Sci. USA 98:14250–14255.
  • Ricci, J. E., N. Waterhouse, and D. R. Green. 2003. Mitochondrial functions during cell death, a complex (I-V) dilemma. Cell Death Differ. 10:488–492.
  • Roberts, D. L., W. Merrison, M. MacFarlane, and G. M. Cohen. 2001. The inhibitor of apoptosis protein-binding domain of Smac is not essential for its proapoptotic activity. J. Cell Biol. 153:221–228.
  • Rodriguez, A., P. Chen, H. Oliver, and J. M. Abrams. 2002. Unrestrained caspase-dependent cell death caused by loss of Diap1 function requires the Drosophila Apaf-1 homolog, Dark. EMBO J. 21:2189–2197.
  • Salvesen, G. S., and J. M. Abrams. 2004. Caspase activation—stepping on the gas or releasing the brakes? Lessons from humans and flies. Oncogene 23:2774–2784.
  • Schimmer, A. D., S. Dalili, R. A. Batey, and S. J. Riedl. 2006. Targeting XIAP for the treatment of malignancy. Cell Death Differ. 13:179–188.
  • Schimmer, A. D., K. Welsh, C. Pinilla, Z. Wang, M. Krajewska, M. J. Bonneau, I. M. Pedersen, S. Kitada, F. L. Scott, B. Bailly-Maitre, G. Glinsky, D. Scudiero, E. Sausville, G. Salvesen, A. Nefzi, J. M. Ostresh, R. A. Houghten, and J. C. Reed. 2004. Small-molecule antagonists of apoptosis suppressor XIAP exhibit broad antitumor activity. Cancer Cell 5:25–35.
  • Shiozaki, E. N., J. Chai, D. J. Rigotti, S. J. Riedl, P. Li, S. M. Srinivasula, E. S. Alnemri, R. Fairman, and Y. Shi. 2003. Mechanism of XIAP-mediated inhibition of caspase-9. Mol. Cell 11:519–527.
  • Soengas, M. S., P. Capodieci, D. Polsky, J. Mora, M. Esteller, X. Opitz-Araya, R. McCombie, J. G. Herman, W. L. Gerald, Y. A. Lazebnik, C. Cordon-Cardo, and S. W. Lowe. 2001. Inactivation of the apoptosis effector Apaf-1 in malignant melanoma. Nature 409:207–211.
  • Soengas, M. S., W. L. Gerald, C. Cordon-Cardo, Y. Lazebnik, and S. W. Lowe. 2006. Apaf-1 expression in malignant melanoma. Cell Death Differ. 13:352–353.
  • Spierings, D., G. McStay, M. Saleh, C. Bender, J. Chipuk, U. Maurer, and D. R. Green. 2005. Connected to death: the (unexpurgated) mitochondrial pathway of apoptosis. Science 310:66–67.
  • Srivastava, M., H. Scherr, M. Lackey, D. Xu, Z. Chen, J. Lu, and A. Bergmann. 2007. ARK, the Apaf-1 related killer in Drosophila, requires diverse domains for its apoptotic activity. Cell Death Differ. 14:92–102.
  • Susin, S. A., E. Daugas, L. Ravagnan, K. Samejima, N. Zamzami, M. Loeffler, P. Costantini, K. F. Ferri, T. Irinopoulou, M. C. Prevost, G. Brothers, T. W. Mak, J. Penninger, W. C. Earnshaw, and G. Kroemer. 2000. Two distinct pathways leading to nuclear apoptosis. J. Exp. Med. 192:571–580.
  • Susin, S. A., H. K. Lorenzo, N. Zamzami, I. Marzo, C. Brenner, N. Larochette, M. C. Prevost, P. M. Alzari, and G. Kroemer. 1999. Mitochondrial release of caspase-2 and -9 during the apoptotic process. J. Exp. Med. 189:381–394.
  • Vaux, D. L., and J. Silke. 2005. IAPs, RINGs and ubiquitylation. Nat. Rev. Mol. Cell. Biol. 6:287–297.
  • Verhagen, A. M., P. G. Ekert, M. Pakusch, J. Silke, L. M. Connolly, G. E. Reid, R. L. Moritz, R. J. Simpson, and D. L. Vaux. 2000. Identification of DIABLO, a mammalian protein that promotes apoptosis by binding to and antagonizing IAP proteins. Cell 102:43–53.
  • Wei, M. C., W. X. Zong, E. H. Cheng, T. Lindsten, V. Panoutsakopoulou, A. J. Ross, K. A. Roth, G. R. MacGregor, C. B. Thompson, and S. J. Korsmeyer. 2001. Proapoptotic BAX and BAK: a requisite gateway to mitochondrial dysfunction and death. Science 292:727–730.
  • Yoshida, H., Y. Y. Kong, R. Yoshida, A. J. Elia, A. Hakem, R. Hakem, J. M. Penninger, and T. W. Mak. 1998. Apaf1 is required for mitochondrial pathways of apoptosis and brain development. Cell 94:739–750.
  • Zacksenhaus, E., Z. Jiang, D. Chung, J. Marth, R. A. Phillips, and B. L. Gallie. 1996. pRb controls cell proliferation, differentiation and death of skeletal muscle cells and other lineages during embryogenesis. Genes Dev. 10:3051–3064.
  • Zou, H., Y. Li, X. Liu, and X. Wang. 1999. An APAF-1.cytochrome c multimeric complex is a functional apoptosome that activates procaspase-9. J. Biol. Chem. 274:11549–11556.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.