Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/hsp60-accelerates-the-maturation-of-pro-caspase-3-by-upstream-8z0r03IHDG
References (58)
-
Y. Li, Z. Li (2000)
[Mitochondria and apoptosis].Zhonghua yu fang yi xue za zhi [Chinese journal of preventive medicine], 34 3
-
N. Thornberry, A. Rosen, D. Nicholson (1997)
Control of apoptosis by proteases.Advances in pharmacology, 41
-
Hua Zou, W. Henzel, X. Liu, Alexis Lutschg, Xiaodong Wang (1997)
Apaf-1, a Human Protein Homologous to C. elegans CED-4, Participates in Cytochrome c–Dependent Activation of Caspase-3Cell, 90
-
M. Muzio, A. Chinnaiyan, F. Kischkel, K. O’Rourke, A. Shevchenko, J. Ni, C. Scaffidi, J. Bretz, Mei Zhang, R. Gentz, M. Mann, P. Krammer, M. Peter, V. Dixit (1996)
FLICE, A Novel FADD-Homologous ICE/CED-3–like Protease, Is Recruited to the CD95 (Fas/APO-1) Death-Inducing Signaling ComplexCell, 85
-
J. Medema, C. Scaffidi, F. Kischkel, A. Shevchenko, M. Mann, P. Krammer, M. Peter (1997)
FLICE is activated by association with the CD95 death‐inducing signaling complex (DISC)The EMBO Journal, 16
-
M. Mancini, D. Nicholson, Sophie Roy, N. Thornberry, E. Peterson, L. Casciola-Rosen, A. Rosen (1998)
The Caspase-3 Precursor Has a Cytosolic and Mitochondrial Distribution: Implications for Apoptotic SignalingThe Journal of Cell Biology, 140
-
K. Kuida, T. Zheng, S. Na, C. Kuan, Di Yang, H. Karasuyama, P. Rakic, R. Flavell (1996)
Decreased apoptosis in the brain and premature lethality in CPP32-deficient miceNature, 384
-
M. Tewari, L. Quan, K. O’Rourke, S. Desnoyers, Z. Zeng, D. Beidler, G. Poirier, G. Salvesen, V. Dixit (1995)
Yama/CPP32 beta, a mammalian homolog of CED-3, is a CrmA-inhibitable protease that cleaves the death substrate poly(ADP-ribose) polymerase.Cell, 81 5
-
J. Chou, H. Matsuo, H. Duan, G. Wagner (1998)
Solution Structure of the RAIDD CARD and Model for CARD/CARD Interaction in Caspase-2 and Caspase-9 RecruitmentCell, 94
-
A. Darmon, D. Nicholson, R. Bleackley (1995)
Activation of the apoptotic protease CPP32 by cytotoxic T-cell-derived granzyme BNature, 377
-
N. Thornberry (1997)
The caspase family of cysteine proteases.British medical bulletin, 53 3
-
A. Ashkenazi, V. Dixit (1998)
Death receptors: signaling and modulation.Science, 281 5381
-
A. Darmon, T. Ley, D. Nicholson, R. Bleackley (1996)
Cleavage of CPP32 by Granzyme B Represents a Critical Role for Granzyme B in the Induction of Target Cell DNA Fragmentation*The Journal of Biological Chemistry, 271
-
M. Tewari, L. Quan, K. O’Rourke, S. Desnoyers, Z. Zeng, D. Beidler, G. Poirier, G. Salvesen, V. Dixit (1995)
Yama/CPP32β, a mammalian homolog of CED-3, is a CrmA-inhibitable protease that cleaves the death substrate poly(ADP-ribose) polymeraseCell, 81
-
D. Wallach, M. Boldin, E. Varfolomeev, R. Beyaert, P. Vandenabeele, W. Fiers (1997)
Cell death induction by receptors of the TNF family: towards a molecular understandingFEBS Letters, 410
-
L. Casciola-Rosen, D. Nicholson, T. Chong, K. Rowan, N. Thornberry, D. Miller, A. Rosen (1996)
Apopain/CPP32 cleaves proteins that are essential for cellular repair: a fundamental principle of apoptotic deathThe Journal of Experimental Medicine, 183
-
H. Yoshida, Y. Kong, Ritsuko Yoshida, A. Elia, A. Hakem, R. Hakem, J. Penninger, T. Mak (1998)
Apaf1 Is Required for Mitochondrial Pathways of Apoptosis and Brain DevelopmentCell, 94
-
W. Neupert (1997)
Protein import into mitochondria.Annual review of biochemistry, 66
-
Felipe Andrade, Sophie Roy, Donald Nicholson, N. Thornberry, A. Rosen, L. Casciola-Rosen (1998)
Granzyme B directly and efficiently cleaves several downstream caspase substrates: implications for CTL-induced apoptosis.Immunity, 8 4
-
H. Hirata, A. Takahashi, Susumu Kobayashi, S. Yonehara, H. Sawai, T. Okazaki, Kokichi Yamamoto, M. Sasada (1998)
Caspases Are Activated in a Branched Protease Cascade and Control Distinct Downstream Processes in Fas-induced ApoptosisThe Journal of Experimental Medicine, 187
-
F. Hartl (1996)
Molecular chaperones in cellular protein foldingNature, 381
-
C. Scaffidi, J. Medema, P. Krammer, M. Peter (1997)
FLICE Is Predominantly Expressed as Two Functionally Active Isoforms, Caspase-8/a and Caspase-8/b*The Journal of Biological Chemistry, 272
-
D. Mosser, A. Caron, L. Bourget, Claude Denis-Larose, B. Massie (1997)
Role of the human heat shock protein hsp70 in protection against stress-induced apoptosisMolecular and Cellular Biology, 17
-
B. Bukau, A. Horwich (1998)
The Hsp70 and Hsp60 Chaperone MachinesCell, 92
-
M. Beissinger, Johannes Buchner (1998)
How chaperones fold proteins.Biological chemistry, 379 3
-
J. Stuart, D. Myszka, L. Joss, R. Mitchell, S. McDonald, Z. Xie, S. Takayama, John Reed, K. Ely (1998)
Characterization of Interactions between the Anti-apoptotic Protein BAG-1 and Hsc70 Molecular Chaperones*The Journal of Biological Chemistry, 273
-
D. Wallach, A. Kovalenko, E. Varfolomeev, M. Boldin (1998)
Death-inducing functions of ligands of the tumor necrosis factor family: a Sanhedrin verdict.Current opinion in immunology, 10 3
-
A. Kawahara, M. Enari, R. Talanian, Winnie Wong, Shigekazu Nagata (1998)
Fas‐induced DNA fragmentation and proteolysis of nuclear proteinsGenes to Cells, 3
-
NA Thornberry (1997a)
A combinatorial approach defines specificities of members of the caspase family and granzyme B. Functional relationships established for key mediators of apoptosisJ Biol Chem, 272
-
Peng Li, D. Nijhawan, I. Budihardjo, S. Srinivasula, Manzoor Ahmad, E. Alnemri, Xiaodong Wang (1997)
Cytochrome c and dATP-Dependent Formation of Apaf-1/Caspase-9 Complex Initiates an Apoptotic Protease CascadeCell, 91
-
P. Beresford, Madhuri Jaju, Rachel Friedman, Margaret Yoon, J. Lieberman (1998)
A role for heat shock protein 27 in CTL-mediated cell death.Journal of immunology, 161 1
-
S. Srinivasula, Manzoor Ahmad, T. Fernandes‐Alnemri, Gerald Litwack, Emad Alnemri (1996)
Molecular ordering of the Fas-apoptotic pathway: the Fas/APO-1 protease Mch5 is a CrmA-inhibitable protease that activates multiple Ced-3/ICE-like cysteine proteases.Proceedings of the National Academy of Sciences of the United States of America, 93 25
-
K. Orth, K. O’Rourke, G. Salvesen, V. Dixit (1996)
Molecular Ordering of Apoptotic Mammalian CED-3/ICE-like Proteases*The Journal of Biological Chemistry, 271
-
D. Vaux, G. Haecker, A. Strasser (1994)
An evolutionary perspective on apoptosisCell, 76
-
F. Cecconi, G. Alvarez-Bolado, B. Meyer, K. Roth, P. Gruss (1998)
Apaf1 (CED-4 Homolog) Regulates Programmed Cell Death in Mammalian DevelopmentCell, 94
-
N. Thornberry, T. Rano, E. Peterson, D. Rasper, Tracy Timkey, M. Garcia-Calvo, V. Houtzager, P. Nordstrom, Sophie Roy, J. Vaillancourt, K. Chapman, D. Nicholson (1997)
A Combinatorial Approach Defines Specificities of Members of the Caspase Family and Granzyme BThe Journal of Biological Chemistry, 272
-
Nancy Thornberry, Y. Lazebnik (1998)
Caspases: enemies within.Science, 281 5381
-
D. Nicholson, N. Thornberry (1997)
Caspases: killer proteases.Trends in biochemical sciences, 22 8
-
David Vaux (1997)
CED-4—The Third Horseman of ApoptosisCell, 90
-
Jörg Martin (1997)
Molecular Chaperones and Mitochondrial Protein FoldingJournal of Bioenergetics and Biomembranes, 29
-
C. Vincenz, V. Dixit (1997)
Fas-associated Death Domain Protein Interleukin-1β-converting Enzyme 2 (FLICE2), an ICE/Ced-3 Homologue, Is Proximally Involved in CD95- and p55-mediated Death Signaling*The Journal of Biological Chemistry, 272
-
X. Liu, C. Kim, Jie Yang, R. Jemmerson, Xiaodong Wang (1996)
Induction of Apoptotic Program in Cell-Free Extracts: Requirement for dATP and Cytochrome cCell, 86
-
Y. Lazebnik, S. Kaufmann, S. Desnoyers, G. Poirier, W. Earnshaw (1994)
Cleavage of poly(ADP-ribose) polymerase by a proteinase with properties like ICENature, 371
-
H. Steller (1995)
Mechanisms and genes of cellular suicideScience, 267
-
Afshin Samali, J. Cai, B. Zhivotovsky, D. Jones, S. Orrenius (1999)
Presence of a pre‐apoptotic complex of pro‐caspase‐3, Hsp60 and Hsp10 in the mitochondrial fraction of Jurkat cellsThe EMBO Journal, 18
-
K. Kuida, T. Haydar, C. Kuan, Yong Gu, C. Taya, H. Karasuyama, M. Su, P. Rakic, R. Flavell (1998)
Reduced Apoptosis and Cytochrome c–Mediated Caspase Activation in Mice Lacking Caspase 9Cell, 94
-
E. Alnemri (1997)
Mammalian cell death proteases: A family of highly conserved aspartate specific cysteine proteasesJournal of Cellular Biochemistry, 64
-
A. Arrigo (1998)
Small stress proteins: chaperones that act as regulators of intracellular redox state and programmed cell death.Biological chemistry, 379 1
-
T. Juan, I. Mcniece, J. Argento, N. Jenkins, D. Gilbert, N. Copeland, F. Fletcher (1997)
Identification and mapping of Casp7, a cysteine protease resembling CPP32β, interleukin-1β converting enzyme, and CED-3Genomics, 40
-
John Kerr, A. Wyllie, R. Alastair, Currie (1972)
Apoptosis: A Basic Biological Phenomenon with Wide-ranging Implications in Tissue KineticsBritish Journal of Cancer, 26
-
M. Boldin, T. Goncharov, Yury Goltseve, D. Wallach (1996)
Involvement of MACH, a Novel MORT1/FADD-Interacting Protease, in Fas/APO-1- and TNF Receptor–Induced Cell DeathCell, 85
-
Yaw-Huei Hsiangl, Robert Hertzbergj, Sidney Hechtj, Leroy LiuS (1985)
Camptothecin induces protein-linked DNA breaks via mammalian DNA topoisomerase I.The Journal of biological chemistry, 260 27
-
D. Rasper, J. Vaillancourt, S. Hadano, V. Houtzager, I. Seiden, S. Keen, P. Tawa, S. Xanthoudakis, J. Nasir, D. Martindale, B. Koop, E. Peterson, N. Thornberry, Jingqi Huang, D. MacPherson, S. Black, F. Hornung, M. Lenardo, M. Hayden, Sophie Roy, D. Nicholson (1998)
Cell death attenuation by `Usurpin', a mammalian DED-caspase homologue that precludes caspase-8 recruitment and activation by the CD-95 (Fas, APO-1) receptor complexCell Death and Differentiation, 5
-
J. Höhfeld (1998)
Regulation of the heat shock conjugate Hsc70 in the mammalian cell: the characterization of the anti-apoptotic protein BAG-1 provides novel insights.Biological chemistry, 379 3
-
J. Rotonda, D. Nicholson, K. Fazil, M. Gallant, Y. Gareau, M. Labelle, E. Peterson, D. Rasper, R. Ruel, J. Vaillancourt, N. Thornberry, J. Becker (1996)
The three-dimensional structure of apopain/CPP32, a key mediator of apoptosisNature Structural Biology, 3
-
X. Liu, C. Kim, J. Pohl, Xiaodong Wang (1996)
Purification and Characterization of an Interleukin-1β-converting Enzyme Family Protease That Activates Cysteine Protease P32 (CPP32)*The Journal of Biological Chemistry, 271
-
D. Nicholson, Ambereen Ali, N. Thornberry, J. Vaillancourt, Connie Ding, M. Gallant, Y. Gareau, P. Griffin, M. Labelle, Y. Lazebnik, N. Munday, S. Raju, M. Smulson, T. Yamin, Violeta Yu, Douglas Miller (1995)
Identification and inhibition of the ICE/CED-3 protease necessary for mammalian apoptosisNature, 376
-
T. Juan, I. Mcniece, J. Argento, N. Jenkins, D. Gilbert, N. Copeland, F. Fletcher (1997)
Identification and mapping of Casp7, a cysteine protease resembling CPP32 beta, interleukin-1 beta converting enzyme, and CED-3.Genomics, 40 1
- Publisher
- Wiley
- Copyright
- Copyright © 2013 Wiley Periodicals, Inc
- ISSN
- 0261-4189
- eISSN
- 1460-2075
- DOI
- 10.1093/emboj/18.8.2049
- pmid
- 10205159
- Publisher site
- See Article on Publisher Site
Abstract
The activation of caspases represents a critical step in the pathways leading to the biochemical and morphological changes that underlie apoptosis. Multiple pathways leading to caspase activation appear to exist and vary depending on the death‐inducing stimulus. We demonstrate that the activation of caspase‐3, in Jurkat cells stimulated to undergo apoptosis by a Fas‐independent pathway, is catalyzed by caspase‐6. Caspase‐6 was found to co‐purify with caspase‐3 as part of a multiprotein activation complex from extracts of camptothecin‐treated Jurkat cells. A biochemical analysis of the protein constituents of the activation complex showed that Hsp60 was also present. Furthermore, an interaction between Hsp60 and caspase‐3 could be demonstrated by co‐immunoprecipitation experiments using HeLa as well as Jurkat cell extracts. Using a reconstituted in vitro system, Hsp60 was able to substantially accelerate the maturation of procaspase‐3 by different upstream activator caspases and this effect was dependent on ATP hydrolysis. We propose that the ATP‐dependent ‘foldase’ activity of Hsp60 improves the vulnerability of pro‐caspase‐3 to proteolytic maturation by upstream caspases and that this represents an important regulatory event in apoptotic cell death.
Journal
The EMBO Journal – Wiley
Published: Mar 15, 2000
Keywords: ; ; ; ;