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Related Links
Caspase Cleavage and Activation
Caspase Processing
Caspase Activity
Physiological Caspase Substrates and Inhibitors
Mitochondrial Changes in Apoptosis
Phosphatidylserine Externalization
DNA Fragmentation
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Caspases process close to 1000 substrates, some of which when cleaved are critical for the characteristic morphological and molecular changes associated with apoptosis. Some well-established substrates of apoptotic caspases are listed below, including one of the first identified substrates, PARP-1.
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Mammalian Caspase
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Function
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Cleavage Outcome
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BID
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Pro-apoptotic protein that regulate outer mitochondrial membrane permeability
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Functional Gain
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Post-proteolytic N-myristoylation results in targeting to the mitochondria and release of cytochrome c
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Gelsolin
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Calcium regulated actin binding protein, regulates actin filament assembly and disassembly
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Functional Gain
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De-polymerization of F-actin and leads to membrane blebbing
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ICAD
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Binds and prevents activation of the CAD nuclease (DFF40)
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Functional Loss
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Inhibition of DNA replication and fragmentation
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Lamin B1
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Involved in nuclear stability, chromatin structure
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Functional Loss
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Nuclear fragmentation, apoptotic bodies
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PARP
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Catalyzes poly(ADP-ribose) transfer from NAD+ to acceptor proteins, including itself, in response to DNA strand breaks
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Functional Loss
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Suppressed stability of DNA-PKcs and impaired DNA strand breaks repair
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PAK2
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Small GTPase-activated serine/threonine kinase involved in several cytoskeletal functions
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Functional Gain
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Cytoskeletal reorganization and membrane blebbing
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RB
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Tumor suppressor that inhibits cell cycle progression into S-phase by inhibiting transcription from E2F promoters
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Functional Loss
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Results in unopposed E2F-1 action and reduced antiapoptotic activity
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ROCK1
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Serine/threonine kinase which is cleaved by Caspase-3. Cleavage removes an autoinhibitory region to form constitutively active ROCK1
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Functional Gain
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Phosphorylation of myosin light changes and leads to membrane blebbing
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Physiological Caspase Inhibitors
Caspase activity is inhibited by several families of proteins, including cellular FLICE-like inhibitory protein (cFLIP) and the Inhibitors of Apoptosis (IAP) family. cFLIP prevents activation of Caspase-8 and -10 by competing for binding to DISC. IAPs are characterized structurally by the presence of one or three BIR (Baculovirus IAP) domains and act as caspase inhibitors by several mechanisms, including direct caspase binding. Eight IAPs have been identified in humans and some, such as the cIAPs, are ubiquitin ligases, targeting multiple proteins for proteasomal degradation. Not surprisingly, elevated levels of cFLIP and IAPs have been detected in cancers.
Domain Organization of the IAP Family
AIP Domains:- BIR: Baculoviral IAP repeat; CARD: Caspase activation and recruitment domains; RING: Really interesting new gene; UBC: Ubiquitin-conjugating
Learn More About Apoptosis Signaling
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