CED-4 forms a 2 : 2 heterotetrameric complex with CED-9 until specifically displaced by EGL-1 or CED-13

Fairlie, W. Douglas; Perugini, Matthew A.; Kvansakul, Marc; Chen, L; Huang, David C.S.; Colman, Peter M.

doi:10.1038/sj.cdd.4401762

Cited by 24 publications

(30 citation statements)

References 39 publications

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“…Both mutant peptides were able to dissociate the complex as with wild-type EGL-1BH3, but as previously, no dissociation was observed with the BimBH3 peptide. 22 These results demonstrate the exquisite sensitivity of prosurvival protein:BH3 domain interactions and suggest BH3 domain-binding profiles can be readily manipulated.…”

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confidence: 85%

“…21 We have also shown that mammalian BH3-only proteins such as Bim and Bad, unlike EGL-1, cannot dissociate CED-4:CED-9 complexes. 22 This suggests that either these mammalian BH3-only proteins cannot engage CED-9 directly, or alternatively, they bind CED-9 but cannot induce the conformational change necessary for CED-4 release. 11 These studies indicate that the molecular mechanisms, and evolutionary conservation, of nematode and mammalian apoptosis pathways are still not completely understood.…”

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confidence: 99%

“…EGL-1 can only bind some of the mammalian Bcl-2 proteins very weakly in contrast to the much stronger affinity (low nM) for CED-9. 13,14,22 (b) The weak interaction between Bcl-2 and EGL-1 was confirmed by isothermal titration microcalorimetry (ITC) where a K D of 10 mM was determined (left). The control titration of the peptide alone into buffer is also shown (right).…”

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confidence: 99%

“…This high affinity for CED-9 was confirmed by ITC where the EGL-1BH3-C62G peptide bound with a K D of 14 nM (Figure 2d), similar to wild-type EGL-1BH3. 13,22 Finally, as CED-4:CED-9 complex dissociation is dependent upon a conformational change in CED-9 following EGL-1 binding, 13 we also determined the effect of substitution of the cysteine residue in EGL-1BH3 peptide on its ability to dissociate recombinant CED-4:CED-9 complex (Figure 2e). Both mutant peptides were able to dissociate the complex as with wild-type EGL-1BH3, but as previously, no dissociation was observed with the BimBH3 peptide.…”

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confidence: 99%

“…This was confirmed by ITC where no interaction was detected (data not shown), consistent with previous results. 22 To determine that the binding affinity data for the BH3 peptides accurately reflected the ability of full-length BH3-only proteins to interact with pro-survival proteins, we performed co-immunoprecipitation experiments using over-expressed full-length proteins in HEK293T cells ( Figure 1c). As expected, a strong interaction was observed between wild-type EGL-1 and CED-9, but not with Bcl-2 or Bcl-x L , consistent with the low affinity of the EGL-1BH3 peptide measured for these proteins (Figure 1a).…”

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confidence: 99%

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EGL-1 BH3 mutants reveal the importance of protein levels and target affinity for cell-killing potency

et al. 2008

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Studies of the cell death pathway in the nematode Caenorhabditis elegans provided the first evidence of the evolutionary conservation of apoptosis signalling. Here we show that the worm Bcl-2 homology domain-3 (BH3)-only protein EGL-1 binds mammalian pro-survival proteins very poorly, but can be converted into a high-affinity ligand for Bcl-2 and Bcl-x L by subtle mutation of the cysteine residue at position 62 within the BH3 domain. A 100-fold increase in affinity was observed following a single atom change (cysteine to serine substitution), and a further 10-fold increase by replacement with glycine. The low affinity of wild-type EGL-1 for mammalian pro-survival proteins and its poor expression correlates with its weak killing activity in mammalian cells whereas the high-affinity C62G mutant is a very potent killer of cells lacking Mcl-1. Cell killing by the C62S mutant with intermediate affinity only occurs when this EGL-1 BH3 domain is placed in a more stable context, namely that of Bim S , which allows higher expression, though the kinetics of cell death now vary depending on whether Mcl-1 is neutralized by Noxa or genetically deleted. These results demonstrate how levels of BH3-only proteins, target affinity and the spectrum of neutralization of pro-survival proteins all contribute to killing activity. Landmark studies in Caenorhabditis elegans revealed that four genes, CED-9, CED-4, CED-3 and EGL-1, are essential for the programmed cell death (apoptosis) of 131 out of 1090 somatic cells during hermaphrodite nematode development. 1 Of these, EGL-1, CED-3 and CED-4 encode pro-apoptotic proteins whereas CED-9 encodes a pro-survival protein. CED-9 is the nematode homologue of mammalian B-cell lymphoma-2 (Bcl-2) pro-survival proteins (including Bcl-2 itself as well as Bcl-x L , Bcl-w, Mcl-1 and A1), 2 while CED-4 is similar to the mammalian adapter protein APAF-1 3 acting as a positive regulator of caspases, in particular, CED-3. 4 EGL-1 is the nematode Bcl-2 homology domain-3 (BH3)-only protein equivalent to mammalian BH3-only proteins such as Bim, Bad and Noxa. [5][6][7] In nematode cells, CED-9 functions by sequestering CED-4 at the mitochondrial membrane. 8-10 Following a developmental cue, EGL-1 is transcriptionally upregulated and the protein binds CED-9, 5-7 releasing CED-4, allowing its oligomerization. 11 These CED-4 oligomers then translocate to the perinuclear region of the cell 12 where they facilitate CED-3 activation by bringing these caspases into close proximity. 4,9 Biochemical and structural studies have revealed that binding of the EGL-1 BH3 domain into a hydrophobic groove on CED-9 causes a conformational change at the CED-4:CED-9 interface that results in CED-4 dissociation. [13][14][15] The BH3 domains of mammalian BH3-only proteins bind into similar grooves on mammalian pro-survival molecules, but a conformational change as seen in CED-9 has yet to be observed. [16][17][18] The functional equivalence, and hence evolutionary conservation, of CED-9 and mammalian Bcl-2 was demonstrated in st...

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confidence: 85%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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EGL-1 BH3 mutants reveal the importance of protein levels and target affinity for cell-killing potency

et al. 2008

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A survey of the year 2006 literature on applications of isothermal titration calorimetry

Okhrimenko

Jelesarov

2008

J of Molecular Recognition

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Molecules that modulate Apaf‐1 activity

Pérez‐Payá

Orzáez

Mondragón

et al. 2011

Medicinal Research Reviews

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Programmed cell death, apoptosis, is a highly regulated cellular pathway, responsible for the elimination of cells in the organism that are no longer needed or extensively damaged. Defects in the regulation of apoptosis could be at the molecular basis of different diseases, either when it is insufficient or excessive. The formation of the macromolecular complex, apoptosome, is a key event in this pathway, which has also been defined as the intrinsic apoptosis pathway. The apoptosome is a holoenzyme multiprotein complex formed by cytochrome c-activated apoptotic protease-activating factor (Apaf-1), dATP, and procaspase-9. Recent studies have produced a wealth of information about the regulation and functions of Apaf-1, but additional studies aimed at elucidating its role as a signaling device at the crosstalk between different signaling pathways are needed to take advantage for the development of modulators of apoptosis pathways and possible therapeutic applications.

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CED-4 forms a 2 : 2 heterotetrameric complex with CED-9 until specifically displaced by EGL-1 or CED-13

Cited by 24 publications

References 39 publications

EGL-1 BH3 mutants reveal the importance of protein levels and target affinity for cell-killing potency

EGL-1 BH3 mutants reveal the importance of protein levels and target affinity for cell-killing potency

A survey of the year 2006 literature on applications of isothermal titration calorimetry

Molecules that modulate Apaf‐1 activity

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