Table 2.
The role of species and reactions in the apoptotic process described by the reduced model
| Species | Reactions | The role in the apoptosis process |
|---|---|---|
| CD95L |
br1* |
Triggering the apoptosis process. |
| DISC |
br2* |
Activation of caspase-8 in the DISC complex. In the case of a high ligand concentration, DISC is a slow species, so reactions br1* and br2* cannot be combined. |
| caspase-3 |
br3* |
Activation of caspase-8 via the negative-feedback loop. When the concentration of CD95L is reduced, the rate of br3* is an order of magnitude higher than the rate of br2*. Thus, activation of caspase-8 is mainly caused by caspase-3. |
| br8* |
Cleavage/activation of procaspase-2 is confirmed by the experimental data. |
|
| br9* |
Caspase-3 activation plays a crucial role in the cleavage of procaspases-2, -8 and PARP. |
|
| br11* |
PARP inactivation is confirmed by the experimental measurements of PARP and cPARP concentrations. |
|
| cFLIP |
br4* |
Inhibition of the DISC complex. cFLIP blocks the activity of DISC preventing a significant increase of caspase-8 concentration. This conclusion is consistent with the observations by Bentele et al. asserting that down-regulation of cFLIP resulted in cell death occurring already upon low concentration of anti-CD95 (1 ng/ml). |
| DISC:cFLIP:pro8 |
br5* |
Production of blocked p43/p41, whose concentration is detected by the experimental data. |
| |
br6*, br7*, br10* |
Activation of Bid and cleavage of procaspases-7 and −9. These reactions determine dynamics of the mentioned species in agreement with the experimental data. |
| IAP |
br12* |
Inhibition of caspase-3. In the case of the reduced activation scenario, IAP prevents caspase-3 from reaching a significant level and, therefore, blocks significant increase of caspase-8 due to br3*. |
| xaa | br13* | The virtual variable xaa specifies the process of degradation. |
“Experimental data” in this table refers to the data obtained by Bentele et al.[17].