The original model structure describes IKK dependent I Ba degrada

The original model structure describes IKK dependent I Ba degradation in two steps, phosphorylation of I Ba catalyzed by IKK, and degradation of phosphorylated I Ba. However, this two step description omits many intermediate LY188011 steps which occur prior to I B degradation by the 26S proteasome. We therefore extended the model to include two intermediate reac tions following I Ba phosphorylation and preceding I Ba degradation, which we posited might be sufficient to account for the missing dynamics. The reactions roughly correspond to recognition of phosphorylated I Ba by an E3 ligase intermediate, and attachment of a ubiquitin chain to the substrate.

It must be noted that each of these reactions potentially encom passes numerous intermediate steps and may not corre spond directly to the reactions as they are described here, however, the mechanistic details of this pathway obtained from the literature provide a biological basis for develop ing this model. With the new model structure in place, the parameters corresponding to the new stimulus induced I Ba degrada tion reactions were estimated using the optimization algo rithm while fixing all other parameters downstream of I Ba degradation to their previously estimated values. Remarkably, parameters were found to closely match microglial NF B activation, decreasing the data fitting error by nearly 67%, with over a 9 fold improvement dur ing the first 20 min in particular. Re estimating the other parameters with the modified model provided even better agreement with the data, further reducing the fitting error from 0. 67 to 0.

30. The consistency between simulations of the new model and the data was assessed using the a posteriori sta tistical test as before. At these parameters the test yielded a P value of 0. 038, implying that the null hypothesis could not be rejected with a high significance level. This result was corroborated by obtaining a large number of para meter estimates and finding that nearly 50% of the esti mates with this model structure had Anacetrapib P 0. 01. These results provide strong evidence that the addi tion of dynamics roughly corresponding to the steps involving phosphorylated I Ba recognition and binding by the E3 ligase, polyubiquitination, and proteasomal degradation is sufficient to account for the slightly delayed NF B activation observed in microglia. Nonlinearities in IKK activation and inactivation produce the rapid transient IKK activity in microglia We next focused our attention on the upstream signal ing pathway governing IKK activation in response to TNFa stimulation. The upstream signaling module was decoupled from the downstream model by using the concentration of free nuclear NF B produced by the downstream module as a fixed model input.

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