Institute of Fundamental Technological Research
Polish Academy of Sciences

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S. Broomhead David


Recent publications
1.  Yunjiao W., Paszek P., Horton Caroline A., Hong Y., White M., Kell Douglas B., Muldoon M., Broomhead David S., A systematic survey of the response of a model NF-kB signalling pathway to TNFa stimulation, JOURNAL OF THEORETICAL BIOLOGY, ISSN: 0022-5193, DOI: 10.1016/j.jtbi.2011.12.014, Vol.297, pp.137-147, 2012

Abstract:
White's lab established that strong, continuous stimulation with tumour necrosis factor- () can induce sustained oscillations in the subcellular localisation of the transcription factor nuclear factor (NF-). But the intensity of the signal varies substantially, from picomolar in the blood plasma of healthy organisms to nanomolar in diseased states. We report on a systematic survey using computational bifurcation theory to explore the relationship between the intensity of stimulation and the existence of sustained NF- oscillations. Using a deterministic model developed by Ashall et al. in 2009, we find that the system's responses to are characterised by a supercritical Hopf bifurcation point: above a critical intensity of the system exhibits sustained oscillations in NF-kB localisation. For below this critical value, damped oscillations are observed. This picture depends, however, on the values of the model's other parameters. When the values of certain reaction rates are altered the response of the signalling pathway to stimulation changes: in addition to the sustained oscillations induced by high-dose stimulation, a second oscillatory regime appears at much lower doses. Finally, we define scores to quantify the sensitivity of the dynamics of the system to variation in its parameters and use these scores to establish that the qualitative dynamics are most sensitive to the details of NF- mediated gene transcription.

Keywords:
NF-kB signalling pathway, Parameter sensitivity, Bifurcation analysis, Oscillations

Affiliations:
Yunjiao W. - other affiliation
Paszek P. - IPPT PAN
Horton Caroline A. - other affiliation
Hong Y. - other affiliation
White M. - other affiliation
Kell Douglas B. - other affiliation
Muldoon M. - other affiliation
Broomhead David S. - other affiliation
2.  Yunjiao W., Paszek P., Horton Caroline A., Kell Douglas B., White M., Broomhead David S., Muldoon M., Interactions among oscillatory pathways in NF-kappa B signaling, BMC SYSTEMS BIOLOGY, ISSN: 1752-0509, DOI: 10.1186/1752-0509-5-23, Vol.5, pp.23-1-11, 2011

Abstract:
Background

Sustained stimulation with tumour necrosis factor alpha (TNF-alpha) induces substantial oscillations—observed at both the single cell and population levels—in the nuclear factor kappa B (NF-kappa B) system. Although the mechanism has not yet been elucidated fully, a core system has been identified consisting of a negative feedback loop involving NF-kappa B (RelA:p50 hetero-dimer) and its inhibitor I-kappa B-alpha. Many authors have suggested that this core oscillator should couple to other oscillatory pathways.
Results

First we analyse single-cell data from experiments in which the NF-kappa B system is forced by short trains of strong pulses of TNF-alpha. Power spectra of the ratio of nuclear-to-cytoplasmic concentration of NF-kappa B suggest that the cells' responses are entrained by the pulsing frequency. Using a recent model of the NF-kappa B system due to Caroline Horton, we carried out extensive numerical simulations to analyze the response frequencies induced by trains of pulses of TNF-alpha stimulation having a wide range of frequencies and amplitudes. These studies suggest that for sufficiently weak stimulation, various nonlinear resonances should be observable. To explore further the possibility of probing alternative feedback mechanisms, we also coupled the model to sinusoidal signals with a wide range of strengths and frequencies. Our results show that, at least in simulation, frequencies other than those of the forcing and the main NF-kappa B oscillator can be excited via sub- and superharmonic resonance, producing quasiperiodic and even chaotic dynamics.
Conclusions

Our numerical results suggest that the entrainment phenomena observed in pulse-stimulated experiments is a consequence of the high intensity of the stimulation. Computational studies based on current models suggest that resonant interactions between periodic pulsatile forcing and the system's natural frequencies may become evident for sufficiently weak stimulation. Further simulations suggest that the nonlinearities of the NF-kappa B feedback oscillator mean that even sinusoidally modulated forcing can induce a rich variety of nonlinear interactions.

Affiliations:
Yunjiao W. - other affiliation
Paszek P. - IPPT PAN
Horton Caroline A. - other affiliation
Kell Douglas B. - other affiliation
White M. - other affiliation
Broomhead David S. - other affiliation
Muldoon M. - other affiliation
3.  Ashall L., Horton Caroline A., Nelson David E., Paszek P., Harper Claire V.V., Sillitoe K., Ryan S., Spiller David G., Unitt John F., Broomhead David S., Kell Douglas B., Rand David A.A., Sée V., White Michael R.R., Pulsatile Stimulation Determines Timing and Specificity of NF-κB-Dependent Transcription, Science, ISSN: 0036-8075, DOI: 10.1126/science.1164860, Vol.324, No.5924, pp.242-246, 2009

Abstract:
The nuclear factor κB (NF-κB) transcription factor regulates cellular stress responses and the immune response to infection. NF-κB activation results in oscillations in nuclear NF-κB abundance. To define the function of these oscillations, we treated cells with repeated short pulses of tumor necrosis factor–α at various intervals to mimic pulsatile inflammatory signals. At all pulse intervals that were analyzed, we observed synchronous cycles of NF-κB nuclear translocation. Lower frequency stimulations gave repeated full-amplitude translocations, whereas higher frequency pulses gave reduced translocation, indicating a failure to reset. Deterministic and stochastic mathematical models predicted how negative feedback loops regulate both the resetting of the system and cellular heterogeneity. Altering the stimulation intervals gave different patterns of NF-κB–dependent gene expression, which supports the idea that oscillation frequency has a functional role.

Affiliations:
Ashall L. - other affiliation
Horton Caroline A. - other affiliation
Nelson David E. - other affiliation
Paszek P. - other affiliation
Harper Claire V.V. - University of Manchester (GB)
Sillitoe K. - other affiliation
Ryan S. - other affiliation
Spiller David G. - other affiliation
Unitt John F. - other affiliation
Broomhead David S. - other affiliation
Kell Douglas B. - other affiliation
Rand David A.A. - University of Warwick (GB)
Sée V. - other affiliation
White Michael R.R. - University of Manchester (GB)

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