Abstract
The dynamics of the interaction between Cytotoxic T Lymphocytes (CTL) and tumor cells has been addressed in depth, in particular using numerical simulations. However, stochastic mathematical models that take into account the competitive interaction between CTL and tumors undergoing immunoediting, a process of tumor cell escape from immunesurveillance, are presently missing. Here, we introduce a stochastic dynamical particle interaction model based on experimentally measured parameters that allows to describe CTL function during immunoediting. The model describes the competitive interaction between CTL and melanoma cell nodules and allows temporal and two-dimensional spatial progression. The model is designed to provide probabilistic estimates of tumor eradication through numerical simulations in which tunable parameters influencing CTL efficacy against a tumor nodule undergoing immunoediting are tested. Our model shows that the rate of CTL/tumor nodule productive collisions during the initial time of interaction determines the success of CTL in tumor eradication. It allows efficient cytotoxic function before the tumor cells acquire a substantial resistance to CTL attack, due to mutations stochastically occurring during cell division. Interestingly, a bias in CTL motility inducing a progressive attraction towards a few scout CTL, which have detected the nodule enhances early productive collisions and tumor eradication. Taken together, our results are compatible with a biased competition theory of CTL function in which CTL efficacy against a tumor nodule undergoing immunoediting is strongly dependent on guidance of CTL trajectories by scout siblings. They highlight unprecedented aspects of immune cell behavior that might inspire new CTL-based therapeutic strategies against tumors.
Replaces
C. Christophe, M. Rodrigues, Sabina Müller, Loïc Dupré, Patrick Cattiaux, Sébastien Gadat, and S. Valitutti, “A biased competition model of dynamical cytotoxic T lymphocytes/tumor nodule interaction”, TSE Working Paper, n. 14-539, November 2014.
Reference
Patrick Cattiaux, Claire Christophe, Loïc Dupré, Sébastien Gadat, Magda Rodrigues, and Salvatore Valitutti, “A biased competition model of dynamical cytotoxic T lymphocytes tumor nodule interaction”, Plos One, vol. 10, n. 3, March 27, 2015.
Published in
Plos One, vol. 10, n. 3, March 27, 2015