PT - JOURNAL ARTICLE AU - Eduardo D. Sontag TI - Two-zone tumor tolerance can arise from a simple immunological feedforward motif that estimates tumor growth rates AID - 10.1101/095455 DP - 2016 Jan 01 TA - bioRxiv PG - 095455 4099 - http://biorxiv.org/content/early/2016/12/20/095455.short 4100 - http://biorxiv.org/content/early/2016/12/20/095455.full AB - Since the early 1990s, many authors have independently suggested that self/nonself recognition by the immune system might be modulated by the rates of change of antigen challenges. This paper introduces an extremely simple and purely conceptual mathematical model that allows dynamic discrimination of immune challenges. The main component of the model is a motif which is ubiquitous in systems biology, the incoherent feedforward loop, which endows the system with the capability to estimate exponential growth exponents, a prediction which is consistent with experimental work showing that exponentially increasing antigen stimulation is a determinant of immune reactivity. Combined with a bistable system and a simple feedback repression mechanism, an interesting phenomenon emerges as a tumor growth rate increases: elimination, tolerance (tumor growth), again elimination, and finally a second zone of tolerance (tumor escape). This prediction from our model is analogous to the “two-zone tumor tolerance” phenomenon experimentally validated since the mid 1970s. Moreover, we provide a plausible biological instantiation of our circuit using combinations of regulatory and effector T cells.