Cancer therapy with immune checkpoint inhibitor and CSF-1 blockade: A mathematical model

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Abstract

Immune checkpoint inhibitors (ICIs) introduced in recent years have revolutionized the treatment of many metastatic cancers. However, data suggest that treatment has benefits only in a limited percentage of patients, and that this is due to immune suppression of the tumor microenvironment (TME). Anti-tumor inflammatory macrophages (M1), which are attracted to the TME, are converted by tumor secreted cytokines, such as CSF-1, to pro-tumor anti-inflammatory macrophages (M2), or tumor associated macrophages (TAMs), which block the anti-tumor T cells. In the present paper we develop a mathematical model that represents the interactions among the immune cells and cancer in terms of differential equations. The model can be used to assess treatments of combination therapy of anti-PD-1 with anti-CSF-1. Examples are given in comparing the efficacy among different strategies for anti-CSF-1 dosing in a setup of clinical trials.

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Siewe, N., & Friedman, A. (2023). Cancer therapy with immune checkpoint inhibitor and CSF-1 blockade: A mathematical model. Journal of Theoretical Biology, 556. https://doi.org/10.1016/j.jtbi.2022.111297

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