Abstract
The newly characterized interleukin (IL)-21 plays a central role in the transition from innate immunity to adaptive immunity and shows substantial tumor regression in mice. IL-21 is now developed as a cancer immunotherapeutic drug, but conditions for efficacious therapy, and the conflicting immunostimulatory and immunoinhibitory influence of the cytokine, are yet to be defined. We studied the effects of IL-21 on tumor eradication in a mathematical model focusing on natural killer (NK) cell-mediated and CD8+ T-cell-mediated lysis of tumor cells. Model parameters were estimated using results in tumor-bearing mice treated with IL-21 via cytokine gene therapy (CGT), hydrodynamics-based gene delivery (HGD), or standard interval dosing (SID). Our model accurately retrieved experimental growth dynamics in the nonimmunogenic B16 melanoma and the immunogenic MethA and MCA205 fibrosarcomas, showing a strong dependence of the NK-cell/CD8+ T-cell balance on tumor immunogenicity. Moreover, in melanoma, simulations of CGT-like dosing regimens, dynamically determined according to tumor mass changes, resulted in efficient disease elimination. In contrast, in fibrosarcoma, such a strategy was not superior to that of fixed dosing regimens, HGD or SID. Our model supports clinical use of IL-21 as a potent stimulator of cellular immunity against cancer, and suggests selecting the immunotherapy strategy according to tumor immunogenicity. Nonimmunogenic tumors, but not highly immunogenic tumors, should be controlled by IL-21 dosing, which depends on tumor mass at the time of administration. This method imitates, yet amplifies, the natural anticancer immune response rather than accelerates only one of the response arms in an unbalanced manner.
Highlights
Despite the existence of numerous pathways in anticancer immunity, malignant cells effortlessly escape immune surveillance
The model was evaluated by its robustness in retrieving experimental growth curves of tumors that differ in immunogenic pattern and under different IL-21 administration routes
Results show that parameters successfully recovering immunogenic fibrosarcoma are similar to those that recover nonimmunogenic melanoma, varying mildly in tumor-specific immunity only
Summary
Despite the existence of numerous pathways in anticancer immunity, malignant cells effortlessly escape immune surveillance. The late and insufficient immune responses to tumor challenge and the wide array of immune evasion strategies employed by cancerous cells enable an undisturbed disease progression [1]. It seems mandatory to analyze the IL-21 net immunotherapeutic power in different oncological scenarios before the establishment of an immunotherapeutic policy for this molecule Such analysis is enabled by biomathematically modeling IL-21 interactions with the involved immunologic and pathologic processes. Analysis of individual tumor growth patterns in xenografted human ovary carcinoma spheroids was possible by biomathematical modeling of complex angiogenesis-related processes [16] Another mathematical model describing detailed thrombopoiesis was employed for optimizing treatment strategies of thrombopoietin. These conflicting aims for different tumor dynamics and immunogenicity levels will be investigated in this work
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