AI Article Synopsis
- - The complexities of the tumor microenvironment (TME), particularly the role of regulatory T cells (Treg), complicate the effectiveness of cancer immunotherapies by allowing tumors to evade the immune system.
- - Researchers are exploring methods to inhibit Treg, which are important for immune balance but can hinder cancer treatment when present in tumors, using mechanistic mathematical models to simulate and predict outcomes of various therapies.
- - The review discusses various computational models that analyze Treg's impact on immunotherapy failure, highlights molecules associated with immune suppression in the TME, and presents potential new therapies targeting Treg for effective treatment combinations.
Article Abstract
The failure of immunotherapies in cancer patients is being widely studied due to the complexities present in the tumor microenvironment (TME), where regulatory T cells (Treg) appear to actively participate in providing an immune escape mechanism for tumors. Therefore, therapies to specifically inhibit tumor-infiltrating Treg represent a challenge, because Treg are distributed throughout the body and provide physiological immune homeostasis to prevent autoimmune diseases. Characterization of immunological and functional profiles could help to identify the mechanisms that need to be inhibited or activated to ensure Treg modulation in the tumor. To address this, quantitative in silico approaches based on mechanistic mathematical models integrating multi-scale information from immune and tumor cells and the effect of different therapies have allowed the building of computational frameworks to simulate different hypotheses, some of which have subsequently been experimentally validated. Therefore, this review presents a list of diverse computational mathematical models that examine the role of Treg as a crucial immune resistance mechanism contributing to the failure of immunotherapy. In addition, this review highlights the relevance of certain molecules expressed in Treg that are associated with the TME immunosuppression, which could be incorporated into the mathematical model for a better understanding of the contribution of Treg modulation. Finally, different preclinical and clinical combinations of molecules are also included to show the trend of new therapies targeting Treg.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11597491 | PMC |
| http://dx.doi.org/10.3390/pharmaceutics16111461 | DOI Listing |
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