AI Article Synopsis
- Adoptive cell therapies (ACT) are effective for blood cancers but face challenges with solid tumors due to their immune microenvironments, which are often suppressive.
- Cryo-thermal therapy (CTT) can trigger inflammation and modify the immune environment, potentially enhancing the effectiveness of ACT, but its actual impact was previously unknown.
- In studies using mouse models, CTT was shown to significantly improve the immune response in tumors, leading to increased T cell activity and better outcomes when combined with ACT, effectively transforming "cold tumors" into "hot tumors."
Article Abstract
Background: Adoptive cell therapies (ACT) exhibit excellent efficacy in hematological malignancy. However, its application in solid tumors still has many challenges partly due to the tumor immune microenvironment. Cryo-thermal therapy (CTT) can induce an acute inflammatory response and remold the immune environment, providing an appropriate environment for the activation of adaptive immunity. However, it remains unclear whether CTT can enhance the efficacy of ACT.
Methods: A bilateral B16F10 tumor-bearing mouse model was used to assess whether CTT could enhance the efficacy of ACT. The right large tumor was subjected to CTT, and the left small tumor was collected for flow cytometry, RNA-seq, immunohistochemistry and TCR Vβ sequencing. Finally, bilateral B16F10 tumor-bearing mice and 4T1 tumor-bearing mice were used to assess the efficacy after CTT combined with ACT.
Results: CTT dramatically reshaped the immune microenvironment in distal tumors to an acute inflammatory state by promoting innate cell infiltration, increasing cytokine production by macrophages and DCs. The remodeling of the tumor immune microenvironment further enhanced the antitumor efficiency of ACT by increasing the proliferation of T cells, promoting activation of the effector functions of T cells and boosting the expansion of TCR clones.
Conclusions: Our results suggest that CTT can significantly reshape the tumor immunosuppressive microenvironment and convert "cold tumors" into "hot tumors," thereby enhancing ACT-induced immune responses and maximizing the therapeutic effect of ACT.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11561218 | PMC |
| http://dx.doi.org/10.1007/s00262-024-03884-2 | DOI Listing |
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