AI Article Synopsis
- The use of cytokine therapies for cancer treatment is limited due to severe side effects and low effectiveness.
- By fusing cytokines with the collagen-binding protein lumican and administering them directly into tumors, this method enhances local retention of the cytokines and reduces their spread throughout the body.
- This combined approach with systemic immunotherapies not only improves treatment outcomes without increasing toxicity but also generates a protective immune response that can target other untreated tumors.
Article Abstract
The clinical application of cytokine therapies for cancer treatment remains limited due to severe adverse reactions and insufficient therapeutic effects. Although cytokine localization by intratumoral administration could address both issues, the rapid escape of soluble cytokines from the tumor invariably subverts this effort. We find that intratumoral administration of a cytokine fused to the collagen-binding protein lumican prolongs local retention and markedly reduces systemic exposure. Combining local administration of lumican-cytokine fusions with systemic immunotherapies (tumor-targeting antibody, checkpoint blockade, cancer vaccine, or T cell therapy) improves efficacy without exacerbating toxicity in syngeneic tumor models and the / genetically engineered melanoma model. Curative abscopal effects on noncytokine-injected tumors were also observed as a result of a protective and systemic CD8 T cell response primed by local therapy. Cytokine collagen-anchoring constitutes a facile, tumor-agnostic strategy to safely potentiate otherwise marginally effective systemic immunotherapies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7811803 | PMC |
| http://dx.doi.org/10.1126/scitranslmed.aaw2614 | DOI Listing |
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