APA
Perisé Barrios, Ana Judith & Morales Molina, Alvaro & Rodríguez Milla, Miguel Ángel & Gimenez Sanchez, Alicia & García Castro, Javier .Cellular Virotherapy Increases Tumor-Infiltrating Lymphocytes (TIL) and Decreases their PD-1+ Subsets in Mouse Immunocompetent Models.
ISO 690
Perisé Barrios, Ana Judith & Morales Molina, Alvaro & Rodríguez Milla, Miguel Ángel & Gimenez Sanchez, Alicia & García Castro, Javier. Cellular Virotherapy Increases Tumor-Infiltrating Lymphocytes (TIL) and Decreases their PD-1+ Subsets in Mouse Immunocompetent Models.
https://hdl.handle.net/20.500.12080/24064
Abstract:
Oncolytic virotherapy uses viruses designed to selectively replicate in cancer cells.
An alternative to intratumoral administration is to use mesenchymal stem cells (MSCs) to transport
the oncolytic viruses to the tumor site. Following this strategy, our group has already applied this
treatment to children and adults in a human clinical trial and a veterinary trial, with good clinical
responses and excellent safety profiles. However, the development of immunocompetent cancer
mouse models is still necessary for the study and improvement of oncolytic viroimmunotherapies.
Here we have studied the antitumor efficacy, immune response, and mechanism of action of a
complete murine version of our cellular virotherapy in mouse models of renal adenocarcinoma
and melanoma. We used mouse MSCs infected with the mouse oncolytic adenovirus dlE102
(OAd-MSCs). In both models, treatment with OAd-MSCs significantly reduced tumor volumes by
50% and induced a pro-inflammatory tumor microenvironment. Furthermore, treated mice harboring
renal adenocarcinoma and melanoma tumors presented increased infiltration of tumor-associated
macrophages (TAMs), natural killer cells, and tumor-infiltrating lymphocytes (TILs). Treated mice also
presented lower percentage of TILs expressing programmed cell death protein 1 (PD-1)¿the major
regulator of T cell exhaustion. In conclusion, treatment with OAd-MSCs significantly reduced tumor
volume and induced changes in tumor-infiltrating populations of melanoma and renal cancer