Radiotherapy Augments the Immune Response to Prostate Cancer in a Time-dependent Manner

Overview

Journal Prostate

Date 2008 Jun 19

PMID 18561247

Citations 48

Authors

Timothy J Harris

Edward L Hipkiss

Scott Borzillary

Satoshi Wada

Joseph F Grosso

Hung-Rong Yen

Derese Getnet

Tullia C Bruno

Monica V Goldberg

Drew M Pardoll

Theodore L DeWeese

Charles G Drake

Affiliations

Soon will be listed here.

Abstract

Background: Cancer immunotherapy refers to an array of strategies intended to treat progressive tumors by augmenting a patient's anti-tumor immune response. As immunotherapy is eventually incorporated into oncology treatment paradigms, it is important to understand how these therapies interact with established cancer treatments such as chemotherapy or Radiotherapy (RT). To address this, we utilized a well-established, autochthonous murine model of prostate cancer to test whether RT could augment (or diminish) the CD4 T cell response to a tumor vaccine.

Methods: Transgenic mice that develop spontaneous prostate cancer (TRAMP) which also express a unique tumor associated antigen (Influenza hemagglutinin) under the control of a prostate-specific promoter were given local RT in combination with immunotherapy. The immunological outcome of this combinatorial strategy was assayed by monitoring the effector response of adoptively transferred, prostate-specific CD4 T cells.

Results: Neither RT nor immunotherapy alone was capable of priming an anti-tumor immune response in animals with evolving tumors. The combination of immunotherapy with RT resulted in anti-tumor T cell activation--this effect was profoundly dependent on the relative timing of RT and immunotherapy. Anti-tumor immune responses occurred when immunotherapy was administered 3-5 weeks post-RT, but such responses were undetectable when immunotherapy was administered either earlier (peri-radiotherapy) or later.

Conclusions: The therapeutic temporal window of immunotherapy post-RT suggests that highly aggressive, immuno-suppressive tumors might be most sensitive to immunotherapy in a fairly narrow time window; these results should help to guide future development of clinical combinatorial strategies.

Citing Articles

Potentiating Salvage Radiotherapy in Radiorecurrent Prostate Cancer Through Anti-CTLA4 Therapy: Implications from a Syngeneic Model.

Wang H, Gong L, Huang X, White S, Chung H, Vesprini D Cancers (Basel). 2024; 16(16).

PMID: 39199612 PMC: 11352774. DOI: 10.3390/cancers16162839.

Radiation dose, schedule, and novel systemic targets for radio-immunotherapy combinations.

Karapetyan L, Iheagwara U, Olson A, Chmura S, Skinner H, Luke J J Natl Cancer Inst. 2023; 115(11):1278-1293.

PMID: 37348864 PMC: 10637035. DOI: 10.1093/jnci/djad118.

Targeted Radiation and Immune Therapies-Advances and Opportunities for the Treatment of Prostate Cancer.

Muralidhar A, Potluri H, Jaiswal T, McNeel D Pharmaceutics. 2023; 15(1).

PMID: 36678880 PMC: 9863141. DOI: 10.3390/pharmaceutics15010252.

A Bayesian phase I/II design to determine subgroup-specific optimal dose for immunotherapy sequentially combined with radiotherapy.

Guo B, Zang Y, Lin L, Zhang R Pharm Stat. 2022; 22(1):143-161.

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Boosting the Immune Response-Combining Local and Immune Therapy for Prostate Cancer Treatment.

Karwacki J, Kielbik A, Szlasa W, Sauer N, Kowalczyk K, Krajewski W Cells. 2022; 11(18).

PMID: 36139368 PMC: 9496996. DOI: 10.3390/cells11182793.

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