posted on 2023-03-31, 04:45authored byRajendra Kumar, Janet Mendonca, Olutosin Owoyemi, Kavya Boyapati, Naiju Thomas, Suthicha Kanacharoen, Max Coffey, Deven Topiwala, Carolina Gomes, Busra Ozbek, Tracy Jones, Marc Rosen, Liang Dong, Sadie Wiens, W. Nathaniel Brennen, John T. Isaacs, Angelo M. De Marzo, Mark C. Markowski, Emmanuel S. Antonarakis, David Z. Qian, Kenneth J. Pienta, Drew M. Pardoll, Michael A. Carducci, Samuel R. Denmeade, Sushant K. Kachhap
Bioplex assay for measurement of chemokines
Funding
DOD grants
Allegheny Health Network-Johns Hopkins Cancer Research Fund
Shared Instrumentation grant
NCI
Office of the Director of the National Institutes of Health
History
ARTICLE ABSTRACT
The discovery that androgens play an important role in the progression of prostate cancer led to the development of androgen deprivation therapy (ADT) as a first line of treatment. However, paradoxical growth inhibition has been observed in a subset of prostate cancer upon administration of supraphysiologic levels of testosterone (SupraT), both experimentally and clinically. Here we report that SupraT activates cytoplasmic nucleic acid sensors and induces growth inhibition of SupraT-sensitive prostate cancer cells. This was initiated by the induction of two parallel autophagy-mediated processes, namely, ferritinophagy and nucleophagy. Consequently, autophagosomal DNA activated nucleic acid sensors converge on NFκB to drive immune signaling pathways. Chemokines and cytokines secreted by the tumor cells in response to SupraT resulted in increased migration of cytotoxic immune cells to tumor beds in xenograft models and patient tumors. Collectively, these findings indicate that SupraT may inhibit a subset of prostate cancer by activating nucleic acid sensors and downstream immune signaling.
This study demonstrates that supraphysiologic testosterone induces two parallel autophagy-mediated processes, ferritinophagy and nucleophagy, which then activate nucleic acid sensors to drive immune signaling pathways in prostate cancer.