Tumor cell intrinsic androgen biosynthesis by 3β-hydroxy steroid dehydrogenase (HSD3B1) to modulate radiosensitivity in prostate cancer cells.

Abstract

349 Background: Resistance to ADT is associated with a gain of function mutation in the 3β-HSD enzyme, which catalyzes extragonadal/intratumoral DHT synthesis. As androgen signaling is known to upregulate the DNA damage response (DDR), we investigated whether HSD3B1 genotype modulates DDR and radiosensitivity in PCa. Methods: We stably knocked down HSD3B1 in LNCaP, C42 and VCaP cell lines (which carry the protein stabilizing variant allele) and overexpressed the variant HSD3B1 allele in LAPC4 (harbors a WT allele which readily undergoes degradation). We examined the proliferative and clonogenic capacity of these cells in presence and absence of substrate, DHEA, followed by treatment with IR (400-800 cGy, single fraction). We studied DNA DSB formation and resolution kinetics using γH2AX foci formation in response to radiation. We also measured changes in mRNA expression of DDR response genes pre- and post-radiation. Results: Control shRNA transduced cell lines had increased cell proliferation (p<0.001) and clonogenic survival (2 logs at 800cGy single fraction radiation, p<0.001) in the presence of DHEA compared to HSD3B1 knockdown cells. Variant HSD3B1 cell lines were more radioresistant and exhibited more efficient γH2AX foci resolution at 24 hrs (p <0.05) in a DHEA dependent manner. We observe increased mRNA expression of DDR genes from specific repair networks including non-homologous end joining (PRKDC, XRCC4, XRCC5) and homologous recombination (RAD51, RAD54) in variant HSD3B1 cells. Transcriptional induction of DDR genes following radiation in presence of DHEA was significantly more pronounced in HSD3B1 variant cells, suggesting a more permissive chromatin context. Conclusions: Increased intracellular 3β-HSD drives transcription of NHEJ and HR genes, more rapid resolution of γH2AX foci, and radioresistance in prostate cancer. This work has therapeutic implications related to strategies for combined radiation and androgen directed therapy in localized and metastatic prostate cancer. Prospective validation of treatment strategies combining blockade of adrenal steroid precursor synthesis, ADT, and XRT in high risk disease is warranted.