Expression of the Androgen Receptor Governs Radiation Resistance in a Subset of Glioblastomas Vulnerable to Antiandrogen Therapy.
Christian K WernerUchechi J NnaHanshi SunKari Wilder-RomansJoseph DresserAyesha U KothariWeihua ZhouYangyang YaoArvind RaoStefanie StallardCarl KoschmannTarik BorWaldemar DebinskiAlexander M HegedusMeredith A MorganSriram VennetiEdwina Baskin-BeyDaniel E SprattHoward ColmanJann N SarkariaArul M ChinnaiyanJoel R EisnerCorey W SpeersTheodore S LawrenceRoy E StrowdDaniel R WahlPublished in: Molecular cancer therapeutics (2020)
New approaches are needed to overcome intrinsic therapy resistance in glioblastoma (GBM). Because GBMs exhibit sexual dimorphism and are reported to express steroid hormone receptors, we reasoned that signaling through the androgen receptor (AR) could mediate therapy resistance in GBM, much as it does in AR-positive prostate and breast cancers. We found that nearly half of GBM cell lines, patient-derived xenografts (PDX), and human tumors expressed AR at the transcript and protein level-with expression levels overlapping those of primary prostate cancer. Analysis of gene expression datasets also revealed that AR expression is higher in GBM patient samples than normal brain tissue. Multiple clinical-grade antiandrogens slowed the growth of and radiosensitized AR-positive GBM cell lines and PDXs in vitro and in vivo Antiandrogens blocked the ability of AR-positive GBM PDXs to engage adaptive transcriptional programs following radiation and slowed the repair of radiation-induced DNA damage. These results suggest that combining blood-brain barrier permeable antiandrogens with radiation may have promise for patients with AR-positive GBMs.