PLoS ONE (Jan 2019)

Pharmacodynamic study of radium-223 in men with bone metastatic castration resistant prostate cancer.

  • Andrew J Armstrong,
  • Santosh Gupta,
  • Patrick Healy,
  • Gabor Kemeny,
  • Beth Leith,
  • Michael R Zalutsky,
  • Charles Spritzer,
  • Catrin Davies,
  • Colin Rothwell,
  • Kathryn Ware,
  • Jason A Somarelli,
  • Kris Wood,
  • Thomas Ribar,
  • Paraskevi Giannakakou,
  • Jiaren Zhang,
  • Drew Gerber,
  • Monika Anand,
  • Wen-Chi Foo,
  • Susan Halabi,
  • Simon G Gregory,
  • Daniel J George

DOI
https://doi.org/10.1371/journal.pone.0216934
Journal volume & issue
Vol. 14, no. 5
p. e0216934

Abstract

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BackgroundRadium-223 is a targeted alpha-particle therapy that improves survival in men with metastatic castration resistant prostate cancer (mCRPC), particularly in men with elevated serum levels of bone alkaline phosphatase (B-ALP). We hypothesized that osteomimicry, a form of epithelial plasticity leading to an osteoblastic phenotype, may contribute to intralesional deposition of radium-223 and subsequent irradiation of the tumor microenvironment.MethodsWe conducted a pharmacodynamic study (NCT02204943) of radium-223 in men with bone mCRPC. Prior to and three and six months after radium-223 treatment initiation, we collected CTCs and metastatic biopsies for phenotypic characterization and CTC genomic analysis. The primary objective was to describe the impact of radium-223 on the prevalence of CTC B-ALP over time. We measured radium-223 decay products in tumor and surrounding normal bone during treatment. We validated genomic findings in a separate independent study of men with bone metastatic mCRPC (n = 45) and publicly accessible data of metastatic CRPC tissues.ResultsWe enrolled 20 men with symptomatic bone predominant mCRPC and treated with radium-223. We observed greater radium-223 radioactivity levels in metastatic bone tumor containing biopsies compared with adjacent normal bone. We found evidence of persistent Cellsearch CTCs and B-ALP (+) CTCs in the majority of men over time during radium-223 therapy despite serum B-ALP normalization. We identified genomic gains in osteoblast mimicry genes including gains of ALPL, osteopontin, SPARC, OB-cadherin and loss of RUNX2, and validated genomic alterations or increased expression at the DNA and RNA level in an independent cohort of 45 men with bone-metastatic CRPC and in 150 metastatic biopsies from men with mCRPC.ConclusionsOsteomimicry may contribute in part to the uptake of radium-223 within bone metastases and may thereby enhance the therapeutic benefit of this bone targeting radiotherapy.