Actinium-225 dendrimer-radioconjugates combined with low-dose standard-of-care chemotherapy: site-independent treatment of triple negative breast cancer metastases

  1. Pooja Hariharan
  2. Rajiv Nair
  3. Aira Sarkar
  4. Kathleen L. Gabrielson
  5. Tony Wu
  6. Chang Liu
  7. Wathsala Liyanage
  8. Rangaramanujam M Kannan
  9. Stavroula Sofou
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Abstract

PURPOSE

Metastatic triple negative breast cancer (mTNBC) is incurable largely due to the development of drug resistance, the lack of selective cell targeting, and/or limitations in tumor drug delivery that vary depending on the different (metastatic) tumor locations.

METHODS

The potential of a single type of systemic, targeted alpha-particle therapy (TAT) was investigated for addressing the above challenges of TNBC tumors implanted at different anatomic sites in mice. Actinium-225 dendrimer-radioconjugates alone, and/or after pretreatment with low-dose standard-of-care cisplatin, were assessed in vitro and on immune-competent 4T1-Balb/c mouse models with tumors implanted intracranially, orthotopically or subcutaneously.

RESULTS

In vitro, TAT’s efficacy was enhanced by cisplatin. In vivo, treatment was initiated well after tumors had grown (Vto = 39 ± 14 mm3 in the intracranial model, and Vto=100mm3 in the orthotopic and subcutaneous models). Across all tumor implantation sites, a unified correlation was observed between animal mean survival and the dendrimer-delivered tumor absorbed doses, which were selectively increased by low-dose cisplatin pretreatment. Importantly, in all animal models, the mean survival following systemic treatment with both modalities was significantly longer vs. each modality alone and/or vs. no treatment, at injected doses that did not cause long-term (10-month) toxicities in tumor-free mice.

CONCLUSION

Systemically-injected dendrimer-delivered TAT, combined with low-dose cisplatin pretreatment, can safely extend survival independent of mTNBC tumors’ anatomic site, potentially presenting a single type of therapy to simultaneously treat multi-site mTNBC.

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