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Implementing subtype-specific pre-clinical models of breast cancer to study pre-treatment aspirin effects
YesBackgorund
Prior data suggest pre-diagnostic aspirin use impacts breast tumour biology and patient outcome. Here, we employed faithful surgical resection models of HER2+ and triple-negative breast cancer (TNBC), to study outcome and response mechanisms across breast cancer subtypes.
Method
NOD/SCID mice were implanted with HER2+ MDA-MB-231/LN/2-4/H2N, trastuzumab-resistant HER2+ HCC1954 or a TNBC patient-derived xenograft (PDX). A daily low-dose aspirin regimen commenced until primary tumours reached ~250âmm3 and subsequently resected. MDA-MB-231/LN/2-4/H2N mice were monitored for metastasis utilising imaging. To interrogate the survival benefit of pre-treatment aspirin, 3âweeks post-resection, HCC1954/TNBC animals received standard-of-care (SOC) chemotherapy for 6âweeks. Primary tumour response to aspirin was interrogated using immunohistochemistry.
Results
Aspirin delayed time to metastasis in MDA-MB-231/LN/2-4/H2N xenografts and decreased growth of HER2+/TNBC primary tumours. Lymphangiogenic factors and lymph vessels number were decreased in HER2+ tumours. However, no survival benefit was seen in aspirin pre-treated animals (HCC1954/TNBC) that further received adjuvant SOC, compared with animals treated with SOC alone. In an effort to study mechanisms responsible for the observed reduction in lymphangiogenesis in HER2+ BC we utilised an in vitro co-culture system of HCC1954 tumour cells and mesenchymal stromal cells (MSC). Aspirin abrogated the secretion of VEGF-C in MSCs and also decreased the lymph/angiogenic potential of the MSCs and HCC1954 by tubule formation assay. Furthermore, aspirin decreased the secretion of uPA in HCC1954 cells potentially diminishing its metastatic capability.
Conclusion
Our data employing clinically relevant models demonstrate that aspirin alters breast tumour biology. However, aspirin may not represent a robust chemo-preventative agent in the HER2+ or TNBC setting.Funding is acknowledged from the Irish Cancer Society Collaborative Cancer Research Centre under BREAST- PREDICT grant CCRC13GAL (www.breas tpred ict.com). I.S.M, E.M and A.T.B, are members of the EurOPDX Consortium, and receive funding from the European Union's Horizon 2020 research and innovation programme, grant agreement no. #731105 (EurOPDX Research Infrastructure, www.europ dx.eu)
The multiple personality disorder phenotype(s) of circulating endothelial cells in cancer
Circulating endothelial cells (CECs) and circulating endothelial progenitors (CEPs) are currently being investigated in a variety of diseases as markers of vascular turnover or damage and, also in the case of CEPs, vasculogenesis. CEPs appear to have a "catalytic" role in different steps of cancer progression and recurrence after therapy, and there are preclinical and clinical data suggesting that CEC enumeration might be useful to select and stratify patients who are candidates for anti-angiogenic treatments. In some types of cancer, CECs and CEPs might be one of the possible hidden identities of cancer stem cells. The definition of CEC and CEP phenotype and the standardization of CEC and CEP enumeration strategies are highly desirable goals in order to exploit these cells as reliable biomarkers in oncology clinical trials