JBMR Plus
(Apr 2021)
EphA2 Is a Clinically Relevant Target for Breast Cancer Bone Metastatic Disease
- David B Vaught,
- Alyssa R Merkel,
- Conor C Lynch,
- James Edwards,
- Mohammed Noor Tantawy,
- Timothy Hilliard,
- Shan Wang,
- Todd Peterson,
- Rachelle W Johnson,
- Julie A Sterling,
- Dana Brantley‐Sieders
Affiliations
- David B Vaught
- Department of Cancer Biology Vanderbilt University School of Medicine Nashville TN USA
- Alyssa R Merkel
- Vanderbilt Center for Bone Biology Vanderbilt University School of Medicine Nashville TN USA
- Conor C Lynch
- Department of Tumor Biology H. Lee Moffitt Cancer Center Tampa FL USA
- James Edwards
- Botnar Research Centre University of Oxford Oxford UK
- Mohammed Noor Tantawy
- Radiology and Vanderbilt Institute of Imaging Sciences Vanderbilt University School of Medicine Nashville TN USA
- Timothy Hilliard
- Radiology and Vanderbilt Institute of Imaging Sciences Vanderbilt University School of Medicine Nashville TN USA
- Shan Wang
- Department of Medicine, Division of Rheumatology and Immunology Vanderbilt University School of Medicine Nashville TN USA
- Todd Peterson
- Radiology and Vanderbilt Institute of Imaging Sciences Vanderbilt University School of Medicine Nashville TN USA
- Rachelle W Johnson
- Vanderbilt Center for Bone Biology Vanderbilt University School of Medicine Nashville TN USA
- Julie A Sterling
- Vanderbilt Center for Bone Biology Vanderbilt University School of Medicine Nashville TN USA
- Dana Brantley‐Sieders
- Vanderbilt‐Ingram Cancer Center Vanderbilt University School of Medicine Nashville TN USA
- DOI
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https://doi.org/10.1002/jbm4.10465
- Journal volume & issue
-
Vol. 5,
no. 4
pp.
n/a
– n/a
Abstract
Read online
ABSTRACT EphA2 receptor tyrosine kinase (RTK) is highly expressed in breast tumor cells across multiple molecular subtypes and correlates with poor patient prognosis. In this study, the potential role of EphA2 in this clinically relevant phenomenon is investigated as metastasis of breast cancer to bone is a major cause of morbidity and mortality in patients. It was found that the EphA2 function in breast cancer cells promotes osteoclast activation and the development of osteolytic bone disease. Blocking EphA2 function molecularly and pharmacologically in breast tumors reduced the number and size of bone lesions and the degree of osteolytic disease in intratibial and intracardiac mouse models, which correlated with a significant decrease in the number of osteoclasts at the tumor–bone interface. EphA2 loss of function in tumor cells impaired osteoclast progenitor differentiation in coculture, which is mediated, at least in part, by reduced expression of IL‐6. EPHA2 transcript levels are enriched in human breast cancer bone metastatic lesions relative to visceral metastatic sites; EphA2 protein expression was detected in breast tumor cells in bone metastases in patient samples, supporting the clinical relevance of the study's findings. These data provide a strong rationale for the development and application of molecularly targeted therapies against EphA2 for the treatment of breast cancer bone metastatic disease. © 2021 The Authors. JBMR Plus published by Wiley Periodicals LLC. on behalf of American Society for Bone and Mineral Research.
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