AI Article Synopsis
- Metastatic disease, a major cause of death in advanced breast cancer, involves tumor cells spreading from their original site to distant organs, highlighting the importance of studying these processes.
- Researchers have developed a new murine breast tumor cell line, NT2.5-LM, that shows a much faster spread of metastases after implantation, making it a valuable tool for understanding cancer progression and treatment.
- The NT2.5-LM cell line displays characteristics of enhanced metastatic potential, responds well to HER2-targeted therapies, and offers advantages over previous models, enabling better exploration of therapeutic strategies and mechanisms of metastasis.
Article Abstract
Metastatic disease results from the dissemination of tumor cells beyond their organ of origin to grow in distant organs and is the primary cause of death in patients with advanced breast cancer. Preclinical murine models in which primary tumors spontaneously metastasize are valuable tools for studying metastatic progression and novel cancer treatment combinations. Here, we characterize a novel syngeneic murine breast tumor cell line that provides a model of spontaneously metastatic neu-expressing breast cancer with quicker onset of widespread metastases after orthotopic mammary implantation in immune-competent NeuN mice. The NT2.5-lung metastasis (-LM) cell line was derived from serial passaging of tumor cells that were macro-dissected from spontaneous lung metastases after orthotopic mammary implantation of parental NT2.5 cells. Within one week of NT2.5-LM implantation, metastases are observed in the lungs. Within four weeks, metastases are also observed in the bones, spleen, colon, and liver. We demonstrate that NT2.5-LM metastases are positive for NeuN-the murine equivalent of human epidermal growth factor 2 (HER2). We further demonstrate altered expression of markers of epithelial-to-mesenchymal transition (EMT), suggestive of their enhanced metastatic potential. Genomic analyses support these findings and reveal enrichment in EMT-regulating pathways. In addition, the metastases are rapidly growing, proliferative, and responsive to HER2-directed therapy. The new NT2.5-LM model provides certain advantages over the parental NT2/NT2.5 model, given its more rapid and spontaneous development of metastases. Besides investigating mechanisms of metastatic progression, this new model may be used for the rationalized development of novel therapeutic interventions and assessment of therapeutic responses.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11499368 | PMC |
| http://dx.doi.org/10.1007/s10585-024-10289-z | DOI Listing |
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