Background and objective: Breast cancer is the most prevalent cancer worldwide, responsible for a large number of deaths, especially among women. Therapeutic options for breast cancer include surgery, radiotherapy, chemotherapy, hormone therapy, and immunotherapy, but further studies of the pathogenesis of this disease and new treatments are still needed. In vitro and in vivo cancer models are important research tools. Murine Ehrlich tumors are one of these models, especially for hormone-positive breast cancer. The present narrative review discusses characteristics of the Ehrlich tumor model, laboratory manipulations of Ehrlich cells (ECs), and applications in pharmacological, pathological, and translational studies.
Methods: This review was based on scientific articles, books, and theses on Ehrlich tumors. We searched the PubMed, SciELO, Google Scholar, Google, and Clarivate databases.
Key content and findings: Hormone-positive ECs produce solid Ehrlich carcinoma (SEC) and ascitic Ehrlich carcinoma (AEC), with different features and applications. The presence of SEC or AEC induces systemic and immunological alterations that are similar to cancer in humans, what makes this model applicable to different studies in the cancer field.
Conclusions: Ehrlich tumors are a relevant tool for improving our understanding of the pathogenesis of breast cancer and investigating the tumor microenvironment, side effects of therapies, and new treatment options. Despite some limitations, such as the absence of an invasive phenotype to produce metastasis, both SEC and AEC are relevant in preclinical and translational studies of breast cancer.
Keywords: Tumor animal model; breast cancer; cell manipulation; preclinical studies; translational studies.
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