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Mount Sinai researchers have discovered a previously unknown mechanism in which not-yet-malignant cells from early breast cancer tumors travel to other organs and, eventually, "turn on" and become metastatic breast cancer.

The researchers, who reported in Cancer Research in April, health benefits of folic acid skin also showed the ability of the transcription factor NR2F1, a protein that controls a gene's outward expression, to block the pre-malignant cells from ever disseminating, which could be a crucial diagnostic tool to predict relapse.

The current challenge for the management of treatment of early-stage breast cancer patients (for instance, patients who have non-invasive lesions such as ductal carcinoma in situ), is that even though local invasive recurrences are reduced after surgery or surgery with radiation, the risk of dying from breast cancer remains the same. This suggests that before detection and removal of the invasive tumor mass, some pre-malignant cells disseminated and lodged at other sites, waiting for later reactivation. The identification of an 'early dissemination signature' in the breast tissue that could identify patients at risk of developing later relapses, who are therefore candidates for systemic therapy, is crucial to reduce mortality in these patients."

Maria Soledad Sosa, PhD, Study's Lead Author, Assistant Professor of Pharmacological Sciences, and Oncological Sciences, at The Tisch Cancer Institute at Mount Sinai

A small but significant percentage of women with early-stage breast cancer never progress into an invasive breast tumor, which is the expected course of metastatic breast cancer. Instead, they die after their pre-malignant lesion reoccurs only in other organs, essentially becoming an unexpected, silent killer. Until this study, the mechanism by which pre-malignant cancer cells acquire mobile and invasive features that allow dissemination and colonization in other organs was not clearly understood.

Researchers used animal models and pre-malignant breast cancer cells from patients, 3D cultures, and high-resolution microscopy to investigate how these pre-malignant cells disseminate. The authors found that the pre-malignant cells downregulated the levels of NR2F1, which helped prompt dissemination along with the upregulation of PRRX1, a master regulator of invasive phenotype.

The authors were able to find pre-malignant cells that simultaneously expressed low levels of NR2F1 and high levels of PRRX1 in patients' ductal carcinoma in situ tissues, making them a specific pre-malignant subpopulation with potential to disseminate. The clinical significance of this inverse ratio between NR2F1 and PRRX1 needs to be determined within a larger number of human samples and with follow-up studies on overall survival and metastasis-free survival.

Funding for this research included a Susan G. Komen Breast Cancer Foundation Career Catalyst Research Grant and a Breast Cancer Alliance Young Investigator Grant.

Source:

Mount Sinai Health System

Journal reference:

Rodriguez-Tirado, C., et al. (2022) NR2F1 is a barrier to dissemination of early stage breast cancer cells. Cancer Research. doi.org/10.1158/0008-5472.CAN-21-4145.

Posted in: Medical Science News | Medical Research News | Women's Health News

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