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(American Journal of Pathology. 2005;167:1405-1410.)
© 2005 American Society for Investigative Pathology

Stromal Regulation of Neoplastic Development

Age-Dependent Normalization of Neoplastic Mammary Cells by Mammary Stroma

From the Department of Anatomy and Cellular Biology, Tufts University School of Medicine, Boston, Massachusetts

There is mounting evidence that the stroma plays a crucial role in mammary gland carcinogenesis. Here, we report that mammary gland stroma from mature and multiparous rats prevents neoplastic development and encourages normal ductal growth of grafted epithelial cancer cells. Fifty thousand epithelial cancer cells were injected into the cleared fat pads of virgin hosts at 24, 52, 80, and 150 days of age and of hosts that had undergone two cycles of pregnancy, lactation, and involution. Six months after inoculation, tumor incidence was 75%, 100%, 50%, and 18.2% in 24-, 52-, 80-, and 150-day-old virgin rats, respectively, and 0% in the twice-parous animals. Most remarkably, these neoplastic cells appeared to form normal ducts in all hosts—Ha-ras-1 mutation served as a marker to identify the tumor origin of the outgrowths. The tumor development pattern suggests a parallel to the phenomenon of age- and reproductive state-dependent susceptibility and resistance to chemical carcinogens. As susceptibility to carcinogenesis decreases, the ability of the stroma to reprogram neoplastic epithelial cells increases. Thus, the neoplastic phenotype is context-dependent, and it therefore offers the intriguing possibility that the process of carcinogenesis is amenable to normalization or cure once the mechanisms of stroma-mediated normalization are elucidated and manipulated.

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