Abstract

Abstract Obesity strongly increases risk for multiple malignancies. One potential contributor may be the chronic low-grade inflammation that is likely driven by dysfunctional adipose characterized by aberrant adipokine production and macrophage activation/polarization. In adipose tissue, free fatty acids and their lipid mediators serve as important regulators of adipokine gene transcription. The adipocyte fatty acid composition is influenced by dietary availability. Here we present data demonstrating that dietary fish oil supplementation in obese rats (achieving a 2.5:1 ω6:ω3 PUFA ratio, comparable to a Mediterranean diet) attenuates adipose inflammation characterized reduction in the M1/M2 macrophage polarization ratio compared to a typical Western diet with a 20:1 ω6:ω3 PUFA ratio. We developed a novel adipose explant culture system to directly assay the secretome, and demonstrate that quenching adipose inflammation in obese animals is associated with a favorably rebalanced adipokine milieu, most notably increased adiponectin concentration and decreased leptin secretion. We previously showed that these two adipokines differentially modulate mammary stem cell self-renewal; here, we studied the effect of adipose conditioned media from obese rats on mammary stem cells using the mammosphere formation assay. Adipokines from obese rats fed the high-ω6 diet increased mammary stem cell symmetric self-renewal by 86.7 ± 7.5% (± SEM), whereas adipose-derived factors from the obese animals fed a low-ω6 diet supplemented with fish oil reduced the number of secondary mammospheres by 30.3 ± 10.1% by promoting either apoptosis, quiescence, or symmetric division-differentiation of the primary stem cells. Using a neutralizing antibody and a soluble receptor, we demonstrate that leptin contributes only 19% of the adipose-derived effect on mammary stem cell self-renewal. Taken together, our data suggests that a simple dietary intervention to modify the dietary PUFA ratio is an effective method to quench adipose inflammation and rebalance the adipokine milieu, which may modulate the mammary stem cell pool. If normal stem cells can give rise to breast cancer as has been theorized, then dietary interventions to quench adipose inflammation and reduce the rate of symmetric stem cell self-renewal might protect against the increased incidence of breast cancer seen in obese post-menopausal women. Citation Format: Raymond M. Esper, Evan Hill, Yan Jiang, Nadeem Aslam, Becky Simon, Max Wicha, William Smith, Dean E. Brenner. Dietary polyunsaturated fatty acids modulate adipose inflammation and the adipokine secretome to influence mammary stem cell self-renewal. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2608.

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