Abstract 2888: Metabolically activated macrophages in obesity associated TNBC

Abstract

Abstract Triple negative breast cancer (TNBC) accounts for about 20% of all breast cancers. TNBC patients have an extremely poor prognosis due to their high metastatic potential and lack of targeted drug therapies. Emerging epidemiological data suggest that obesity is strongly linked to the incidence and severity of TNBC; obese women have a 35% higher risk of developing TNBC and 46% higher risk of developing distant metastases. Thus, understanding the biological processes that link obesity and TNBC has important clinical applications for prognosis and treatment. Mechanisms by which obesity worsens TNBC prognosis are incompletely understood. One clue to its action is that obesity causes chronic inflammation, and macrophage infiltration into adipose tissue is a key mediator of this inflammation. Recent studies demonstrated that macrophages are enriched in breast adipose tissue of obese humans and mice. Moreover, depletion of macrophages in mice diminished the effects of obesity on TNBC growth and metastasis. Although anti-inflammatory ‘M2-like’ TAMs are key effector cells that promote tumorigenesis, it is well accepted that obesity stimulates macrophages to adopt a pro-inflammatory ‘M1-like’ state. However, M1 macrophages exhibit potent anti-tumor functions. From these discordant observations an important paradox emerges: How can obesity promote breast cancer if it elicits an M1, anti-tumor macrophage phenotype? Using a combination of proteomics, immunology, and cell biology, we recently identified a novel metabolically activated (MMe) macrophage phenotype produced by exposure to high levels of insulin, glucose, and palmitate, conditions characteristic of obese and diabetic patients. Here we show that gene expression patterns in MMe (but not M1) macrophages are strongly associated with pathways involved in breast cancer. Moreover, pre-treating BM1 cells with conditioned media derived from MMe macrophages promotes TNBC cell invasion by 2.3 fold, suggesting that MMe macrophages potentiate metastasis. We further show that breast adipose tissue macrophages isolated from obese women express cell surface markers of MMe (CD36, ABCA1), but not M1 (CD38, CD319, CD274), macrophages. Furthermore, treating naïve macrophages with media conditioned by human mammary adipose tissue from an obese subject (BMI = 37), but not a lean subject (BMI = 19), induced genes diagnostic of the MMe phenotype. Thus, mammary adipose tissue from obese women supports metabolic activation of macrophages. Together, these observations suggest that obesity-induced changes to adipose tissue reprogram macrophages to an MMe phenotype that potentiates TNBC. A comprehensive understanding of signaling mechanisms involved in metabolic activation would enable development of directed therapies towards this specific pro-tumorigenic macrophage phenotype, thereby leaving the immune system of cancer patients intact. Citation Format: Payal Tiwari, Kelly Schoenfelt, Swati Kulkarni, Marsha Rosner, Lev Becker. Metabolically activated macrophages in obesity associated TNBC. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2888. doi:10.1158/1538-7445.AM2015-2888