Abstract
Epidemiologic studies associate cancer with obesity, but the pathophysiologic connections remain obscure. In this study, we show that obesity facilitates tumor growth in mice irrespective of concurrent diet, suggesting a direct effect of excess white adipose tissue (WAT). When transplanted into mice, adipose stromal cells (ASC) can serve as perivascular adipocyte progenitors that promote tumor growth, perhaps helping explain the obesity-cancer link. In developing this hypothesis, we showed that ASCs are expanded in obesity and that they traffic from endogenous WAT to tumors in several mouse models of cancer. Strikingly, a comparison of circulating and tumor-infiltrating cell populations in lean, and obese mice revealed that cancer induces a six-fold increase of ASC frequency in the systemic circulation. We obtained evidence that ASCs mobilized in this way can be recruited into tumors, where they can be incorporated into blood vessels as pericytes and they can differentiate into adipocytes in an obesity-dependent manner. Extending this evidence, we found that increased tumor vascularization (reflected by changes in tumor vascular morphology and a two-fold increase in vascular density) was associated with intratumoral adipocytes and elevated proliferation of neighboring malignant cells. Taken together, our results suggest that ASCs recruited from endogenous adipose tissue can be recruited by tumors to potentiate the supportive properties of the tumor microenvironment.
Highlights
Obesity involves abnormal accumulation of body fat
But not lean, body mass decreased in response to cancer (Supplementary Fig. S1B), indicating that weight loss was due to the reduction in white adipose tissue (WAT) amount
Human breast MDA-231 adenocarcinoma orthotopically xenografted into the mammary fat pad of RAG-1 mice grew faster in diet-induced obesity (DIO) mice, the effect was subtle, coincidentally with obesity being less pronounced in this strain (Supplementary Fig. S1C)
Summary
Obesity involves abnormal accumulation of body fat. As a result of a prolonged positive energy balance, adipocytes in white adipose tissue (WAT) accumulate lipid droplets, which have systemic repercussions. Accompanying dyslipidemia, insulin resistance, and other systemic metabolic changes are important long-term consequences of obesity [1, 2]. Epidemiology revealed that obesity, being a component of the metabolic syndrome, is associated with accelerated progression of several types of cancer [3, 4]. It has been proposed that WAT has a direct effect on tumor growth [6, 7]; convincing evidence has been lacking [8, 9]. WAT is a potent endocrine organ secreting adipokines, such as cytokines and growth factors [1, 10]. Insulin-like growth factors (IGF), and steroid hormones have been
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