Abstract

Obesity is associated with increased risk of breast and other cancers. However, the complexity of the underlying mechanisms, together with the interplay of diet and physical activity—contributing to energy balance—and the role of adipose tissue, pose challenges to our understanding of the basis of this increased risk. Epidemiologic studies have documented a higher obesity prevalence in US black women compared to white women. Elucidation of the contribution of potential biological differences among racially distinct groups to their differences in breast cancer (BC) risk and mortality have been topics of considerable interest in recent years. The racial and ethnic variation in body fat distribution may account for at least part of the differences in breast cancer rates in these populations. Yet, while black women exhibit higher rates of obesity compared to white women, this does not translate directly into higher rates of BC. In fact, overall, BC in black women occurs with a lower incidence than BC in white women. Obesity is a known risk factor for postmenopausal breast cancer, and growing evidence suggests that abdominal obesity, also known as central obesity, may increase risk for triple negative breast cancer, which is more common in premenopausal women. The positive association of postmenopausal BC risk and specifically estrogen receptor (ER)-positive BC, is presumably due largely to accumulation of estrogen in the adipose tissue of the breast and other tissues. Of the two main types of adipose tissue—subcutaneous and visceral—visceral adipocytes are more active metabolically. Such adipose tissue harbors multiple molecular entities that promote carcinogenesis: endocrine molecules/hormones, immunologic factors, inflammatory cytokines, metabolic alterations, and other components of the microenvironment. Expression of these culpable entities is largely regulated by epigenetic mechanisms. The interrelationship between these entities and drivers of epigenetic alteration are critical to the regulation of pathways connecting obesity and cancer risk. Initiatives to counteract the carcinogenic effects of obesity have primarily involved modulation of energy balance by diet. However, targeting of specific molecular abnormalities characterizing adiposity offers an alternative approach to preventing cancer. Our goal in this review is to first discuss the major mechanisms contributing to the obesity-breast cancer link. We will also consider race, specifically black/white differences, as they relate to the association of obesity with breast cancer risk. Then we will enumerate strategies targeting these mechanisms to reduce BC risk, in large part by way of dietary interventions with potential to mitigate the cancer-promoting components of adiposity.

Highlights

  • Obesity, a state of increased adiposity, is categorized according to body mass index (BMI) as having a BMI >30 kg/m2 [1, 2] and is considered a chronic disease [3]

  • This study reported that women who lost weight (> 5% of body weight) compared to women with stable weight had a significantly lower breast cancer risk (HR, 0.88, 95% CI, 0.78–0.98)

  • Another study revealed that weight loss at 6 months was significantly associated with reductions in fasting insulin and HOMA concentrations, which remained significantly lower than baseline at 12 months, even after weight regain for women assigned to the diet group [124]

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Summary

INTRODUCTION

A state of increased adiposity, is categorized according to body mass index (BMI) as having a BMI >30 kg/m2 [1, 2] and is considered a chronic disease [3]. Pierobon and Frankenfeld [24] demonstrated in a systematic review and meta-analysis that a significant association existed between TNBC and obesity, but when stratified by menopausal status the results were significant only among premenopausal women These obesity-breast cancer associations can be addressed in relation to race or ethnicity. Higher recent BMI (> 35 kg/m2) was associated with ER+ breast cancer and decreased risk of TNBC. This increased risk of TNBC in association with obesity applies to both pre- and postmenopausal black women [29], the risk is highest in premenopausal women [22, 29]. The indirect link via their mutual association with obesity emphasizes the importance of such investigations, especially in light of the current epidemic of obesity [31]

Obesity Prevention and Breast Cancer Risk
MECHANISTIC BASIS OF OBESITY AND ITS IMPACT ON BREAST CANCER RISK
Metabolic Dysregulation in Obesity
Immune Function of Adipose Tissue
ENDOCRINE FUNCTION OF ADIPOSE TISSUE IN OBESITY INCREASES BREAST CANCER RISK
Weight Loss and Inflammatory Markers
Pharmacological Approaches to Obesity and Weight Loss
Findings
CONCLUSIONS AND FUTURE DIRECTIONS

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