GIT2 Gene: Androgenic Regulation of White Adipose Tissue-Prostate Cancer Interactions

In addition to its well-known role as an energy repository, adipose tissue is one of the largest endocrine organs in the organism due to its ability to synthesize and release different bioactive molecules. Two main types of adipose tissue have been described, namely white adipose tissue (WAT) with a classical energy storage function, and brown adipose tissue (BAT) with thermogenic activity. The prostate, an exocrine gland present in the reproductive system of most mammals, is surrounded by periprostatic adipose tissue (PPAT) that contributes to maintaining glandular homeostasis in conjunction with other cell types of the microenvironment. In pathological conditions such as the development and progression of prostate cancer, adipose tissue plays a key role through paracrine and endocrine signaling. In this context, the role of WAT has been thoroughly studied. However, the influence of BAT on prostate tumor development and progression is unclear and has received much less attention. This review tries to bring an update on the role of different factors released by WAT which may participate in the initiation, progression and metastasis, as well as to compile the available information on BAT to discuss and open a new field of knowledge about the possible protective role of BAT in prostate cancer.

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Incidence of periprostatic white adipose tissue inflammation in men with prostate cancer.

Journal of Clinical Oncology ◽

10.1200/jco.2017.35.6_suppl.63 ◽

2017 ◽

Vol 35 (6_suppl) ◽

pp. 63-63 ◽

Cited By ~ 1

Author(s):

Ayca Gucalp ◽

Neil M. Iyengar ◽

Xi K. Zhou ◽

Dilip D. Giri ◽

Domenick J. Falcone ◽

...

Keyword(s):

Prostate Cancer ◽

Adipose Tissue ◽

White Adipose Tissue ◽

Host Factors ◽

Gleason Grade ◽

High Grade ◽

Adipose Tissue Inflammation ◽

Grade Group ◽

Tissue Inflammation ◽

Increased Risk

63 Background: Obesity, a common cause of chronic inflammation, is associated with an increased risk of high grade, lethal prostate cancer (PC) and poor outcomes. The existence or clinical importance of periprostatic white adipose tissue inflammation (WATi) in patients (pts) with PC has not been previously described. We examined the relationships among periprostatic WATi and 1) tumor clinicopathologic features, and 2) host factors including age, body mass index (BMI), and circulating metabolic factors. Methods: Periprostatic WAT was collected prospectively from men with PC undergoing radical prostatectomy. WATi was defined by the presence of dead/dying adipocytes surrounded by macrophages forming crown-like structures (CLS). Tumor characteristics and host factors were measured. Wilcoxon rank-sum, Chi-square, or Fisher’s exact tests were used to examine the relationship between WATi and tumor and host characteristics. Results: From 11/2011-8/2015, periprostatic WAT was obtained from 169 pts (median age 62 years, range: 39 -77). Fasting blood samples were collected from 154 pts. CLS were present in 84 (49.7%) of pts. Presence of CLS was associated with higher median BMI (P = 0.02); 40/65 (61.5%) obese pts, 36/83 (43.4 %) overweight pts, and 8/21 (38.1 %) normal weight pts had CLS. Pts with CLS were more likely to have high grade prostate cancer (Gleason grade group IV/V, P = 0.02), larger adipocytes (P = 0.004), and positive surgical margins at the time of surgery (P = 0.04). WATi correlated with higher circulating levels of insulin, triglycerides, and leptin/adiponectin ratio, and lower high density lipoprotein cholesterol, compared to pts without WATi (P’s < 0.05). Conclusions: Periprostatic WATi is common in men with PC. It is associated with high grade PC and alterations in systemic factors that contribute to PC development and progression. Periprostatic WATi may represent a therapeutic target for improving PC risk and outcomes.

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