Table 3.
Cytokine | Change under condition of metabolic abnormalities | Mechanism contributing to EOC development and progression |
---|---|---|
IL-6 Source: Adipocytes [73], macrophages [73], tumor cells |
Increased in obesity and DM [74] Reduced in primates [75] and postmenopausal women under calorie restriction Increased by higher levels of ROS [76] |
Promotes angiogenesis Induces aromatase, increasing estrogen levels Promotes expression of anti-apoptotic proteins, including Mcl-1 Chemotherapy resistance Main regulatory cytokine of hepatic CRP synthesis Predicts response to bevacizumab therapy |
TNFα Source: Macrophages [77], ovarian tumor cells, adipocytes |
Increased in obesity and DM [74] | Induces MMP production by macrophages, which leads to increased tumor invasiveness [77] Promotes angiogenesis Acts as autocrine and paracrine growth factor for ovarian tumor cells Decreases adiponectin production Induces expression of aromatase in adipose tissue |
Leptin Source: Adipocytes |
Increased in obesity | Reduces anti-tumor cytotoxicity, perforin production, and IFN-γ secretion by NK cells Suppresses Treg differentiation Increases monocyte secretion of IL-6 and TNFα Apoptotic resistance Increased proliferation in ovarian cancer cells Increases cyclin D1 expression Decreased PFS in EOC tumors with increased leptin receptor (Ob-R) expression Facilitates cell migration |
Adiponectin Source: Adipocytes |
Decreased in obesity Negatively correlated with waist-hip ratio and visceral fat content Decreased in DM |
Inhibits TNF-α induced NF-κB signaling Negative regulator of angiogenesis |
MCP-1 Source: Ovarian tumor cells [77] |
Induced by HIF, which is elevated in obesity | Recruits circulating monocytes to the tumor microenvironment Tumor derived MCP-1 significantly correlates with TAM density in ovarian tumors [77] May play a role in angiogenesis regulation [77] |
CRP Source: Liver |
Increased in obesity and DM [74] | Elevated CRP associated with increased risk of ovarian cancer |