Table 2.
Reciprocal effects of cancer cells and stromal fibroblasts.
| Actions by Cancer Cells | Effects on Fibroblasts | Refs. | Actions by Fibroblasts | Effects on Cancer Cells | Refs. |
|---|---|---|---|---|---|
| TME has low pH, hypoxia, glycolytic oxidation, stiffness, inflammation, ionic gradients and high concentrations of chemokines and cytokines | - Environment fosters NF and other local or recruited cell conversions to CAFs - Cancer cells act through soluble factors, direct contact, export of exosomes, direct fusion with MSCs and fibroblasts |
[205,206] | Converted CAFs | - Favor tumor growth and progression - Preparation of the pre-metastatic niche |
[205,206] |
| Tumor hypoxia from low vessel count | Stimulate stellate cell periostin, collagen I, fibronectin, VEGF secretion | [179] | - Pancreatic stellate cells induce fibrinogenesis, deposit periostin-rich matrix around capillaries, secrete VEGF - Tumor residing stellate cells circulate to distant sites |
- Stimulate angiogenesis in the primary tumor. Induce endostin production by cancer cells - Facilitate tumor seeding, survival and proliferation in metastatic sites |
- [178,179] - [180] |
| Release pro-inflammatory cytokines | Attract BM MSCs to the tumor | [20,175,176,177] | Newly arrived MSCs release cytokines | Released cytokines promote malignant behavior in the tumor | [175,176,177] |
| Cancer cells release FGF-2, VEGF, PDGF, EGF, TGFβ, CCL2, CCL5, IL-6, IL-8, | - Activate fibroblasts - Modulate CAF gene expression - Modulate CAF metabolism |
- [182,183,184] - [185,186] - [187,188] |
Activated fibroblasts secrete cytokines | Promote proliferation, motility, and survival of epithelial cancer cells but not dormant tumor initiating cells | [189,190] |
| Cancer cell co-cultivation or conditioned medium “educate” BM MSCs that home to tumors | BM MSCs increase OPN, IL-8, FGF-2 secretion, decrease vimentin, αSMA expression | [175] | OPN, IL-8, FGF-2 attract cancer cells; vimentin, αSMA decrease MSC migration, keep them in the TME | Promote cancer progression | [175] |
| BC cells overexpress CD147 transmembrane glycoprotein. | CD147 promotes transformation of fibroblasts to CAFs | [191] | CD147-transformed fibroblasts express αSMA | Induce EMT in co-cultured BC cells | [191] |
| Cancer cells induce ratio-dependent secretory senescence in co-cultivated BM stroma | BC cells ratio-dependent stromal secretion of IL-6 and IL-8 | [138] | Stroma incubated with cancer cells secrete cytokines | Cytokines induce positive feedback loop for cancer cells growth stimulation | [138] |
| Breast cancer cells transform nearby adipocytes into adipocyte-derived fibroblasts (ADFs) through secretion of Wnt3a | ADFs reactivate Wnt/β-catenin, express FSP-1, are more migratory/invasive | [192] | ADFs secrete fibronectin and collagen I | Increase invasion in co-cultivated tumor cells | [192] |
| Tumor cells co-cultured with obese animal and visceral ADFs induce inflammation | Increase IL-6, MIP-2 and MCP-1 expression in obese and visceral ADFs | [196] | Tumor-stimulated ADFs attract CD3+ T-lymphocytes and F4/80+ macrophages | Promote growth and dissemination of ovarian epithelial cells in vivo | [196] |
| Breast cancer cells modify adjacent adipose tissue MSCs | Cancer-adjacent MSCs upregulate BDNF, NOTCH1, SOX9, vimentin, VCAM1, downregulate growth differentiation factor 15 (GDF15), IGF1, MMP2, PDGFRβ, TGFβ3, BMP4 and have increased proliferative potential |
[203] | - Cancer associated adipose MSCs enhance BC cell aggressiveness - Contribute to pericytes and adipocytes populating the TME |
Enhanced tumorigenicity, collective cell invasion, EMT+ invasive front tumor cells, adjacent nerve invasion in xenografts | [203,204] |
| Genetic changes in primary tumor cells induce genetic and gene expression changes in stromal fibroblasts through ROS. | - Fibroblasts increase ECM proteins and chemokines | - [198,199,200] | - Tumor-induced genetically modified stromal and BM fibroblasts increase versican, tenascin, BDFN, CCL5, CXCL5, and CXCL16 - Frequency of normal breast CD34+ fibroblasts, markedly decreases, and that of αSMA+ fibroblasts increases - CAFs have higher levels of RhoA and Rac1 than NFs |
- Promote tumor progression - Associated with higher stage and lower overall and disease-free survival - Active in invasion of cancer cells |
[198,199,200] - [201] - [202] |