Progression of prostate carcinoma is promoted by adipose stromal cell-secreted CXCL12 signaling in prostate epithelium.
Fei SuAlexes C DaquinagSongyeon AhnAchinto SahaYulin DaiZhong-Ming ZhaoJohn DiGiovanniMikhail G KoloninPublished in: NPJ precision oncology (2021)
Aggressiveness of carcinomas is linked with tumor recruitment of adipose stromal cells (ASC), which is increased in obesity. ASC promote cancer through molecular pathways not fully understood. Here, we demonstrate that epithelial-mesenchymal transition (EMT) in prostate tumors is promoted by obesity and suppressed upon pharmacological ASC depletion in HiMyc mice, a spontaneous genetic model of prostate cancer. CXCL12 expression in tumors was associated with ASC recruitment and localized to stromal cells expressing platelet-derived growth factor receptors Pdgfra and Pdgfrb. The role of this chemokine secreted by stromal cells in cancer progression was further investigated by using tissue-specific knockout models. ASC deletion of CXCL12 gene in the Pdgfr + lineages suppressed tumor growth and EMT, indicating stroma as the key source of CXCL12. Clinical sample analysis revealed that CXCL12 expression by peritumoral adipose stroma is increased in obesity, and that the correlating increase in Pdgfr/CXCL12 expression in the tumor is linked with decreased survival of patients with prostate carcinoma. Our study establishes ASC as the source of CXCL12 driving tumor aggressiveness and outlines an approach to treatment of carcinoma progression.
Keyphrases
- prostate cancer
- insulin resistance
- epithelial mesenchymal transition
- high fat diet induced
- growth factor
- poor prognosis
- nlrp inflammasome
- metabolic syndrome
- radical prostatectomy
- weight loss
- type diabetes
- benign prostatic hyperplasia
- adipose tissue
- papillary thyroid
- weight gain
- long non coding rna
- skeletal muscle
- transforming growth factor
- stem cells
- gene expression
- squamous cell carcinoma
- squamous cell
- signaling pathway
- young adults
- high resolution
- single molecule
- physical activity
- childhood cancer
- atomic force microscopy
- wild type
- free survival