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Leptin Signaling Contributes to Aromatase Inhibitor Resistant Breast Cancer Cell Growth and Activation of Macrophages

Luca Gelsomino, Cinzia Giordano, Giusi La Camera, Diego Sisci, Stefania Marsico, Antonella Campana, Roberta Tarallo, Antonio Rinaldi, Suzanne A.W. Fuqua, Antonella Leggio, Fedora Grande, Daniela Bonofiglio, Sebastiano Andò, Ines Barone, Stefania Catalano

2020Biomolecules43 citationsDOIOpen Access PDF

Abstract

Obesity represents a risk factor for breast cancer development and therapy resistance, but the molecular players underling these links are unclear. Here, we identify a role for the obesity-cytokine leptin in sustaining aromatase inhibitor (AI) resistant growth and progression in breast cancer. Using as experimental models MCF-7 breast cancer cells surviving long-term treatment with the AI anastrozole (AnaR) and Ana-sensitive counterparts, we found that AnaR cells expressed higher levels of leptin and its receptors (ObR) along with a constitutive activation of downstream effectors. Accordingly, leptin signaling inhibition reduced only AnaR cell growth and motility, highlighting the existence of an autocrine loop in mechanisms governing drug-resistant phenotypes. In agreement with ObR overexpression, increasing doses of leptin were able to stimulate to a greater extent growth and migration in AnaR than sensitive cells. Moreover, leptin contributed to enhanced crosstalk between AnaR cells and macrophages within the tumor microenvironment. Indeed, AnaR, through leptin secretion, modulated macrophage profiles and increased macrophage motility through CXCR4 signaling, as evidenced by RNA-sequencing, real-time PCR, and immunoblotting. Reciprocally, activated macrophages increased AnaR cell growth and motility in coculture systems. In conclusion, acquired AI resistance is accompanied by the development of a leptin-driven phenotype, highlighting the potential clinical benefit of targeting this cytokine network in hormone-resistant breast cancers, especially in obese women.

Topics & Concepts

LeptinAutocrine signallingCytokineCancer researchAromataseMotilityInternal medicineEndocrinologyTumor microenvironmentBreast cancerSOCS3Paracrine signallingBiologyMedicineReceptorCancerCell biologyObesitySuppressorAdipokines, Inflammation, and Metabolic DiseasesCancer-related molecular mechanisms researchRegulation of Appetite and Obesity
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