Adipose-derived mesenchymal stem cells promote the malignant phenotype of cervical cancer.
Rosario Castro-OropezaKarla Vazquez-SantillanClaudia Díaz-GastelumJorge Melendez-ZajglaCecilia ZampedriEduardo Ferat-OsorioArturo Rodríguez-GonzálezLourdes Arriaga-PizanoVilma Maldonado-LagunasPublished in: Scientific reports (2020)
Epidemiological studies indicate that obesity negatively affects the progression and treatment of cervical-uterine cancer. Recent evidence shows that a subpopulation of adipose-derived stem cells can alter cancer properties. In the present project, we described for the first time the impact of adipose-derived stem cells over the malignant behavior of cervical cancer cells. The transcriptome of cancer cells cultured in the presence of stem cells was analyzed using RNA-seq. Changes in gene expression were validated using digital-PCR. Bioinformatics tools were used to identify the main transduction pathways disrupted in cancer cells due to the presence of stem cells. In vitro and in vivo assays were conducted to validate cellular and molecular processes altered in cervical cancer cells owing to stem cells. Our results show that the expression of 95 RNAs was altered in cancer cells as a result of adipose-derived stem cells. Experimental assays indicate that stem cells provoke an increment in migration, invasion, angiogenesis, and tumorigenesis of cancer cells; however, no alterations were found in proliferation. Bioinformatics and experimental analyses demonstrated that the NF-kappa B signaling pathway is enriched in cancer cells due to the influence of adipose-derived stem cells. Interestingly, the tumor cells shift their epithelial to a mesenchymal morphology, which was reflected by the increased expression of specific mesenchymal markers. In addition, stem cells also promote a stemness phenotype in the cervical cancer cells. In conclusion, our results suggest that adipose-derived stem cells induce cervical cancer cells to acquire malignant features where NF-kappa B plays a key role.
Keyphrases
- stem cells
- signaling pathway
- rna seq
- gene expression
- nuclear factor
- wound healing
- single cell
- mesenchymal stem cells
- cell therapy
- poor prognosis
- papillary thyroid
- type diabetes
- high throughput
- metabolic syndrome
- endothelial cells
- dna methylation
- epithelial mesenchymal transition
- oxidative stress
- insulin resistance
- lps induced
- squamous cell
- toll like receptor
- induced apoptosis
- body mass index
- squamous cell carcinoma
- long non coding rna
- genome wide
- quality improvement
- immune response
- binding protein
- childhood cancer
- physical activity
- smoking cessation