10.6084/m9.figshare.7967768.v1 Xiaoning Wang Xiaoning Wang Xing Qin Xing Qin Ming Yan Ming Yan Jianbo Shi Jianbo Shi Qin Xu Qin Xu Zhihui Li Zhihui Li Wenjun Yang Wenjun Yang Jianjun Zhang Jianjun Zhang Wantao Chen Wantao Chen Additional file 4: of Loss of exosomal miR-3188 in cancer-associated fibroblasts contributes to HNC progression Springer Nature 2019 Cancer associated fibroblasts Exosomes miR-3188 Head and neck cancer 2019-04-08 05:00:00 Presentation https://springernature.figshare.com/articles/presentation/Additional_file_4_of_Loss_of_exosomal_miR-3188_in_cancer-associated_fibroblasts_contributes_to_HNC_progression/7967768 Figure S1. Co-culture with CAFs prompts the malignant phenotypes of HNC cells. Figure S2. Identification of exosomes purified from CAFs and NFs. Figure S3. Treatment with fibroblast-exosomes prompts the malignant phenotypes of HNC cells. Figure S4. MiR-3188 expression in HNC cells after transfected with miR-3188 mimics or inhibitor. Figure S5. miR-3188 inhibits the growth of HN30 cells and facilitates the apoptosis of HN30 cells in vitro. Figure S6. Functional analyses of the effects of miR-3188 on HNC cell migration and invasion. Figure S7. BCL2 facilitates the growth of HN30 cells and inhibits the apoptosis of HN30 cells in vitro. Figure S8. The expression of Cyclin D1 in HNC cells after BCL2 knockdown or overexpression. Figure S9. BCL2 expression was recovered by the transfection of BCL2 expression vector in miR-3188-expressing HNC cells. Figure S10. MiR-3188 expression in CAL27, NFs and exosomes after transfection of miR-3188 mimics or inhibitor. Figure S11. MiR-3188 and BCL2 mRNA expression in xenografts. Figure S12. MiR-3188 expression in HNC tissues and plasma of HNC patients. Figure S13. The correlation of plasma miR-3188 expression and clinicopathological characteristics of HNC patients. (PPTX 22445 kb)