Abstract

Abstract Background: Mesothelial cells play tumor-promoting roles in the development of peritoneal metastasis (PM) through mesothelial-mesenchymal transition (MMT). We reported miR-29b suppressed MMT of human peritoneal mesothelial cell (HPMC). Methods: MiR-29b mimics and negative control miRNA (NC) were transfected to human bone marrow derived MSC by lipofection method. Exosomes were purified from the culture supernatants of the MSC with ultracentrifugation, and added to HPMC. Proliferation and migration of HPMC were examined with MTT assay and transwell assay, respectively. MMT of HPMC induced by 10 ng/ml TGF-β, and evaluated with immunofluorescence staining. Results: MSC transfected with miR-29b mimics produced significantly increased amounts of miR-29b-containing exosomes (p<0.0001, n=3) as compared with negative control. After 24h-culture with PKH-26 stained exosomes, HPMC actively took the exosomes. After 48 hr-culture with TGF-β, HPMC apparently changed the morphology from round to spindle shape. The expression level of E-cadherin and Calretinin in HPMC was decreased while vimentin and Fibronectin tended to be upregulated by TGF-β. However, exosomes from miR-29b transfected MSC significantly suppressed the morphological changes and reduced the expression levels of vimentin and Fibronectin with restored expression of E-cadherin and Calretinin, suggesting the inhibition of MMT in HPMC. The exosome inhibited the proliferation and migration of HPMC by 31±14% (p<0.01, n=5) and 67±9% (p<0.01, n=3), and inhibited the adhesion of NUGC by 90±3% (p<0.001, n=5) as compared with NC exosome. Conclusion: Exosomes from MSC transfected with miR-29b mimic efficiently suppresses MMT. Replacement of the miR-29b in peritoneal cavity might be used for the treatment of PM partially via the effects on mesothelial cell. Citation Format: Yuki Kimura, Hideyuki Ohzawa, Yuki Kaneko, Kohei Tamura, Yurie Futoh, Kazuya Takahashi, Akira Saito, Mineyuki Tojo, Hideyo Miyato, Joji Kitayama. Exosomal miR-29b derived from mesenchymal stem cell (MSC) may suppress peritoneal metastasis via the effects on peritoneal mesothelial cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6284.

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