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Yang Q , Nanayakkara GK , Drummer C , Sun Y , Johnson C , Cueto R , Fu H , Shao Y , Wang L , Yang WY , Tang P , Liu LW , Ge S , Zhou XD , Khan M , Wang H , Yang X
Low-Intensity Ultrasound-Induced Anti-inflammatory Effects Are Mediated by Several New Mechanisms Including Gene Induction, Immunosuppressor Cell Promotion, and Enhancement of Exosome Biogenesis and Docking
Front Physiol. 2017 Oct;8 :818
PMID: 29109687    PMCID: PMC5660123    URL: https://www.ncbi.nlm.nih.gov/pubmed/29109687
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Background: Low-intensity ultrasound (LIUS) was shown to be beneficial in mitigating inflammation and facilitating tissue repair in various pathologies. Determination of the molecular mechanisms underlying the anti-inflammatory effects of LIUS allows to optimize this technique as a therapy for the treatment of malignancies and aseptic inflammatory disorders. Methods: We conducted cutting-edge database mining approaches to determine the anti-inflammatory mechanisms exerted by LIUS. Results: Our data revealed following interesting findings: (1) LIUS anti-inflammatory effects are mediated by upregulating anti-inflammatory gene expression; (2) LIUS induces the upregulation of the markers and master regulators of immunosuppressor cells including MDSCs (myeloid-derived suppressor cells), MSCs (mesenchymal stem cells), B1-B cells and Treg (regulatory T cells); (3) LIUS not only can be used as a therapeutic approach to deliver drugs packed in various structures such as nanobeads, nanospheres, polymer microspheres, and lipidosomes, but also can make use of natural membrane vesicles as small as exosomes derived from immunosuppressor cells as a novel mechanism to fulfill its anti-inflammatory effects; (4) LIUS upregulates the expression of extracellular vesicle/exosome biogenesis mediators and docking mediators; (5) Exosome-carried anti-inflammatory cytokines and anti-inflammatory microRNAs inhibit inflammation of target cells via multiple shared and specific pathways, suggesting exosome-mediated anti-inflammatory effect of LIUS feasible; and (6) LIUS-mediated physical effects on tissues may activate specific cellular sensors that activate downstream transcription factors and signaling pathways. Conclusions: Our results have provided novel insights into the mechanisms underlying anti-inflammatory effects of LIUS, and have provided guidance for the development of future novel therapeutic LIUS for cancers, inflammatory disorders, tissue regeneration and tissue repair.
Yang, Qian Nanayakkara, Gayani K Drummer, Charles Sun, Yu Johnson, Candice Cueto, Ramon Fu, Hangfei Shao, Ying Wang, Luqiao Yang, William Y Tang, Peng Liu, Li-Wen Ge, Shuping Zhou, Xiao-Dong Khan, Mohsin Wang, Hong Yang, Xiaofeng Journal Article Switzerland Front Physiol. 2017 Oct 23;8:818. doi: 10.3389/fphys.2017.00818. eCollection 2017.