Objectives: Bone marrow-derived mesenchymal stem cells (BMSCs) are considered to have potential clinical application value in the treatment of acute lung injury (ALI). Myeloid-derived growth factor (MYDGF) can promote the proliferation of stem cell. We hypothesized that MYDGF may play a role in reducing lung injury in vitro and in vivo through bone marrow mesenchymal stem cells. Methods: An in vitro model of lipopolysaccharide (LPS)(MLE-12) was established, which was divided into five groups: A: MLE-12; B: MLE-12+LPS; C: MLE-12+LPS + BMSCs; D: MLE-12+LPS + MYDGF; and E: MLE-12+LPS + BMSCs + MYDGF. A Cell Counting Kit-8 was used to detect the OD value. And an ALI model was constructed by inducing mice with a lipopolysaccharide. Forty male Balb/c mice were randomly divided into five groups: A control group; B: model group; C: LPS + BMSCs; D: LPS + MYDGF; E: LPS +BMSCs +MYDGF. Specimens were collected after 24 h. Hematoxylin-eosin (HE)-staining was performed on the tissue sections. The protein concentration in the alveolar lavage fluid was measure by bicinchoninic acid (BCA). The NF-κB, p-Akt, Bax, and Bcl-2 protein expression was detected through Western blotting, and Enzyme linked immunosorbent assay (ELISA) was used to measure the expression of serum interleukin-6, interleukin-10, and TNF-α. Results: Compared with the model group, BMSCs and MYDGF can alleviate the ALI induced by lipopolysaccharide in vitro and vivo ( p < .05). Conclusion: We found that the combined treatment effect of MYDGF and BMSCs was better than using MYDGF or BMSCs alone. We speculate that a pretreatment with MYDGF after ALI in mice may improve the survival and growth of transplanted MSCs, thereby improving the curative effect of cell transplantation.
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