Therapeutic effects of human mesenchymal stem cell microvesicles in an ex vivo perfused human lung injured with severe E. coli pneumonia

J Park, S Kim, H Lim, A Liu, S Hu, JH Lee, H Zhuo… - Thorax, 2019 - thorax.bmj.com
J Park, S Kim, H Lim, A Liu, S Hu, JH Lee, H Zhuo, Q Hao, MA Matthay, JW Lee
Thorax, 2019thorax.bmj.com
Background We previously reported that microvesicles (MVs) released by human
mesenchymal stem cells (MSC) were as effective as the cells themselves in both
Escherichia coli lipopolysaccharide and live bacteria-induced acute lung injury (ALI) mice
models. However, it remained unclear whether the biological effect of MSC MV can be
applied to human ALI. Methods In the current study, we tested the therapeutic effects of MSC
MVs in a well-established ex vivo perfused human model of bacterial pneumonia. Using …
Background
We previously reported that microvesicles (MVs) released by human mesenchymal stem cells (MSC) were as effective as the cells themselves in both Escherichia coli lipopolysaccharide and live bacteria-induced acute lung injury (ALI) mice models. However, it remained unclear whether the biological effect of MSC MV can be applied to human ALI.
Methods
In the current study, we tested the therapeutic effects of MSC MVs in a well-established ex vivo perfused human model of bacterial pneumonia. Using human donor lungs not used for transplantation, we instilled E. coli bacteria intrabronchially and, 1 hour later, administered MSC MVs into the perfusate as therapy.
Results
After 6 hours, instillation of E. coli bacteria caused influx of inflammatory cells, which resulted in significant inflammation, lung protein permeability and pulmonary oedema formation. Administration of MSC MV significantly increased alveolar fluid clearance and reduced protein permeability and numerically lowered the bacterial load in the injured alveolus. The beneficial effect on bacterial killing was more pronounced with pretreatment of MSCs with a Toll-like receptor 3 agonist, polyinosinic:polycytidylic acid (Poly (I:C)), prior to the isolation of MVs. Isolated human alveolar macrophages had increased antimicrobial activity with MSC MV treatment in vitro as well. Although oxygenation and lung compliance levels were similar between injury and treatment groups, administration of MSC MVs numerically decreased median pulmonary artery pressure at 6 hours.
Conclusions
In summary, MSC MVs increased alveolar fluid clearance and reduced lung protein permeability, and pretreatment with Poly (I:C) enhanced the antimicrobial activity of MVs in an ex vivo perfused human lung with severe bacteria pneumonia.
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