Recently, we demonstrated that intratracheal transplantation of human umbilical cord blood- derived mesenchymal stem cells (MSCs) attenuates Escherichia (E) coli- induced acute lung injury primarily by down- modulating inflammation and enhancing bacterial clearance iQn mice. This study was performed to elucidate the mechanism underlying the antibacterial effects of MSCs. The growth of E. coli in vitro was significantly inhibited only by MSCs or their conditioned medium with bacterial preconditioning, but not by fibroblasts or their conditioned medium. Microarray analysis identified significant up- regulation of toll- like receptors (TLR)- 2 and TLR- 4, and β- defensin 2 (BD2) in MSCs compared with fibroblasts after E. coli exposure. The increased BD2 level and the in vitro antibacterial effects of MSCs were abolished by specific antagonist or by siRNA- mediated knockdown of TLR- 4, but not TLR- 2, and restored by BD2 supplementation. The in vivo down- modulation of the inflammatory response and enhanced bacterial clearance, increased BD2 secretion and the resultant protection against E. coli- induced pneumonia observed only with MSCs, but not fibroblasts, transplantation in mice, were abolished by knockdown of TLR- 4 with siRNA transfection. Our data indicate that BD2 secreted by the MSCs via the TLR- 4 signalling pathway is one of the critical paracrine factors mediating their microbicidal effects against E. coli, both in vitro and in vivo. Furthermore, TLR- 4 from the transplanted MSCs plays a seminal role in attenuating in vivo E. coli- induced pneumonia and the ensuing acute lung injury through both its anti- inflammatory and antibacterial effects.
Keywords: Escherichia coli; acute lung injury; beta- defensin 2; mesenchymal stem cells; toll- like receptor 4.
© 2015 The Authors Cellular Microbiology Published by John Wiley & Sons Ltd.