RECOMBINANT BCL-XL ATTENUATES VASCULAR HYPERPERMEABILITY IN A RAT MODEL OF HEMORRHAGIC SHOCK.
Ključne riječi
Sažetak
Following hemorrhagic shock (HS), vascular hyperpermeability i.e. the leakage of fluid, nutrients and proteins into the extravascular space occurs primarily due to the disruption of the endothelial cell-cell adherens junctional complex. Studies from our laboratory demonstrate that activation of the mitochondria mediated 'intrinsic' apoptotic signaling cascade has a significant role in modulating HS-induced hyperpermeability. Here we report the novel use of recombinant Bcl-xL, an anti-apoptotic protein, to control HS-induced vascular hyperpermeability. Our results corroborate involvement of vascular hyperpermeability and apoptotic signaling. Hemorrhagic shock (HS) (mean arterial pressure [MAP] was reduced to 40 mmHg for 60 minutes followed by resuscitation to 90 mmHg for 60 minutes) in rats resulted in vascular hyperpermeability as determined by intra-vital microscopy. Treatment of Bcl-xL (2.5ug/ml of rat blood in non-lipid cationic polymer, i.v.) before, during and even after HS attenuated or reversed HS-induced vascular hyperpermeability significantly (p<0.05). Conversely, treatment using Bcl-xL inhibitors, 2-methoxy antimycin (2-MeOAA) and ABT 737, significantly increased vascular hyperpermeability compared to sham (p<0.05). Bcl-xL treatment also decreased the amount of fluid volume required to maintain a MAP of 90 mmHg during resuscitation (p<0.05). HS resulted in increased mitochondrial ROS formation, reduction of ΔΨm, mitochondrial release of cytochrome c and significant activation of caspase-3 (p<0.05). All of these effects were significantly inhibited by Bcl-xL pre-treatment (p<0.05). Our results show that recombinant Bcl-xL is effective against HS-induced vascular hyperpermeability that appears to be mediated through preservation of ΔΨm and subsequent prevention of caspase-3 activation.