Inhibition of PARS attenuates endotoxin-induced dysfunction of pulmonary vasorelaxation

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Inhibition of PARS attenuates endotoxin-induced dysfunction of pulmonary vasorelaxation

Edward J. Pulido¹, Brian D. Shames¹, Craig H. Selzman¹, Hazel A. Barton¹, Anirban Banerjee¹, Denis D. Bensard², and Robert C. McIntyre Jr.¹

¹ Department of Surgery, University of Colorado Health Sciences Center and Veterans Affairs Hospital, Denver 80262; and ² Department of Pediatric Surgery, The Children's Hospital, Denver, Colorado 80218

Endotoxin (Etx) causes excessive activation of the nuclear repair enzyme poly(ADP-ribose) synthase (PARS), which depletescellular energy stores and leads to vascular dysfunction. We hypothesizedthat PARS inhibition would attenuate injury to mechanisms of pulmonaryvasorelaxation in acute lung injury. The purpose of this studywas to determine the effect of in vivo PARS inhibition on Etx-induceddysfunction of pulmonary vasorelaxation. Rats received intraperitonealsaline or Etx (Salmonella typhimurium; 20 mg/kg) and one of thePARS inhibitors, 3-aminobenzamide (3-AB; 10 mg/kg) or nicotinamide(Nic; 200 mg/kg), 90 min later. After 6 h, concentration-responsecurves were determined in isolated pulmonary arterial rings. Etximpaired endothelium-dependent (response to ACh and calcium ionophore)and -independent (sodium nitroprusside) cGMP-mediated vasorelaxation.3-AB and Nic attenuated Etx-induced impairment of endothelium-dependentand -independent pulmonary vasorelaxation. 3-AB and Nic had noeffect on Etx-induced increases in lung myeloperoxidase activityand edema. Lung ATP decreased after Etx but was maintained by3-AB and Nic. Pulmonary arterial PARS activity increased fivefoldafter Etx, which 3-AB and Nic prevented. The beneficial effectswere not observed with benzoic acid, a structural analog of 3-ABthat does not inhibit PARS. Our results suggest that PARS inhibitionwith 3-AB or Nic improves pulmonary vasorelaxation and preserveslung ATP levels in acute lunginjury.

poly(ADP-ribose) synthase; pulmonary artery; 3-aminobenzamide; nicotinamide; myeloperoxidase

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