Abstract
Nitric oxide (NO) plays a pivotal role in main- taining balance of physiological events in many systems including the autonomic, cardiovas- cular, hematological, and pulmonary systems. Lipopolysaccharide (LPS) and peptidoglycan (PGN), components of the outer cell membranes of Gram-negative bacteria and cell walls of Gram-positive bacteria respectively, are in- criminated in NO-induced septic shock. Ne- bivolol is a third generation β1- adrenoceptor blocker with a vasodilatory property attributed to enhanced availability of nitric oxide and re- duction of cellular oxidative stress through an unknown mechanism. The current study ex- plored the hypothesis that if nebivolol enhances the availability of NO, pretreatment with ne- bivolol may enhance production of NO in re- sponse to subsequent treatment with LPS and PGN, an observation that may have relevance in clinical septic shock. Groups of female BALB/c mice each containing 12 mice (6-8 weeks old) were injected intraperitoneally with LPS (30 µg/mouse), PGN (100 µg/mouse), nebivolol (0.25 µg/g, 0.35 µg/g, 0.7 µg/g), LPS and nebivolol (0.25 µg/g), LPS and nebivolol (0.35 µg/g), LPS and nebivolol (0.7 µg/g), PGN and nebivolol (0.25 µg/g), PGN and nebivolol (0.35µg/g). One group of mice was injected with saline and an- other served as control. Three mice from each group were bled 1, 3, 6 and 9 hours post-injec- tion, the blood was pooled and the nitrite serum levels, reflecting NO concentration, were de- termined using Greiss reagent. The following results were obtained: 1) Treatment with saline did not induce NO production; 2) LPS induced NO production to a maximal limit of 545% at 9 hours as compared to treatment with saline; 3) PGN did not induce NO production; 4) nebivolol at most doses and periods (7 out of 10 deter- minations) increased NO production over a range of 18-110% as compared to treatment with saline; 5) Nebivolol enhanced LPS-induced production of NO by 58% at a dose of 0.7 µg/gm at 9 hours. It is concluded that nebivolol in- duces NO production. At low doses nebivolol initially appeared to have a suppressive or no effect on NO production induced by LPS. In- crease in the dose of nebivolol resulted in augmentation of LPS-induced production of NO. PGN, in the dose tested, did not have an effect on NO production.
Highlights
Since the early report by Furchgott and Zawadzki in 1980 that the endothelium produces a vasodilator substance, initially referred to as the endothelium-derived relaxing factor, later demonstrated to be NO, extensive research revealed that NO was a short-lived mediator of numerous physiological as well as pathophysiological phenomena [1]
PGN engages Toll-like receptor 2 (TLR2) and activates the myeloid differentiation factor 88 (MyD88)-independent pathway and LPS engages TLR4 that results in activation of both the MyD88-dependent and independent pathways
It is unique among all β1-adrenoceptor blockers in that it possesses a vasodilatory property attributed to synthesis of NO [20,21] as well as to increasing NO bioavailability by decreasing the oxidative stress [22,23,24,25,26]
Summary
Since the early report by Furchgott and Zawadzki in 1980 that the endothelium produces a vasodilator substance, initially referred to as the endothelium-derived relaxing factor, later demonstrated to be NO, extensive research revealed that NO was a short-lived mediator of numerous physiological as well as pathophysiological phenomena [1]. PGN engages Toll-like receptor 2 (TLR2) and activates the myeloid differentiation factor 88 (MyD88)-independent pathway and LPS engages TLR4 that results in activation of both the MyD88-dependent and independent pathways. Both pathways lead eventually to an inflammatory response, mainly through the production of pro-inflammatory cytokines and inducible nitric oxide synthase (iNOS) [14,15,16]. Bacterial cells release some of their constituents such as LPS, lipoteichoic acid and PGN These constituents stimulate a number of cell types to produce NO.
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