Background -Leukotriene (LT) B4 is a potent neutrophil chemoattractant and also stimulates eosinophils in vitro, but its role in asthmatic inflammation is unknown. Methods -The effect of the novel LTB4 receptor antagonist, LY293111, was examined using allergen challenge as a model for asthmatic inflammation in 12 atopic asthmatic subjects in a double blind placebo controlled crossover trial. Subjects with an established early (EAR) and late asthmatic response (LAR) to allergen at screening received oral LY293111 in a dose of 112 mg three times daily for seven days or placebo before further allergen challenge. Each treatment was separated by a washout period of 28 days. Individuals underwent histamine challenge one hour before and three hours after allergen challenge. Bronchoalveolar lavage (BAL) fluid was obtained at bronchoscopy 24 hours after allergen challenge. Results -There was no difference in baseline lung function, EAR, LAR, or in airway responsiveness to histamine before and after allergen between placebo and LY293111. By contrast, treatment with LY293111 significantly reduced the number of neutrophils in BAL fluid expressed as both absolute cell numbers and percentage cell differential counts: absolute cell counts, median (range) 0.04 (0.02-0.15) x 106 after LY293111, 0.09 (0.02-0.43) x 106 after placebo; percentage differential cell counts 0.35 (0.1-2.0) after LY293111, 0.80 (0.1-3.6) after placebo (p<0.05). Eosinophils, macrophages, and lymphocytes in BAL fluid did not differ between treatments. There was a significant reduction in the concentration of myeloperoxidase (MPO) with both placebo (16 (6.6) ng/ml) and LY293111 (3.5 (1.8) ng/ml) and of LTB4 (placebo 4.6 (1.2) pg/ml, LY293111 2.2 (0.2) pg/ml). Concentrations of LTC4 and interleukin 8 were reduced, although not significantly, whereas concentrations ofinterleukin 6, GM-CSF, and TNF-a were unchanged by LY293111.Conclusions -These results demonstrate an influence of LTB4 on neutrophil influx and activation in the airway following allergen challenge. Despite this anti-inflammatory effect, there was no measured physiological benefit and this questions the functional role of the neutrophil in the pathophysiology of allergen induced asthma.
Overall, our data demonstrate that Smad2/3 is a specific SIRT1 target and suggests that pharmacological activation of SIRT1 may be a novel therapeutic strategy to prevent/reverse HF via modifying Smad activity.
Cardiac fibrosis is a common finding in patients with chronic kidney disease. Here, we investigate the cardio-renal effects of theracurmin, a novel formulation of the polyphenolic compound curcumin, in a rat model of chronic kidney disease. Briefly, Sprague-Dawley rats were randomized to undergo sham or subtotal nephrectomy (SNx) surgery. At 3 weeks post surgery, SNx animals were further randomized to received theracurmin via once daily oral gavage or vehicle for 5 consecutive weeks. At 8 weeks post surgery, cardiac function was assessed via echocardiography and pressure volume loop analysis, followed by LV and renal tissue collection for analysis. SNx animals developed key hallmarks of renal injury including hypertension, proteinuria, elevated blood urea nitrogen, and glomerulosclerosis. Renal injury in SNx animals was also associated with significant diastolic dysfunction, macrophage infiltration, and cardiac NLRP3 inflammasome activation. Treatment of SNx animals with theracurmin improved structural and functional manifestations of cardiac injury associated with renal failure and also attenuated cardiac NLRP3 inflammasome activation and mature IL-1β release. Taken together, our findings suggest a significant role for the NLRP3 inflammasome in renal injury-induced cardiac dysfunction and presents inflammasome attenuation as a unique strategy to prevent adverse cardiac remodeling in the setting of chronic kidney disease.
Natural killer (NK) cells are cytotoxic innate lymphoid cells with an established role in the regulation of vascular structure in pregnancy and cancer. Impaired NK cell function has been identified in patients with pulmonary arterial hypertension (PAH), a disease of obstructive vascular remodeling in the lungs, as well as in multiple rodent models of disease. However, the precise contribution of NK cell impairment to the initiation and progression of PAH remains unknown. Here, we report the development of spontaneous pulmonary hypertension in two independent genetic models of NK cell dysfunction, including Nfil3−/− mice, which are deficient in NK cells due to the absence of the NFIL3 transcription factor, and Ncr1-Gfp mice, which lack the NK activating receptor NKp46. Mouse models of NK insufficiency exhibited increased right ventricular systolic pressure and muscularization of the pulmonary arteries in the absence of elevated left ventricular end-diastolic pressure, indicating that the development of pulmonary hypertension was not secondary to left heart dysfunction. In cases of severe NK cell impairment or loss, a subset of mice failed to develop pulmonary hypertension and instead exhibited reduced systemic blood pressure, demonstrating an extension of vascular abnormalities beyond the pulmonary circulation into the systemic vasculature. In both mouse models, the development of PAH was linked to elevated interleukin-23 production, whereas systemic hypotension in Ncr1-Gfp mice was accompanied by a loss of angiopoietin-2. Together, these results support an important role for NK cells in the regulation of pulmonary and systemic vascular function and the pathogenesis of PAH.
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