Changes in their expression are associated with bronchoconstriction, airway hyperresponsiveness, and airway inflammation. The neurogenic-mediated control of airway responses is a key pathophysiological mechanism of childhood asthma. However, the effects of nanoparticle exposure

on neurotrophin-driven airway responses and their potential role as a predisposing factor for developing asthma have not been clearly elucidated. In this study, in vivo inhalation exposure to titanium dioxide nanoparticles (12 mg/m3; 5.6 h/d for 3 d) produced upregulation of lung neurotrophins in weanling (2-wk-old) and newborn (2-d-old) rats but not in adult (12-wk-old) animals compared to controls. Taselisib research buy This effect was associated with increased airway responsiveness and upregulation of growth-related oncogene/keratine-derived chemokine (GRO/KC; CXCL1, rat equivalent of human interleukin [IL]-8) in bronchoalveolar lavage fluid. These data show for the first time that exposure to nanoparticulate upregulates the expression of lung neurotrophins in an age-dependent fashion and that this effect is associated with airway hyperresponsiveness and inflammation. These results suggest the presence of a critical window

of vulnerability in earlier stages of lung development, which LY2109761 supplier may lead to a higher risk of developing asthma.”
“Increase in levels of oxysterols or cholesterol oxidation products have been detected in brain areas undergoing neuroinflammation after excitotoxic injury, and the present study was carried out to elucidate possible effects of these products on exocytosis in rat pheochromocytoma-12 (PC12) cells. An increase in vesicle fusion with the cell membrane indicating exocytosis was observed by total internal reflection microscopy (TIRFM), and confirmed by capacitance measurements, after addition of 7 ketocholesterol, 24 hydroxycholesterol ROS1 or cholesterol 5,6 beta epoxide. 7 ketocholesterol induced exocytosis was attenuated

by pretreatment with a disruptor of cholesterol-rich domains or “”lipid rafts”", methyl-beta-cyclodextrin (M beta CD) as demonstrated by capacitance and amperometry measurements of neurotransmitter release. Moreover, treatment of cells with thapsigargin to deplete intracellular calcium, or treatment of cells with lanthanum chloride to block calcium channels resulted in attenuation of 7 ketocholesterol induced exocytosis. Fura-2 imaging showed that 7 ketocholesterol induced rapid and sustained increases in intracellular calcium concentration, and that this effect was attenuated in cells that were pre-treated with M beta CD, thapsigargin or lanthanum chloride. Together, the results suggest that neurotransmitter release triggered by 7 ketocholesterol is dependent on the integrity of cholesterol rich lipid domains on cellular membranes and a rise in intracellular calcium, either through release from internal stores or influx via calcium channels.