Discussion sellekchem In the present study, we showed that Nogo B was down regulated in the smooth muscle layers of the air ways Inhibitors,Modulators,Libraries of chronic asthmatic mice. In addition, Inhibitors,Modulators,Libraries the endo genous expression of Nogo B was necessary for airway smooth muscle cell migration and contraction, but had limited effect on proliferation of the cells. Furthermore, we revealed for the first time that ARPC 2 3 and MYL 9 may be two of the factors responsible for the func tional effects of Nogo B on airway smooth muscle cells. Our results suggest that Nogo B plays an important role in regulating airway smooth muscle cells and, therefore, participates in airway remodeling in asthma. We demonstrated that Nogo B was significantly down regulated in the lungs of chronic asthmatic mice.
Also, immunohistochemistry indicated that expression of Nogo B decreased in the airways of smooth muscle layer of chronic asthmatic mice. These AV-951 results strongly implicate Nogo B in asthmatic airway smooth muscle remodeling. Nogo B is a 37 kDa protein belonging to the RTN4 family. The importance of Nogo A as a potent inhibitor was initially described during axonal growth in the central nervous system. Nogo B, which shares homology with Nogo A, was then identified outside the central nervous system. Pre vious studies have shown that down regulation of Nogo B most likely occurs under conditions of trauma and inflammation and, therefore, is responsible for multiple pathological conditions such as atherosclerosis, aortic aneurysms formation, and vascular regeneration after vessel injury.
However, up regulation of Nogo B has also been reported in inflammation initiated by ischemia and is necessary for wound healing. These Inhibitors,Modulators,Libraries studies suggest that Nogo B may play a complex role in different stages and types of inflammation. In the case of airway remodeling of asthma, decreased Nogo B may also result from inflammation and a repair response. A similar phenomenon was also observed in both a mouse model of acute asthma and in severe asth matic patients. In the next step, we are going to construct the chronic asthma models of mice on Nogo B deficient mice and hope to find out the exact role of Nogo B on airway smooth muscle remodeling. Nogo B was originally identified as an apoptosis indu cing protein through multiple pathways and then was know as a regulator of vascular remodeling.
As both proliferation and apoptosis are believed to con tribute to airway smooth muscle remodeling in asthma, we tested whether Nogo B played a role in airway remodeling. We found that down regulation of Nogo B had no effects on the proliferation of HBSMCs. Our findings confirm the result of a previous investigation demonstrating that stable transfectants Inhibitors,Modulators,Libraries overexpressing Nogo B did not differ significantly from the respective parental wild type of control cell lines both in respect biological activity to cell proliferation and to spontaneous apoptosis induced by staurosporine and tunicamycin.