882 results on '"Fisher, Aron B."'
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202. The Protection Of Peroxiredoxin 6 On Lung Type 2 Cell Membrane To ALI
203. Interaction of p67phox with Prdx6 regulates PLA2 activity
204. Peroxiredoxin 6 targeting to lysosomal organelles requires MAPK activity and binding to a chaperone protein 14‐3‐3 epsilon in lung epithelial cells
205. Phosphorylation of peroxiredoxin 6 changes its conformation and increases its binding to phospholipids
206. Increased Generation of Reactive Oxygen Species (ROS) via Mechanosensing Requires PECAM in the Lung
207. Reactive Oxygen Species (ROS) generated with obstruction of blood flow drives vascular remodeling
208. πGST increases peroxidase activity of Prdx6 in cultured cells
209. Oxygen Therapy: Side Effects and Toxicity1,2
210. Choline Transport by Lung Epithelium
211. Peroxiredoxin 6 differentially regulates acute and chronic cigarette smoke–mediated lung inflammatory response and injury
212. Targeted Disruption Of Prdx6 Does Not Show Increased Susceptibility To Cigarette Smoke-mediated Lung Inflammation And Emphysema In Mouse Lung
213. Endothelial Cells from Peroxiredoxin 6 (Prdx6) Null Mice Exhibit Increased Sensitivity to Oxidative Stress and can be used in Rescue Experiments with Wild Type and Mutant Prdx6 Expression Vectors
214. The PI 3‐kinase/Akt pathway plays a role in the trafficking of the surfactant protein‐A (SP‐A) receptor P63 (CKAP4) to the cell surface of type II pneumocytes
215. PI3Kinase/Akt activation trigger ROS production in a model of pulmonary ischemia
216. The PLA2 activity is required for Angiotensin II‐mediated Endothelial NADPH oxidase
217. Endothelial mechanotransduction with loss of shear is a signal for angiogenesis
218. Comparison of glutathione peroxidase 1 (GPx1) and peroxiredoxin 6 (Prdx6) in protection against lung oxidative stress in a perfused lung model
219. KGF Induction of Human Peroxiredoxin 6 (Prdx6) Gene Expression is Mediated by the Transcription Factor Nrf2
220. Functional Interaction of piGST and Peroxiredoxin 6 (Prdx6) in Cultured Cells
221. ERK and p38 MAPK regulate chaperone‐mediated peroxiredoxin 6 targeting to lysosomal organelles in lung epithelial cells
222. Phospholipases: Degradation of Phospholipids in Membranes and Emulsions
223. OXYGEN THERAPY
224. Redox Signaling Across Cell Membranes
225. Binding of peroxiredoxin 6 to substrate determines differential phospholipid hydroperoxide peroxidase and phospholipase A2 activities
226. Forward transport of the receptor P63 is necessary for secretagogue‐enhanced surfactant protein‐A (SP‐A) binding to type II pneumocytes
227. Human Peroxiredoxin 6 (Prdx6) gene expression is regulated by keratinocyte growth factor (KGF) through the same antioxidant response element (ARE) that controls its response to oxidative stress
228. ERK and p38 MAPK regulate peroxiredoxin 6 targeting to lysosomal‐like organelles in lung epithelium cells
229. Comparison of two peroxidase knockout mouse models: effect of oxygen exposure
230. Depolarization is the trigger for PI3K/Akt activation and leads to ROS production in a model of pulmonary ischemia
231. Both Peroxidase and Phospholipase A2 Activities of Peroxiredoxin 6 Play a Role in its Protection against Oxidative Stress
232. Hyperoxia and acute lung injury
233. Peroxiredoxin 6 as an antioxidant enzyme: Protection of lung alveolar epithelial type II cells from H2O2‐induced oxidative stress
234. Rac and PI3 Kinase Mediate Endothelial Cell–Reactive Oxygen Species Generation During Normoxic Lung Ischemia
235. ERK and p38 MAPK‐regulated peroxiredoxin 6 localization to lamellar bodies in MLE 12 cells
236. Role of PI3Kinase/Akt and Rac in activation of the endothelial NADPH oxidase with Ischemia
237. Ischemia in the Pulmonary Vasculature: Redox Signaling for Angiogenesis
238. Microscale solution IEF combined with 2‐D DIGE substantially enhances analysis depth of complex proteomes such as mammalian cell and tissue extracts
239. Superoxide Flux in Endothelial Cells via the Chloride Channel-3 Mediates Intracellular Signaling
240. Identification of the Site for Phospholipid Binding to Peroxiredoxin 6: Coordination of the Phospholipase and Peroxidase Activities
241. Evidence Supporting Model of Glutathione S‐Transferase pi/1‐Cysteine Peroxiredoxin Complex
242. The sequence between 30 and 40 amino acids in the peroxiredoxin 6 N‐terminal region is required for its localization to lamellar bodies in MLE 12 cells
243. Pathway for trafficking of surfactant protein A (SP‐A) to lamellar bodies
244. An antioxidant response element in the human peroxiredoxin 6 (Prdx6) promoter is necessary for induction by H 2 O 2
245. Thrombin stimulates calcium‐dependent production of mitochondrial ROS in pulmonary microvascular endothelial cells
246. Overoxidized peroxiredoxin VI (Prdx6) loses peroxidase activity but retains the ability to bind phospholipid hydroperoxides and phospholipase A2 (PLA2) activity.
247. Peroxiredoxin 6 protects lung epithelial type II cells against H 2 O 2 ‐induced oxidative stress
248. Caveolin‐1 Knockout Lung Endothelial Cells Demonstrate Abrogated ROS Production and Cell Proliferation with Altered Shear Stress
249. Actin‐dependent Pathway is Responsible for Endocytosis of Dipalmitoylphosphatidyl choline (DPPC)‐labeled liposomes by SP‐A deficient mice
250. The Human Peroxiredoxin 6 (Prdx6) Promoter Activity is Stimulated by H 2 O 2
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