Patients with acute lung injury almost always require supplemental oxygen during treatment; however, elevated oxygen itself is toxic. Receptors for advanced glycation end-products (RAGE) are multi-ligand cell surface receptors predominantly localized to alveolar type I cells that influence development and cigarette smoke-induced inflammation, but studies that address the role of RAGE in acute lung injury are insufficient. In the present investigation, we test the hypothesis that RAGE signaling functions in hyperoxia-induced inflammation. RAGE-null mice exposed to hyperoxia survived 3 days longer than age-matched wild-type mice. After 4 days in hyperoxia, RAGE-null mice had less total cell infiltration into the airway, decreased total protein leak, diminished alveolar damage in hematoxylin and eosin-stained lung sections, and a lower lung wet-to-dry weight ratio. An inflammatory cytokine antibody array revealed decreased secretion of several proinflammatory molecules in lavage fluid obtained from RAGE knockout mice when compared with wild-type control animals. Real-time RT-PCR and immunoblotting revealed that hyperoxia induced RAGE expression in primary alveolar epithelial cells, and immunohistochemistry identified increased RAGE expression in the lungs of mice after exposure to hyperoxia. These data reveal that RAGE targeting leads to a diminished hyperoxia-induced pulmonary inflammatory response. Further research into the role of RAGE signaling in the lung should identify novel targets likely to be important in the therapeutic alleviation of lung injury and associated persistent inflammation.
We previously demonstrated up-regulation of the receptor for advanced glycation end-products (RAGE) and its ligands by cigarette smoke extract (CSE) in rat R3/1 cells, a type I-like alveolar epithelial cell line. However, RAGE-mediated intracellular signaling pathways that lead to pulmonary inflammation remained unclear. Using ELISAs, we demonstrate that alveolar epithelial cell lines exposed to 25% CSE for 2 hours induce the activation of Ras, a small GTPase that functions as a molecular switch in the control of several intracellular signaling networks. Conversely, cells treated with siRNA for RAGE (siRAGE) resulted in decreased Ras activation. Furthermore, Ras was significantly diminished in lungs from RAGE null mice exposed to chronic tobacco smoke when compared with smoke-exposed wild-type mice. The use of a luciferase reporter containing NF-κB binding sites also demonstrated elevated NF-κB activation in R3/1 cells after CSE stimulation and decreased NF-κB activation in cells transfected with siRAGE before CSE exposure. ELISA revealed an increase in the secretion of IL-1β and CCL5 by R3/1 cells, two cytokines induced by NF-κB and associated with leukocyte chemotaxis. Furthermore, real-time RT-PCR and ELISAs revealed decreased cytokine secretion in RAGE null mouse lung exposed to tobacco smoke compared with lungs from smoke-exposed wild-type animals. These results support the conclusion that CSE-induced RAGE expression functions in pathways that involve Ras-mediated NF-κB activation and cytokine elaboration. This RAGE-Ras-NF-κB axis likely contributes to inflammation associated with several smoking-related inflammatory lung diseases.
The objective of this study was to determine if point-of-care sonography of the shoulder would change diagnosis or management in patients presenting to a sports medicine clinic with shoulder pain. We performed an observational, nonrandomized, nonblinded study of provider behavior when evaluating patients presenting to a sports medicine clinic with shoulder pain. The provider completed a questionnaire regarding the most likely diagnosis and management plan after he or she had performed a physical examination and radiograph(s). Following the physical examination and radiograph(s), a bedside ultrasonographic examination (BUS) was done and the provider completed a second questionnaire regarding the findings on sonography and revisions, if any, to the diagnosis and management plan. Data were collected on 42 patient encounters. BUS led to a change in diagnosis in 53% of cases. BUS led to a change in management plan in 60.4% of patients. BUS increased provider confidence in the diagnosis from 3.7 ± 0.19 (95% confidence interval [CI]) to 4.5 ± 0.21 (95% CI) on a 1 to 5 scale, with 1 being least confident and 5 being most confident. The addition of bedside sonography to the physical examination and radiographic studies of patients with undifferentiated shoulder pain resulted in a significant number of changes to the diagnosis and management plan as well as significantly increased diagnostic confidence.
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