Elafin Therapy for Lung Diseases
Stanford University, Stanford CA
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): We bring together physician scientists to pursue exciting pre-clinical data indicating that the endogenous neutrophil elastase inhibitor, elafin, is a highly effective therapy for three very challenging lung conditions, pulmonary hypertension (PAH), ventilator induced injury of the immature lung and lung transplant rejection. Project I pursues preliminary data supporting the premise that elafin can reverse the endothelial and smooth muscle cell dysfunction in patients with PAH, to allow regeneration of distal blood vessels and regression of obliterative lesions. The previous successful use of elastase inhibitors to reverse experimentally-induced PAH will be extended by assessing whether elafin can cause regression of a rodent pathology that more closely reproduces the hemodynamic and structural features of human disease. We will also determine whether the action of elafin will be enhanced by apelin, since apelin levels are reduced by dysfunctional BMPRII signaling. Project II pursues the successful use of elafin in protecting the mechanically ventilated newborn mouse lung, by reducing TGFB activation, lung cell apoptosis and impaired alveolar formation. Project II determines whether the action of elafin can be enhanced by direct blockade of enhanced TGFIS activity using an antibody or losartan. Project III shows, in exciting preliminary data, that elafin can protect the microcirculation in the murine tracheal transplant model, and prevent airway ischemia associated with bronchiolitis obliterans. This project further investigates the efficacy of combining elafin with low dose immunosuppression or of achieving high levels of elafin by adenoviral mediated gene therapy applied directly to the transplant. In all three projects, biomarkers of elastin degradation are investigated as a tool to judge elafin responsiveness. We will investigate the efficacy of these biomarkers in stratifying patients most likely to respond to elafin. A strong Biomarker Core of skilled clinical investigators coordinates the bioassays, the patient database and the physiological studies of lung and vascular function. The Administrative Core facilitates exchange of information and postdoctoral training in Lung Translational Medicine, and facilitates our strategy to move elafin into clinical trial in the next cycle.
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