Mechanosensors that detect and treat Lung Fibrosis
Georgia Institute Of Technology, Atlanta GA
Investigators
Linked publications & trials
Abstract
? DESCRIPTION (provided by applicant): Idiopathic Pulmonary Fibrosis, or IPF, is a terminal disease affecting as many as 500,000 Americans with no FDA-approved therapies capable of stopping disease progression. The disease is characterized by excessive assembly of extracellular matrix (ECM) by activated fibroblasts termed `myofibroblasts'. Recently, studies have demonstrated that tissue mechanics, specifically tissue stiffness resulting from myofibroblasts assembly of ECM and contraction, is capable of driving the differentiation of myofibroblasts and thus disease progression. In short, myofibroblasts are capable of recruiting more myofibroblasts leading to a disease that progresses unchecked. Despite these recent findings we still do not understand how the process is initiated, nor do we have any therapies that effective halt disease progression. Basic molecular mechanisms for how cells sense this stiffness (mechano-sensing) have, however, been developed and identified. In this project we are harnessing the same cellular mechanisms that allow them to sense the increased stiffness toward the development of technology for delivering local, scar-directed therapy with the goal of treating and curing pulmonary fibrosis directly. This approach leverages years of scientific insight into the basis for mechanical sensing by cells and co-opts naturally occurring paradigms to turn the disease state against itself.
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