Peptides for the treatment of pulmonary fibrosis - ABSTRACT Fibroproliferative illnesses leading to organ fibrosis and failure are responsible for approximately 45% of deaths in developed countries. Whether idiopathic, triggered by environmental factors, infections, or genetics, organ fibrosis results in significant morbidity and mortality. Organ fibrosis is responsible for health care costs exceeding $10 billion/year. It is estimated that the number of deaths due to fibrosis is double the number of deaths due to cancer, and that organ fibrosis results in significant physical, emotional, and financial burdens. Specifically, lung fibrosis can be idiopathic, associated with connective tissue diseases, or triggered by environmental and occupational exposures such as radiotherapy. There are currently no effective therapies to treat existing lung fibrosis as recently approved drugs merely reduce disease progression and result in significant side effects. Thus, the only curative option for patients is organ transplantation, which is impossible at the scale needed. We have identified peptides derived from collagen XVIII which exert anti-fibrotic effects in murine and human pre- clinical models of lung fibrosis. The beneficial effects include reducing fibrosis in lung tissues of patients with pulmonary fibrosis who underwent lung transplantation and thus have end-stage severe fibrosis, an effect not seen with other drugs that are approved or being evaluated for these illnesses. We propose to simultaneous test the identified peptides in our pre-clinical models of fibrosis and identify a lead candidate. We also propose to further characterize the efficacy of the lead candidate, conduct dose escalation studies, and optimize the dosing regimen. We have assembled a unique team with the expertise to develop the lead peptide. Our team includes an accelerator partner. Successful completion of this project will support our long-term goal of translating our findings to the clinic and provide patients with pulmonary fibrosis with an effective therapy. Our approach is likely to have broad impact and relevance for fibrosis in different organs.
