Chemistry and Biology of Collagen
University Of Wisconsin-Madison, Madison WI
Investigators
Linked publications, trials & patents
Abstract
DESCRIPTION (provided by applicant): Collagen is the most abundant protein in humans, comprising 1/3 of the total protein and 3/4 of the dry weight of skin. Collagen abnormalities are associated with many human diseases, including arthritis. The overall objective of the proposed research is to reveal the chemical basis for the unique triple-helical structure of collagen, and t devise new therapies based on that knowledge. Specific Aims: The four Specific Aims of this research proposal apply methods and ideas from physical organic chemistry, peptide chemistry, molecular self-assembly, chemical enzymology, and matrix biology. Aim 1 is to discern whether enhancing a newly appreciated physicochemical force-the n->?* interaction-can increase triple-helix stability. Aim 2 is to create collagen mimetic peptides that self-assemble into human-scale triple helices that are useful for biomedical applications. Aim 3 is to gain insight into the mechanism of catalysis by human prolyl 4-hydroxylase, which is the enzyme that installs the prevalent and important 4-hydroxyproline residues in collagen strands and is a target for the treatment of fibrotic diseases. Finally, Aim 4 is to use extant knowledge of collagen to create peptide conjugates to assess and heal wounds in mice. Significance: The results of the research proposed herein will provide fundamental insights into the structure and conformational stability of the collagen triple helix, and will use those insights to create transformative molecular therapies for wound care, which now accounts for up to $15B annually in US health care costs, and other indications.
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