The distribution, deposition and stabilization of different collagen types are crucial for the formation and maintenance of functional connective tissue matrices. We plan to investigate the extent and importance of aldehyde-derived and disulfide-derived crosslinks between the same and different collagen types during tissue development and maturation. We will use both in vitro and in vivo models of fibrillogenesis to study the location and temporal sequence of crosslink formation. These data will identify collagen packing arrangements in fibrillar and non-fibrillar extracellular matrices. Collagen fibers will be reconstitiuted from type I and/or type III collagen using mixtures of labeled lathyritic and unlabeled normal collagen. This will permit the identification of amino and aldehyde donors in crosslink formation. The frequency and location of crosslinks along different kinds of collagen chains will be determined by collagenase digestion and 2-D CNBr mapping. The diversity of crosslink patterns between homopolymers and heteropolymers in skin, bone, tendon and gramulation tissues will be explored using methods to identify and purify crosslinked peptides containing the carboxy-terminal CNBr peptides of type I and type III collagen. This will be accomplished by using monoclonal antibodies to a1(I)-CB6 and a2(I)-CB5, and a sulfhydryl affinity column for a1(III)-CB9. These peptides will be further fractionated by 2-D CNB4r mapping and then characterized by tryptic fingerprinting and amino acid analysis. The presence and formation of intermolecular disulfide crosslinks in type III collagen has been demonstrated in our laboratory. We will test whether these crosslinks allow type III collagen to form a transient early scaffolding for developing tisuses by identifying type III disulfide bonded polymers during formation of granulation tissue. Polymers will be identified by sedimentation and 2-D mapping. Finally, the structure of EC collagen will be investigated with emphasis on the sequence and polarity of the peptides. The molecular interactions of EC collagen in basement membrane architecture will be analyzed by determining the location of crosslinked CNBr peptides beteen itself and type IV collagen. Crosslinked peptides in Descemet's membrane an basement membrane derived from cultured corneal endothelial cells will be labelled, fractioned by 2-D mapping and characterized by tryptic fingerprinting on HPLC.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR010358-21
Application #
3154685
Study Section
Pathobiochemistry Study Section (PBC)
Project Start
1979-07-01
Project End
1991-03-31
Budget Start
1988-04-01
Budget End
1989-03-31
Support Year
21
Fiscal Year
1988
Total Cost
Indirect Cost
Name
University of Southern California
Department
Type
Schools of Medicine
DUNS #
041544081
City
Los Angeles
State
CA
Country
United States
Zip Code
90033
Sank, A; Chalabian-Baliozian, J; Ertl, D et al. (1993) Cellular responses to silicone and polyurethane prosthetic surfaces. J Surg Res 54:12-20
Sank, A; Rostami, K; Weaver, F et al. (1992) New evidence and new hope concerning endothelial seeding of vascular grafts. Am J Surg 164:199-204
Paule, W J; Bernick, S; Strates, B et al. (1992) Calcification of implanted vascular tissues associated with elastin in an experimental animal model. J Biomed Mater Res 26:1169-77
DiCesare, P E; Nimni, M E; Peng, L et al. (1991) Effects of indomethacin on demineralized bone-induced heterotopic ossification in the rat. J Orthop Res 9:855-61
Cheung, D T; Tong, D; Perelman, N et al. (1990) Mechanism of crosslinking of proteins by glutaraldehyde. IV: In vitro and in vivo stability of a crosslinked collagen matrix. Connect Tissue Res 25:27-34
Cheung, D T; Benya, P D; Perelman, N et al. (1990) A highly specific and quantitative method for determining type III/I collagen ratios in tissues. Matrix 10:164-71
Villanueva, J E; Nimni, M E (1990) Promotion of calvarial cell osteogenesis by endothelial cells. J Bone Miner Res 5:733-9
Di Cesare, P E; Cheung, D T; Perelman, N et al. (1990) Alteration of collagen composition and cross-linking in keloid tissues. Matrix 10:172-8
Huang-Lee, L L; Cheung, D T; Nimni, M E (1990) Biochemical changes and cytotoxicity associated with the degradation of polymeric glutaraldehyde derived crosslinks. J Biomed Mater Res 24:1185-201
Villanueva, J E; Nishimoto, S K; Nimni, M E (1989) Cells isolated from fetal rat calvaria by isopycnic separation express different collagen phenotypes. Matrix 9:40-8