Abstract
Previously undescribed disulfide-bonded collagenous pepsin-derived fragments have been isolated from fetal calf tendon and skin. One fragment, 10.5 kDa after reduction, was shown to be similar but distinct to the COL1 domain of the recently characterized type XII collagen (64% primary structure identity). The similarity includes important features such as size, location of the cysteine residues, and nature and position of an imperfection of the triple helix. From fetal calf skin, two approximately 34-kDa disulfide-bonded trimeric fragments were isolated in the unreduced form. Amino acid sequencing showed that one fragment contained solely the COL1 domain of type XII collagen while the other one only contained the COL1 domain of the new chain. Like type XII collagen, the new chain is therefore part of a homotrimeric molecule and should thus be considered as a distinct collagen type. We propose to call the molecule from which this fragment is derived, type XIV collagen, with a chain composition (alpha 1 (XIV]3. The presence of a domain similar to the COL1 domain of collagens types IX and XII suggests that type XIV collagen belongs to the group of fibril-associated collagens with interrupted triple helices (FACIT). Two other fragments, 13.5 and 17 kDa after reduction, were also purified. They were shown to contain the same triple helical domain with different pepsin cleavage sites at the amino terminus. Several tryptic peptides were sequenced, and the derived sequences could be aligned with the COL2 domain of type XII collagen or with flanking sequences in the NC2 and NC3 domains (61% sequence identity). These fragments are very likely to be also derived from type XIV collagen.
Highlights
Previouslyundescribeddisulfide-bondedcollagenumber of macromolecular constituents which are involved nous pepsin-derived fragments have been isolated frionmvaried spatial arrangements and in complex interactions fetal calf tendon and skin
A number of other molecules are known or thought to affect andmodulatetheproperties of the fibrils, suchasother ments were isolated in the unreduced Afomrmin.o acid collagens sequencing showedthat one fragment containedsolely [1,2,3], proteoglycans the COLl domain of type XI1 collagen while the other [4], and various structuralglycoproteins (fibronectin ( 5 ),tenone only containedthe COLl domain of the new chain. ascin [6],and the recentlydescribed undulin [7])
Like typeXI1 collagen, the new chainis part Among the collagens that have been shown to participate of a homotrimeric molecule and should beconsid- in heterotypic fibrils, some do present clearhomologies with ered as a distinct collagen type
Summary
Tendon-The fractionation of pepsin extractsfrom fetal calf skin and tendon was performed as described previously for the pepsin fragments of chick type XI1 collagen [22]. In the 2 M NaCl precipitate from tendon, fragments were noted with apparent molecular masses of 10.5, 13.5, and 17 kDa afterreduction. This precipitatewas redissolved in TrisHC1 buffer, pH 7.6, containing 5 M urea, filtered, applied on an HPLC column, and eluted in the heptafluorobutyricacid. High Performance Liquid Chromatography (HPLC)-Separations of peptide fragments by HPLC were done as described before, using either 10 mM heptafluorobutyric acid or 9 mM trifluoroacetic acid as. 10.5-kDa fragment from fetal calf tendon was digested with trypsin, and the resulting peptideswere separated by HPLC (trifluoroacetic acid system) (Fig. 2). Thepeptidescorresponding toseveral major HPLC peakswere further purified by HPLC(heptafluorobutyric acid system)and sequenced
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