Abstract
The procollagen COOH-terminal proteinase enhancer (PCPE) is a glycoprotein that binds the COOH-terminal propeptide of type I procollagen and potentiates its cleavage by procollagen C-proteinases, such as bone morphogenetic protein-1 (BMP-1). Recently, sequencing of a human expressed sequence tag, which maps near the primary open angle glaucoma region on chromosome 3q21, showed it to encode a novel protein with only 43% identity with PCPE but with a similar domain structure. Here we show this novel protein to be a functional procollagen COOH-terminal proteinase enhancer with activity comparable with that of PCPE and thus propose the designations PCPE2 and PCPE1, respectively. PCPE2 is shown to have a much more limited distribution of expression than does PCPE1, with strong expression primarily in nonossified cartilage in developing tissues and at high levels in the adult heart. PCPE2 is shown to be a glycoprotein that differs markedly in the nature of its glycosylation from that of PCPE1. PCPE2 is also shown to have markedly stronger affinity for heparin than PCPE1, which may account for higher affinities for cell layers. Unexpectedly, both PCPE1 and PCPE2 were found to be collagen-binding proteins, capable of binding at multiple sites on the triple helical portions of fibrillar collagens and also capable of competing for such binding with procollagen C-proteinases. The latter observations may provide insights into the ways PCPEs affect the kinetics of the C-proteinase reaction and into the physical interactions that occur between procollagen C-proteinases and their substrates.
Highlights
Procollagen precursors of the major fibrillar collagens I–III contain N- and C-propeptides[1] that are cleaved to yield the
Sequencing of a human expressed sequence tag, which maps near the primary open angle glaucoma region on chromosome 3q21, showed it to encode a novel protein with only 43% identity with procollagen COOH-terminal proteinase enhancer (PCPE) but with a similar domain structure
We demonstrate that the PCOLCE2 gene product, with only 43% amino acid identity to PCPE, is a functional procollagen C-proteinase enhancer and suggest the designations procollagen C-proteinase enhancer 2 (PCPE2) and PCPE1, respectively
Summary
N-propeptide, amino-terminal propeptide; C-propeptide, carboxyl-terminal propeptide; PCP, procollagen Cproteinase; BMP-1, bone morphogenetic protein-1; PCPE, procollagen C-proteinase enhancer; CUB domain, complement-Uegf-BMP-1 domain; NTR domain, netrin domain; dpc, days post conception; PBS, mature triple helical monomers capable of forming fibrils (1). A human expressed sequence tag from the 3q21-q24 chromosomal region, to which a primary open angle glaucoma locus had been mapped, was found to encode a protein with a domain structure similar to that of PCPE and 43% identity in amino acid sequence (12) This novel protein is found at relatively high levels in the trabecular meshwork of phosphate-buffered saline; mTLL-1, mammalian Tolloid-related 1; mTLD, mammalian Tolloid; mTLL-2, mammalian Tolloid-like 2; Tsg, twisted gastrulation; dpc, days postconception; PNGase F, peptide Nglycosidase F. Analysis of a wide range of developing and adult tissues shows PCPE2 to have a distribution of expression strikingly different and much more limited than that of PCPE1 Both PCPE1 and PCPE2 were found to bind the triple helical portion of fibrillar collagen and to compete in such binding with procollagen C-proteinases.
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