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  • Title: Endoplasmic reticulum-mediated quality control of type I collagen production by cells from osteogenesis imperfecta patients with mutations in the pro alpha 1 (I) chain carboxyl-terminal propeptide which impair subunit assembly.
    Author: Lamandé SR, Chessler SD, Golub SB, Byers PH, Chan D, Cole WG, Sillence DO, Bateman JF.
    Journal: J Biol Chem; 1995 Apr 14; 270(15):8642-9. PubMed ID: 7721766.
    Abstract:
    A heterozygous single base change in exon 49 of COL1A1, which converted the codon for pro alpha 1(I) carboxyl-terminal propeptide residue 94 from tryptophan (TGG) to cysteine (TGT) was identified in a baby with lethal osteogenesis imperfecta (OI64). The C-propeptide mutations in OI64 and in another lethal osteogenesis imperfecta cell strain (OI26), which has a frameshift mutation altering the sequence of the carboxyl-terminal half of the propeptide (Bateman, J. F., Lamande, S. R., Dahl, H.-H. M., Chan, D., Mascara, T. and Cole, W. G. (1989) J. Biol. Chem. 264, 10960-10964), disturbed procollagen folding and retarded the formation of disulfide-linked trimers. Although assembly was delayed, the presence of slowly migrating, overmodified alpha 1(I) and alpha 2(I) chains indicated that mutant pro alpha 1(I) could associate with normal pro alpha 1(I) and pro alpha 2(I) to form pepsin-resistant triple-helical molecules, a proportion of which were secreted. Further evidence of the aberrant folding of mutant procollagen in OI64 and OI26 was provided by experiments demonstrating that the endoplasmic reticulum resident molecular chaperone BiP, which binds to malfolded proteins, was specifically bound to type I procollagen and was coimmunoprecipitated in the osteogenesis imperfecta cells but not control cells. Experiments with brefeldin A, which inhibits protein export from the endoplasmic reticulum, demonstrated that unassembled mutant pro alpha 1(I) chains were selectively degraded within the endoplasmic reticulum resulting in reduced collagen production by the osteogenesis imperfecta cells. This biosynthetic deficiency was reflected in the inability of OI64 and OI26 cells to produce a substantial in vitro collagenous matrix when grown in the continuous presence of ascorbic acid to allow collagen matrix formation. Both these carboxyl-terminal propeptide mutants showed a marked reduction in collagen accumulation to 20% (or less) of control cultures, comparable to the reduced collagen content of tissues from OI26.
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