Abstract
Bruck syndrome is a rare autosomal recessive connective tissue disorder characterized by fragile bones, joint contractures, scoliosis, and osteoporosis. The telopeptides of bone collagen I are underhydroxylated in these patients, leading to abnormal collagen cross-linking. Three point mutations in lysyl hydroxylase (LH) 2, the enzyme responsible for the hydroxylation of collagen telopeptides, have been identified in Bruck syndrome. As none of them affects the residues known to be critical for LH activity, we studied their consequences at the molecular level by analyzing the folding and catalytic properties of the corresponding mutant recombinant polypeptides. Folding and oligomerization of the R594H and G597V mutants were abnormal, and their activity was reduced by >95% relative to the wild type. The T604I mutation did not affect the folding properties, although the mutant retained only approximately 8% activity under standard assay conditions. As the reduced activity was caused by a 10-fold increase in the K(m) for 2-oxoglutarate, the mutation interferes with binding of this cosubstrate. In the presence of a saturating 2-oxoglutarate concentration, the activity of the T604I mutant was approximately 30% of that of the wild type. However, the T604I mutant did not generate detectable amounts of hydroxylysine in the N-terminal telopeptide of a recombinant procollagen I chain when coexpressed in insect cells. The low activity of the mutant LH2 polypeptides is in accordance with the markedly reduced extent of collagen telopeptide hydroxylation in Bruck syndrome, with consequent changes in the cross-linking of collagen fibrils and severe abnormalities in the skeletal structures.
Highlights
1211128 and by the Sigrid Juselius Foundation. 1 To whom correspondence should be addressed: Oulu Center for Cell-Matrix
The identity is highest within the C-terminal region that contains the catalytically critical amino acids: two histidines and one aspartate (His638, Asp640, and His690 in processed human LH1) that are required for binding Fe2ϩ to the catalytic site and one arginine (Arg700 in LH1) that binds the C-5 carboxyl group of 2-oxoglutarate (7, 8)
The wild-type and T604I LH2(long) polypeptides became essentially completely bound to the affinity column, whereas significant amounts of the R594H and G597V mutant polypeptides were found in the flow-through fractions, and additional amounts were detached during the wash step (Fig. 2)
Summary
Expression of Wild-type and Mutant Recombinant Human LH2(Long) Polypeptides in Insect Cells and Their Purification— Generation of the baculovirus transfer vector and the recombinant baculovirus for the expression of human histidine-tagged full-length wild-type LH2(long) with a gp secretory signal has been described (18, 35). Samples of the bound proteins before and after washing the column and the flow-through, wash, and elution fractions were analyzed by 8% SDS-PAGE under reducing conditions, followed by Coomassie Blue staining. The pellet was further dissolved in 2 volumes of 0.6 M acetic acid for 2 h and centrifuged as described above The supernatants from both centrifugation steps were combined, and NaCl was added to a final concentration of 3 M, followed by the addition of pepsin to a final concentration of 1 mg/ml after a 1-h incubation. The pellet was washed with 2⁄3 volumes of 4 M NaCl and 0.05 M Tris buffer (pH 7.4) for 1 h and collected by centrifugation at 15,000 ϫ g for 1 h It was dissolved in 0.1 M acetic acid, and samples were blotted onto ProBlottTM membrane and subjected to N-terminal protein sequencing with a ProciseTM 492 protein sequencer
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