1999
DOI: 10.1073/pnas.96.3.1054
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Defective collagen crosslinking in bone, but not in ligament or cartilage, in Bruck syndrome: Indications for a bone-specific telopeptide lysyl hydroxylase on chromosome 17

Abstract: Bruck syndrome is characterized by the presence of osteoporosis, joint contractures, fragile bones, and short stature. We report that lysine residues within the telopeptides of collagen type I in bone are underhydroxylated, leading to aberrant crosslinking, but that the lysine residues in the triple helix are normally modified. In contrast to bone, cartilage and ligament show unaltered telopeptide hydroxylation as evidenced by normal patterns of crosslinking. The results provide compelling evidence that collag… Show more

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Cited by 177 publications
(182 citation statements)
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“…Little is currently known about the other two LH isoenzymes, however, and nothing is known of their mutations. Evidence has even been presented suggesting the existence of a fourth human LH isoenzyme (29), which hydroxylates only lysine residues in telopeptides, the short non-triple helical sequences at both ends of collagen molecules, but no attempts to clone or characterize this isoenzyme have been reported so far.…”
Section: Discussionmentioning
confidence: 99%
“…Little is currently known about the other two LH isoenzymes, however, and nothing is known of their mutations. Evidence has even been presented suggesting the existence of a fourth human LH isoenzyme (29), which hydroxylates only lysine residues in telopeptides, the short non-triple helical sequences at both ends of collagen molecules, but no attempts to clone or characterize this isoenzyme have been reported so far.…”
Section: Discussionmentioning
confidence: 99%
“…In skin, the telopeptides are not hydroxylated, and no such rearrangement of the Schiff base cross-link occurs. These two different chemistries, dependent on telopeptide lysine hydroxylation, lead to the formation of different mature cross-links by further reaction of the difunctional cross-links in a tissuespecific manner: hydroxylation of the telopeptide lysine residues appears to be accomplished by tissue-specific enzymes, distinct from those that hydroxylate lysines in the helix (2). For the hydroxylysyl aldehyde pathway (bone, cartilage, and tendon), the difunctional cross-links can combine with another hydroxylysine aldehyde-derived component to form a pyridinium cross-link.…”
mentioning
confidence: 99%
“…Analysis of bone samples from patients with this syndrome has demonstrated underhydroxylation of lysine residues in collagen telopeptides leading to aberrant cross-linking, while the lysines in the triple helical region are hydroxylated normally (20). No mutations in the human PLOD3 gene for LH3 have been characterized, but homozygous inactivation of the mouse Plod3 gene is lethal at E9.5 because of an abnormal aggregation of basement membrane-specific collagen IV (11,12).…”
mentioning
confidence: 99%