Abstract
Lysyl hydroxylase 2 (LH2) catalyzes the hydroxylation of lysine residues in the telopeptides of fibrillar collagens, which leads to the formation of stable collagen cross-links. Recently we reported that LH2 enhances the metastatic propensity of lung cancer by increasing the amount of stable hydroxylysine aldehyde-derived collagen cross-links (HLCCs), which generate a stiffer tumor stroma (Chen, Y., et al. (2015) J. Clin. Invest. 125, 125, 1147–1162). It is generally accepted that LH2 modifies procollagen α chains on the endoplasmic reticulum before the formation of triple helical procollagen molecules. Herein, we report that LH2 is also secreted and modifies collagen in the extracellular space. Analyses of lung cancer cell lines demonstrated that LH2 is present in the cell lysates and the conditioned media in a dimeric, active form in both compartments. LH2 co-localized with collagen fibrils in the extracellular space in human lung cancer specimens and in orthotopic lung tumors generated by injection of a LH2-expressing human lung cancer cell line into nude mice. LH2 depletion in MC3T3 osteoblastic cells impaired the formation of HLCCs, resulting in an increase in the unmodified lysine aldehyde-derived collagen cross-link (LCC), and the addition of recombinant LH2 to the media of LH2-deficient MC3T3 cells was sufficient to rescue HLCC formation in the extracellular matrix. The finding that LH2 modifies collagen in the extracellular space challenges the current view that LH2 functions solely on the endoplasmic reticulum and could also have important implications for cancer biology.
Highlights
Lysyl hydroxylase 2 (LH2) catalyzes the hydroxylation of lysine residues in the telopeptides of fibrillar collagens, which leads to the formation of stable collagen cross-links
We reported that LH2 enhances the metastatic propensity of lung cancer by increasing the amount of stable hydroxylysine aldehyde-derived collagen cross-links (HLCCs), which generate a stiffer tumor stroma (Chen, Y., et al (2015) J
Telopeptidyl Lys and Hyl residues on collagen molecules are oxidatively deaminated by lysyl oxidases (LOXs),4 producing the reactive aldehydes Lysald and Hylald, respectively, which initiates a series of condensation reactions to form various covalent intermolecular cross-links involving juxtaposed Lys, Hyl, and histidine (His) residues on the neighboring molecules, resulting in the formation of Hylald-derived collagen cross-links (HLCCs) [2]
Summary
Lysyl hydroxylase 2 (LH2) catalyzes the hydroxylation of lysine residues in the telopeptides of fibrillar collagens, which leads to the formation of stable collagen cross-links. Telopeptidyl Lys and Hyl residues on collagen molecules are oxidatively deaminated by lysyl oxidases (LOXs), producing the reactive aldehydes Lysald and Hylald, respectively, which initiates a series of condensation reactions to form various covalent intermolecular cross-links involving juxtaposed Lys, Hyl, and histidine (His) residues on the neighboring molecules, resulting in the formation of Hylald-derived collagen cross-links (HLCCs) [2]. HLCCs are produced through the divalent iminium cross-links dehydro-hydroxylysinonorleucine (deH-HLNL) when paired with a juxtaposed Lys residue (i.e. HylaldXLys) on a neighboring molecule, and deH-dihydroxylysinonorlecine (deH-DHLNL) with a Hyl residue (i.e. HylaldXHyl) These are spontaneously rearranged to form the stable ketoamines by Amadori rearrangement mature into the formation of the trivalent pyridinium cross-links, pyridinoline (Pyr) (i.e. HylaldXHylald XHyl) and deoxypyridinoline (d-Pyr) (i.e. HylaldXHylaldXLys). This implies that extracellular LH2 modifies telopeptidyl Lys residues before their LOX-catalyzed conversion to aldehyde, which challenges the current paradigm that LH2 modifies only intracellular nascent procollagen ␣ chains
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