Abstract
Hypoxia-inducible factors (HIFs) are the master regulators of hypoxia-responsive genes. They play a critical role in the survival, development, and differentiation of chondrocytes in the avascular hypoxic fetal growth plate, which is rich in extracellular matrix (ECM) and in its main component, collagens. Several genes involved in the synthesis, maintenance, and degradation of ECM are regulated by HIFs. Collagen prolyl 4-hydroxylases (C-P4Hs) are key enzymes in collagen synthesis because the resulting 4-hydroxyprolines are necessary for the stability of all collagen molecules. The vertebrate C-P4Hs are α(2)β(2) tetramers with three isoforms of the catalytic α subunit, yielding C-P4Hs of types I-III. C-P4H-I is the main form in most cells, but C-P4H-II is the major form in chondrocytes. We postulated here that post-translational modification of collagens, particularly 4-hydroxylation of proline residues, could be one of the modalities by which HIF regulates the adaptive responses of chondrocytes in fetal growth plates. To address this hypothesis, we used primary epiphyseal growth plate chondrocytes isolated from newborn mice with conditionally inactivated genes for HIF-1α, HIF-2α, or the von Hippel-Lindau protein. The data obtained showed that C-P4H α(I) and α(II) mRNA levels were increased in hypoxic chondrocytes in a manner dependent on HIF-1 but not on HIF-2. Furthermore, the increases in the C-P4H mRNA levels were associated with both increased amounts of the C-P4H tetramers and augmented C-P4H activity in hypoxia. The hypoxia inducibility of the C-P4H isoenzymes is thus likely to ensure sufficient C-P4H activity for collagen synthesis occurring in chondrocytes in a hypoxic environment.
Highlights
The hypoxic cartilaginous growth plate is rich in extracellular matrix (ECM)
Expression of P4ha1 and P4ha2 mRNAs Is Increased in Hypoxic Newborn Mouse Epiphyseal Growth Plate Chondrocytes—To study the effect of hypoxia and the roles of the key regulators of the hypoxia response pathway, von Hippel-Lindau (VHL), Hypoxia-inducible factors (HIFs)-1, and HIF-2, on the expression of collagen prolyl 4-hydroxylases (C-P4Hs) in chondrocytes, primary chondrocytes were isolated from the epiphyseal growth plates of newborn Vhlf/f, Hif-1af/f, and Hif-2af/f mice and cultured in a monolayer
The expression of several genes involved in the synthesis, maintenance, and degradation of ECM has been shown to be up-regulated by hypoxia, including those encoding the C-P4Hs, lysyl hydroxylases, and lysyl oxidases, enzymes that are required in collagen synthesis and for the proper forma
Summary
The hypoxic cartilaginous growth plate is rich in extracellular matrix (ECM). Results: Expression of the key enzymes in ECM synthesis, the collagen prolyl 4-hydroxylases (C-P4Hs), is induced by hypoxia-inducible factor 1. Hypoxia-inducible factors (HIFs) are the master regulators of hypoxia-responsive genes They play a critical role in the survival, development, and differentiation of chondrocytes in the avascular hypoxic fetal growth plate, which is rich in extracellular matrix (ECM) and in its main component, collagens. To establish the effects of hypoxia on C-P4H expression and activity and their HIF dependence, we made use here of epiphyseal growth plate chondrocytes isolated from newborn mice with conditionally inactivated genes for HIF-1␣, HIF-2␣, or VHL, respectively Using this experimental model, we were able to demonstrate that the levels of mRNAs encoding for the C-P4H ␣(I) and ␣(II) subunits are increased by approximately 2.5– 6-fold in hypoxic newborn growth plate chondrocytes and that this increase is exclusively dependent on HIF-1␣. The hypoxia inducibility of the C-P4H isoenzymes is likely to ensure sufficient C-P4H activity for collagen synthesis occurring in growth plate chondrocytes in a hypoxic environment
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