Antiangiogenic Treatment Delays Chondrocyte Maturation and Bone Formation During Limb Skeletogenesis

Hypertrophic chondrocytes have important roles in promoting invasion of cartilage by blood vessels and its replacement with bone. However, it is unclear whether blood vessels exert reciprocal positive influences on chondrocyte maturation and function. Therefore, we implanted beads containing the ant...

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Bibliographic Details
Published in:Journal of bone and mineral research 2002-01, Vol.17 (1), p.56-65
Main Authors: Yin, Melinda, Gentili, Chiara, Koyama, Eiki, Zasloff, Michael, Pacifici, Maurizio
Format: Article
Language:English
Subjects:
angiogenesis
Angiogenesis Inhibitors - pharmacology
Animals
Biological and medical sciences
Bone Development - drug effects
Bone Development - physiology
Cells, Cultured
Chick Embryo
Cholestanols - pharmacology
chondrocyte maturation
Chondrocytes - cytology
Chondrocytes - drug effects
Chondrocytes - metabolism
Collagen Type X - metabolism
Connective Tissue Growth Factor
endochondral ossification
Extremities - embryology
Fundamental and applied biological sciences. Psychology
Growth Substances - metabolism
Hedgehog Proteins
Humerus - drug effects
Humerus - embryology
Humerus - metabolism
Immediate-Early Proteins - metabolism
Immunohistochemistry
Indian hedgehog
Intercellular Signaling Peptides and Proteins
limb development
Matrix Metalloproteinase 9 - metabolism
Skeleton and joints
squalamine
Trans-Activators - metabolism
Transferrin - metabolism
Vertebrates: osteoarticular system, musculoskeletal system
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Summary:Hypertrophic chondrocytes have important roles in promoting invasion of cartilage by blood vessels and its replacement with bone. However, it is unclear whether blood vessels exert reciprocal positive influences on chondrocyte maturation and function. Therefore, we implanted beads containing the antiangiogenic molecule squalamine around humeral anlagen in chick embryo wing buds and monitored the effects over time. Fluorescence microscopy showed that the drug diffused from the beads and accumulated in humeral perichondrial tissues, indicating that these tissues were the predominant targets of drug action. Diaphyseal chondrocyte maturation was indeed delayed in squalamine‐treated humeri, as indicated by reduced cell hypertrophy and expression of type X collagen, transferrin, and Indian hedgehog (Ihh). Although reduced in amount, Ihh maintained a striking distribution in treated and control humeri, being associated with diaphyseal chondrocytes as well as inner perichondrial layer. These decreases were accompanied by lack of cartilage invasion and tartrate‐resistant acid phosphatase‐positive (TRAP+) cells and a significant longitudinal growth retardation. Recovery occurred at later developmental times, when in fact expression in treated humeri of markers such as matrix metalloproteinase 9 (MMP‐9) and connective tissue growth factor (CTGF) appeared to exceed that in controls. Treating primary cultures of hypertrophic chondrocytes and osteoblasts with squalamine revealed no obvious changes in cell phenotype. These data provide evidence that perichondrial tissues and blood vessels in particular influence chondrocyte maturation in a positive manner and may cooperate with hypertrophic chondrocytes in dictating the normal pace and location of the transition from cartilage to bone.
ISSN:0884-0431
1523-4681
DOI:10.1359/jbmr.2002.17.1.56