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    Collagen II is essential for the removal of the notochord and the formation of intervertebral discs

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    Author
    Aszodi, A; Chan, D; Hunziker, E; Bateman, JF; Fassler, R
    Date
    1998-11-30
    Source Title
    The Journal of Cell Biology
    Publisher
    ROCKEFELLER UNIV PRESS
    University of Melbourne Author/s
    Bateman, John
    Affiliation
    Paediatrics (RCH)
    Metadata
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    Document Type
    Journal Article
    Citations
    Aszodi, A., Chan, D., Hunziker, E., Bateman, J. F. & Fassler, R. (1998). Collagen II is essential for the removal of the notochord and the formation of intervertebral discs. JOURNAL OF CELL BIOLOGY, 143 (5), pp.1399-1412. https://doi.org/10.1083/jcb.143.5.1399.
    Access Status
    Open Access
    URI
    http://hdl.handle.net/11343/253130
    DOI
    10.1083/jcb.143.5.1399
    Abstract
    Collagen II is a fibril-forming collagen that is mainly expressed in cartilage. Collagen II-deficient mice produce structurally abnormal cartilage that lacks growth plates in long bones, and as a result these mice develop a skeleton without endochondral bone formation. Here, we report that Col2a1-null mice are unable to dismantle the notochord. This defect is associated with the inability to develop intervertebral discs (IVDs). During normal embryogenesis, the nucleus pulposus of future IVDs forms from regional expansion of the notochord, which is simultaneously dismantled in the region of the developing vertebral bodies. However, in Col2a1-null mice, the notochord is not removed in the vertebral bodies and persists as a rod-like structure until birth. It has been suggested that this regional notochordal degeneration results from changes in cell death and proliferation. Our experiments with wild-type mice showed that differential proliferation and apoptosis play no role in notochordal reorganization. An alternative hypothesis is that the cartilage matrix exerts mechanical forces that induce notochord removal. Several of our findings support this hypothesis. Immunohistological analyses, in situ hybridization, and biochemical analyses demonstrate that collagens I and III are ectopically expressed in Col2a1-null cartilage. Assembly of the abnormal collagens into a mature insoluble matrix is retarded and collagen fibrils are sparse, disorganized, and irregular. We propose that this disorganized abnormal cartilage collagen matrix is structurally weakened and is unable to constrain proteoglycan-induced osmotic swelling pressure. The accumulation of fluid leads to tissue enlargement and a reduction in the internal swelling pressure. These changes may be responsible for the abnormal notochord removal in Col2a1-null mice. Our studies also show that chondrocytes do not need a collagen II environment to express cartilage-specific matrix components and to hypertrophy. Furthermore, biochemical analysis of collagen XI in mutant cartilage showed that alpha1(XI) and alpha2 (XI) chains form unstable collagen XI molecules, demonstrating that the alpha3(XI) chain, which is an alternative, posttranslationally modified form of the Col2a1 gene, is essential for assembly and stability of triple helical collagen XI.

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