Summary
Monoclonal antibodies (mAbs) were raised by injection of a homogenate of cultured growth cartilage (GC) cells from young rabbit ribs. These mAbs were examined by immunohistochemical staining for their reactivity to paraffin sections of rabbit tissues. The results showed that an mAb reacted preferentially with late hypertrophic and calcified costal GC zones. The mAb also reacted with hypertrophic GC adjacent to bone that existed in sternum and femur, but not to other cartilages, including resting cartilage, articular cartilage, auricular cartilage, nasal cartilage, tracheal cartilage and meniscus cartilage, or with other tissues, including tendon, skin, muscles, lung, liver, heart, thymus, spleen, eye and gut. It reacted with a wider area of the GC zone when the sections were decalcified, although its reactivity with the extended area was much less intensive than that with late hypertrophic and calcified GC zones. On treatment of the sections with bacterial collagenase, neither the reactive area nor its intensity were changed, while when treated with trypsin the reactivity was lost.
These results suggest the existence of a certain molecule which distinguishes GC (osteogenic cartilage) from other (non-osteogenic) cartilage. This mAb is a useful probe for distinguishing osteogenic cartilage from non-osteogenic cartilage, and for studying differentiation steps of cartilage cells in endochondral bone formation. The mAb can also be used as a probe for clinical and stored specimens because it reacts with decalcified and paraffin-embedded human specimens.
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References
Brown, C. C., Hembry, R. M. & Reynolds, J. J. (1989) Immunolocalization of metallo-proteinases and their inhibitor in the rabbit growth plate. J. Bone Joint Surg. 71A, 580–93.
Bruder, S. P. & Caplan, A. I. (1989) First bone formation and the dissection of an osteogenic lineage in the embryonic chick tibia is revealed by monoclonal antibodies against osteoblasts. Bone 10, 359–75.
Bruder, S. P. & Caplan, A. I. (1990) Terminal differentiation of osteogenic cells in the embryonic chick tibia is revealed by a monoclonal antibody against osteocytes. Bone 11, 189–98.
Caterson, B., Christner, J. E. & Baker, J.R. (1983) Identification of a monoclonal antibody that specifically recognizes corneal and skeletal keratan sulfate. J. Biol. Chem. 258, 8848–54.
Couchman, J.R., Caterson, B., Christner, J. E. & Baker, J. R. (1984) Mapping by monoclonal antibody detection of glycosaminoglycans in connective tissues. Nature 307, 650–2.
Descalzi-Cancedda, F., Manduca, P., Tacchetti, C., Fossa, P., Quarto, R. & Cancedda, R. (1988) Developmentally regulated synthesis of a low molecular weight protein (Ch21) by differentiating chondrocytes. J. Cell Biol. 107, 2455–63.
George-Weinstein, M., Decker, C. & Horwitz, A. (1988) Combinations of monoclonal antibodies distinguish mesenchymal, myogenic, and chondrogenic precursors of the developing chick embryo. Dev. Biol. 125, 34–50.
Kirsch, T. & Von DerMark, K. (1990) Isolation of bovine type X collagen and immunolocalization in growth-plate cartilage. Biochem. J. 265, 453–9.
Lee, E. R., Matsui, Y. & Poole, A. R. (1990) Immunochemical and immunocytochemical studies of the C-propeptide of type II procollagen in chondrocytes of the growth plate. J. Histochem. Cytochem. 38, 659–73.
Mark, M. P., Prince, C. W., Oosawa, T., Gay, S., Bronckers, A. L. J. J. & Butler, W. T. (1987) Immunohistochemical demonstration of a 44-KD phosphoprotein in developing rat bones. J. Histochem. Cytochem. 35, 707–15.
Okihana, H. & Shimomura, Y. (1990) Production and characterization of monoclonal antibodies against rabbit growth cartilage. Int. Orthop. 14, 321–7.
Pacifici, M., Oshima, O., Fisher, L. W., Young, M. F., Shapiro, I. M. & Leboy, P. S. (1990) Changes in osteonectin distribution and levels are associated with mineralization of the chicken tibial growth cartilage. Calcif. Tissue Int. 47, 51–61.
Poole, A. R., Pidoux, I., Reiner, A., Choi, H. & Rosenberg, L. C. (1984) Association of an extracellular protein (chondrocalcin) with the calcification of cartilage in endochondral bone formation. J. Cell Biol. 98, 54–65.
Robertson, W. W. Jr. (1990) Newest knowledge of the growth plate. Clin. Orthop. 253, 270–8.
Sampson, H. W. & Cannon, M. S. (1986) Zonal analysis of metabolic profiles of articular-epiphyseal cartilage chondrocytes. Histochem. J. 18, 233–8.
Schmid, T. M. & Linsenmayer, T. F. (1985a) Developmental acquisition of type X collagen in the embryonic chick tibiotarsus. Dev. Biol. 107, 373–81.
Schmid, T. M. & Linsenmayer, T. F. (1985b) Immunohistochemical localization of short chain cartilage collagen (type X) in avian tissues. J. Cell Biol. 10, 598–605.
Shimomura, Y. & Suzuki, F. (1984) Cultured growth cartilage cells. Clin. Orthop. 184, 93–105.
Shimomura, Y., Yoneda, T. & Suzuki, F. (1975) Osteogenesis by chondrocytes from growth cartilage of rat rib. Calcif. Tissue Res. 19, 179–87.
Shinomura, T., Kimata, K., Oike, Y., Maeda, N., Yano, S. & Suzuki, S. (1984) Appearance of distinct types of proteoglycan in a well-defined temporal and spatial pattern during early cartilage formation in the chick limb. Dev. Biol. 103, 211–20.
Sorrell, J. M., Mahmoodian, F., Schafer, I. A., Davis, B. & Caterson, B. (1990) Identification of monoclonal antibodies that recognize novel epitopes in native chondroitin/dermatan sulfate glycosaminoglycan chains. J. Histochem. Cytochem. 38, 393–402.
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Okihana, H., Shimomura, Y. A monoclonal antibody distinguishes growth cartilage from other types of cartilage: a new probe for osteogenic cartilage. Histochem J 25, 166–171 (1993). https://doi.org/10.1007/BF00157989
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DOI: https://doi.org/10.1007/BF00157989