(Pro)collagenase (matrix metalloproteinase-1) is present in rodent osteoclasts and in the underlying bone-resorbing compartment

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

This Article

	Summary
	Full Text (PDF)
	Alert me when this article is cited
	Alert me if a correction is posted

Services

	Email this article to a friend
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via HighWire
	Citing Articles via Google Scholar

Google Scholar

	Articles by Delaisse, J. M.
	Articles by Baron, R.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Delaisse, J. M.
	Articles by Baron, R.


Social Bookmarking

	What's this?

Aeschlimann, D., Witterwald, A., Fleisch, H. and Paulsson, M (1993). Expression of tissue transglutaminase in skeletal tissues correlates with events of terminal differenciation of chondrocytes. J. Cell Biol 120, 1461-1470.[Abstract/Free Full Text]

Ali, N. N., Boyde, A. and Jones, S. J (1984). Motility and resorption: osteoclastic activity in vitro. Anat. Embryol 170, 51-56.[Medline]

Baron, R (1989). Molecular mechanisms of bone resorption by the osteoclast. Anat. Rec 224, 317-324.[Medline]

Baron, R., Neff, L., Brown, W., Courtoy, P. J., Louvard, D. and Farquhar, M. G (1988). Polarized secretion of lysosomal enzymes: co-distribution of cation-independent mannose-6-phosphate receptors and lysosomal enzymes along the osteoclast exocytic pathway. J. Cell Biol 106, 1863-1872.[Abstract/Free Full Text]

Baron, R., Neff, L., Louvard, D. and Courtoy, P. J (1985). Cell-mediated extracellular acidification and bone resorption: Evidence for a low pH in resorbing lacunae and localization of a 100-kD lysosomal membrane protein at the osteoclast ruffled border. J. Cell Biol 101, 2210-2222.[Abstract/Free Full Text]

Batteiger, B., Newhall V, W. J. and Jones, R. B (1982). The use of Tween 20 as a blocking agent in the immunological detection of proteins transferred to nitrocellulose membranes. J. Immunol. Methods 55, 297-307.[Medline]

Blair, H. C., Dean, D. D., Howell, D. S., Teitelbaum, S. L. and Jeffrey, J. J (1989). Hypertrophic chondrocytes produce immunoreactive collagenase in vivo. Connect. Tiss. Res 23, 65-73.[Medline]

Blair, H. C., Kahn, A. J., Crouch, E. C., Jeffrey, J. J. and Teitelbaum, S. L (1986). Isolated osteoclasts resorb the organic and inorganic components of bone. J. Cell Biol 102, 1164-1172.[Abstract/Free Full Text]

Blair, H. C., Teitelbaum, S. L., Ehlich, L. S. and Jeffrey, J. J (1986). Collagenase production by smooth muscle: correlation of immunoreactive with functional enzyme in the myometrium. J. Cell. Physiol 129, 111-123.[Medline]

Blair, H. C., Teitelbaum, S. L., Ghiselli, R. and Gluck, S (1989). Osteoclastic bone resorption by a polarized vacuolar proton pump. Science 245, 855-857.[Abstract/Free Full Text]

Brinckerhoff, C. E., Suzuki, K., Mitchell, T. I., Oram, F., Coon, C. I., Palmiter, R. D. and Nagase, H (1990). Rabbit procollagenase synthesized and secreted by a high-yield mammalian expression vector requires stromelysin (matrix metalloproteinase-3) for maximal activation. J. Biol. Chem 265, 22262-22269.[Abstract/Free Full Text]

Case, J. P., Sano, H., Lafyatis, R., Remmers, E. F., Kumkumian, G. K. and Wilder, R. L (1989). Transin stromelysin expression in the synovium of rats with experimental erosive arthritis. Insitu localization and kinetics of expression of the tranformation-associated metalloproteinase in euthymic and athymic Lewis rats. J. Clin. Invest 84, 1731-1740.

Chambers, T. J., Darby, J. A. and Fuller, K (1985). Mammalian collagenase predisposes bone surfaces to osteoclastic resorption. Cell Tiss. Res 241, 671-675.[Medline]

Chatterjee, D., Chakraborty, M., Leit, M., Jamsa-Kellokumpu, S., Fuchs, R. and Baron, R (1992). Sensitivity to vanadate and isoforms of subunits A and B distinguish the osteoclast proton-pump from other vacuolar ATPases. Proc. Nat. Acad. Sci. USA 89, 6257-6261.[Abstract/Free Full Text]

Clark, I. M. and Cawston, T. E (1989). Fragments of human fibroblast collagenase. Purification and characterization. Biochem. J 263, 201-206.[Medline]

Delaisse, J. M., Boyde, A., Maconnachie, E., Ali, N. N., Sear, C. H. J., Eeckhout, Y., Vaes, G. and Jones, S. J (1987). The effects of inhibitorsof cysteine proteinases and collagenase on the resorptive activity of isolated osteoclasts. Bone 8, 305-313.[Medline]

Delaisse, J. M., Eeckhout, Y., Sear, C., Galloway, A., McCullagh, K. and Vaes, G (1985). A new synthetic inhibitor of mammalian tissue collagenase inhibits bone resorption in culture. Biochem. Biophys. Res. Commun 133, 483-490.[Medline]

Delaisse, J. M., Eeckhout, Y. and Vaes, G (1980). Inhibition of bone resorption in culture by inhibitors of thiol proteinases. Biochem. J 192, 365-368.[Medline]

Delaisse, J. M., Eeckhout, Y. and Vaes, G (1984). In vivo and in vitro evidence for the involvement of cysteine proteinases in bone resorption. Biochem. Biophys. Res. Commun 125, 441-447.[Medline]

Delaisse, J. M., Eeckhout, Y. and Vaes, G (1988). Bone-resorbing agents affect the production and distribution of procollagenase as well as the activity of collagenase in bone tissue. Endocrinology 123, 264-276.[Abstract/Free Full Text]

Delaisse, J. M., Ledent, P. and Vaes, G (1991). Collagenolytic cysteine proteinases of bone tissue: cathepsin B, (pro)cathepsin L and a cathepsin L-like 70 kDa proteinase. Biochem. J 279, 167-174.

Delaisse, J. M., Terlain, B., Cartwright, T., Lefebvre, V. and Vaes, G (1991). A collagenase inhibitor inhibits bone resorption in vivo, as evaluated by3 H-tetracycline retention in bones of prelabelled mice. Bone 12, 289-.

Eeckhout, Y (1990). Possible role and mechanism of action of dissolved calcium in the degradation of bone collagen by lysosomal cathepsins and collagenase. Biochem. J 272, 529-532.[Medline]

Eeckhout, Y., Delaisse, J. M. and Vaes, G (1986). Direct extraction and assay of bone tissue collagenase and its relation to parathyroid hormone-induced bone resorption. Biochem. J 239, 793-796.[Medline]

Eeckhout, Y. and Vaes, G (1977). Further studies on the activation of procollagenase, the latent precursor of bone collagenase. Effects of lysosomal cathepsin B, plasmin and kallikrein, and spontaneous activation. Biochem. J 166, 21-31.[Medline]

Etherington, D. J. and Birkedal-Hansen, H (1987). The influence of dissolved calcium salts on the degradation of hard-tissue collagens by lysosomal cathepsins. Collagen Rel. Res 7, 185-199.[Medline]

Everts, V., Beertsen, W. and Schr\232der, R (1988). Effects of the proteinase inhibitors leupeptin and E-64 on osteoclastic bone resorption. Calcif. Tiss. Int 43, 172-178.[Medline]

Everts, V., Delaisse, J. M., K\232rper, W., Niehof, A., Vaes, G. and Beertsen, W (1992). Degradation of collagen in the the bone-resorbing compartment underlying the osteoclast involves both cysteine proteinases and matrix metalloproteinases. J. Cell. Physiol 150, 221-231.[Medline]

Gillet, Ch., Eeckhout, Y. and Vaes, G (1977). Purification of procollagenase and collagenase by affinity chromatography on Sepharose-collagen. FEBS Lett 74, 126-128.[Medline]

Heath, J. K., Atkinson, S. J., Meikle, M. C. and Reynolds, J. J (1984). Mouse osteoblasts synthesize collagenase in response to bone-resorbing agents. Biochim. Biophys. Acta 802, 151-154.[Medline]

Jeffrey, J. J., Roswit, W. T. and Ehlich, L. S (1990). Regulation of collagenase production by steroids in uterine smooth muscle cells: an enzymatic and immunologic study. J. Cell. Physiol 143, 396-403.[Medline]

Laemmli, U. K (1970). Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227, 680-685.[Medline]

Lenaers-Claeys, G. and Vaes, G (1979). Collagenase, procollagenase and bone resorption: effects of heparin, parathyroid hormone and calcitonin. Biochim. Biophys. Acta 584, 375-388.[Medline]

Nagase, H., Brinckerhoff, C. E., Vater, C. A. and Harris, E. D. Jr (1983). Biosynthesis and secretion of procollagenase by rabbit synovial1082fibroblasts. Inhibition of procollagenase secretion by monensin and evidence for glycosylation of procollagenase. Biochem. J 214, 281-288.[Medline]

Nagase, H., Suzuki, K., Enghild, J. J. and Salvesen, G (1991). Stepwise activation mechanisms of the precursors of matrix metalloproteinases (tissue collagenase) and 3 (stromelysin). Biomed. Biochim.Acta 50, 749-754.[Medline]

Okamura, T., Shimokawa, H., Takagi, Y., Ono, H. and Sasaki, S (1993). Detection of collagenase messenger RNA in odontoclasts of bovine root-resorbing tissue by insitu hybridization. Calcif. Tiss. Int 52, 325-330.[Medline]

Olmsted, J. B (1981). Affinity purification of antibodies from diazotized paper blots of heterogeneous protein samples. J. Biol. Chem 256, 11955-11957.[Abstract/Free Full Text]

Otsuka, K., Sodek, J. and Limeback, H (1984). Synthesis of collagenase and collagenase inhibitors by osteoblast-like cells in culture. Eur. J. Biochem 145, 123-129.[Medline]

Partridge, N. C., Jeffrey, J. J., Ehlich, L. S., Teitelbaum, S. L., Fliszar, C., Welgus, H.G. and Kahn, A. J (1987). Hormonal regulation of the production of collagenase and a collagenase inhibitor activity by rat osteogenic sarcoma cells. Endocrinology 120, 1956-1962.[Abstract/Free Full Text]

Pelletier, J. P., Mineau, F., Faure, M. P. and Martel-Pelletier, J (1990). Imbalance between the mechanisms of activation and inhibition of metalloproteases in the early lesions of experimental osteoarthritis. Arthritis Rheum 33, 1466-1476.[Medline]

Rifkin, B. R., Vernillo, A. T., Kleckner, A. P., Auszmann, J. M., Rosenberg, L. R. and Zimmerman, M (1991). Cathepsin B and L activities in isolated osteoclasts. Biochem. Biophys. Res. Commun 179, 63-69.[Medline]

Towbin, H., Staehelin, T. and Gordon, J (1979). Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc. Nat. Acad. Sci. USA 76, 4350-4354.[Abstract/Free Full Text]

Vaes, G (1968). On the mechanisms of bone resorption. The action of parathyroid hormone on the excretion and synthesis of lysosomal enzymes and on the extracellular release of acid by bone cells. J. Cell Biol 39, 676-697.[Abstract/Free Full Text]

Vaes, G (1972). The release of collagenase as an inactive proenzyme by bone explants in culture. Biochem. J 126, 275-289.

Vaes, G (1988). Cellular biology and biochemical mechanism of bone resorption. A review of recent developments on the formation, activation, and mode of action of osteoclasts. Clin. Orthop. Rel. Res 231, 239-271.

Vermeulen, A. H. M., Vermeer, C. and Bosman, F. T (1989). Histochemical detection of osteocalcin in normal and pathological human bone. J. Histochem. Cytochem 37, 1503-1508.[Abstract/Free Full Text]

CiteULike

Complore

Connotea

Del.icio.us Add to Digg

Digg

Technorati

Twitter What's this?

This article has been cited by other articles:

I A Leclercq, C Sempoux, P Starkel, and Y Horsmans
Limited therapeutic efficacy of pioglitazone on progression of hepatic fibrosis in rats
Gut, July 1, 2006; 55(7): 1020 - 1029.
[Abstract] [Full Text] [PDF]

A. P. Hall, F. R. Westwood, and P. F. Wadsworth
Review of the Effects of Anti-Angiogenic Compounds on the Epiphyseal Growth Plate
Toxicol Pathol, February 1, 2006; 34(2): 131 - 147.
[Abstract] [Full Text] [PDF]

S. Apajalahti, T. Sorsa, S. Railavo, and T. Ingman
The in vivo Levels of Matrix Metalloproteinase-1 and -8 in Gingival Crevicular Fluid during Initial Orthodontic Tooth Movement
Journal of Dental Research, December 1, 2003; 82(12): 1018 - 1022.
[Abstract] [Full Text] [PDF]

M. T. Engsig, Q.-J. Chen, T. H. Vu, A.-C. Pedersen, B. Therkidsen, L. R. Lund, K. Henriksen, T. Lenhard, N. T. Foged, Z. Werb, et al.
Matrix Metalloproteinase 9 and Vascular Endothelial Growth Factor Are Essential for Osteoclast Recruitment into Developing Long Bones
J. Cell Biol., November 13, 2000; 151(4): 879 - 890.
[Abstract] [Full Text] [PDF]

G Stenbeck and M. Horton
A new specialized cell-matrix interaction in actively resorbing osteoclasts
J. Cell Sci., January 5, 2000; 113(9): 1577 - 1587.
[Abstract] [PDF]

V. EVERTS, W. KORPER, D. C. JANSEN, J. STEINFORT, I. LAMMERSE, S. HEERA, A. J. P. DOCHERTY, and W. BEERTSEN
Functional heterogeneity of osteoclasts: matrix metalloproteinases participate in osteoclastic resorption of calvarial bone but not in resorption of long bone
FASEB J, July 1, 1999; 13(10): 1219 - 1230.
[Abstract] [Full Text]

L. S. Holliday, H. G. Welgus, C. J. Fliszar, G. M. Veith, J. J. Jeffrey, and S. L. Gluck
Initiation of Osteoclast Bone Resorption by Interstitial Collagenase
J. Biol. Chem., August 29, 1997; 272(35): 22053 - 22058.
[Abstract] [Full Text] [PDF]

T Sato, M del Carmen Ovejero, P Hou, A. Heegaard, M Kumegawa, N. Foged, and J. Delaisse
Identification of the membrane-type matrix metalloproteinase MT1-MMP in osteoclasts
J. Cell Sci., January 3, 1997; 110(5): 589 - 596.
[Abstract] [PDF]

S. M. Krane, M. H. Byrne, V. Lemaitre, P. Henriet, J. J. Jeffrey, J. P. Witter, X. Liu, H. Wu, R. Jaenisch, and Y. Eeckhout
Different Collagenase Gene Products Have Different Roles in Degradation of Type I Collagen
J. Biol. Chem., November 8, 1996; 271(45): 28509 - 28515.
[Abstract] [Full Text] [PDF]

H Kinoh, H Sato, Y Tsunezuka, T Takino, A Kawashima, Y Okada, and M Seiki
MT-MMP, the cell surface activator of proMMP-2 (pro-gelatinase A), is expressed with its substrate in mouse tissue during embryogenesis
J. Cell Sci., January 5, 1996; 109(5): 953 - 959.
[Abstract] [PDF]

L Blavier and J. Delaisse
Matrix metalloproteinases are obligatory for the migration of preosteoclasts to the developing marrow cavity of primitive long bones
J. Cell Sci., January 12, 1995; 108(12): 3649 - 3659.
[Abstract] [PDF]

K Fuller and T. Chambers
Localisation of mRNA for collagenase in osteocytic, bone surface and chondrocytic cells but not osteoclasts
J. Cell Sci., January 6, 1995; 108(6): 2221 - 2230.
[Abstract] [PDF]

V Mattot, M. Raes, P Henriet, Y Eeckhout, D Stehelin, B Vandenbunder, and X Desbiens
Expression of interstitial collagenase is restricted to skeletal tissue during mouse embryogenesis
J. Cell Sci., January 2, 1995; 108(2): 529 - 535.
[Abstract] [PDF]

P. Hill, G Murphy, A. Docherty, R. Hembry, T. Millican, J. Reynolds, and M. Meikle
The effects of selective inhibitors of matrix metalloproteinases (MMPs) on bone resorption and the identification of MMPs and TIMP-1 in isolated osteoclasts
J. Cell Sci., January 11, 1994; 107(11): 3055 - 3064.
[Abstract] [PDF]

This Article

Summary

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Delaisse, J. M.

Articles by Baron, R.

Search for Related Content

PubMed

PubMed Citation

Articles by Delaisse, J. M.

Articles by Baron, R.

Social Bookmarking

What's this?

				A. P. Hall, F. R. Westwood, and P. F. Wadsworth Review of the Effects of Anti-Angiogenic Compounds on the Epiphyseal Growth Plate Toxicol Pathol, February 1, 2006; 34(2): 131 - 147. [Abstract] [Full Text] [PDF]

				S. Apajalahti, T. Sorsa, S. Railavo, and T. Ingman The in vivo Levels of Matrix Metalloproteinase-1 and -8 in Gingival Crevicular Fluid during Initial Orthodontic Tooth Movement Journal of Dental Research, December 1, 2003; 82(12): 1018 - 1022. [Abstract] [Full Text] [PDF]

				M. T. Engsig, Q.-J. Chen, T. H. Vu, A.-C. Pedersen, B. Therkidsen, L. R. Lund, K. Henriksen, T. Lenhard, N. T. Foged, Z. Werb, et al. Matrix Metalloproteinase 9 and Vascular Endothelial Growth Factor Are Essential for Osteoclast Recruitment into Developing Long Bones J. Cell Biol., November 13, 2000; 151(4): 879 - 890. [Abstract] [Full Text] [PDF]

				G Stenbeck and M. Horton A new specialized cell-matrix interaction in actively resorbing osteoclasts J. Cell Sci., January 5, 2000; 113(9): 1577 - 1587. [Abstract] [PDF]

				V. EVERTS, W. KORPER, D. C. JANSEN, J. STEINFORT, I. LAMMERSE, S. HEERA, A. J. P. DOCHERTY, and W. BEERTSEN Functional heterogeneity of osteoclasts: matrix metalloproteinases participate in osteoclastic resorption of calvarial bone but not in resorption of long bone FASEB J, July 1, 1999; 13(10): 1219 - 1230. [Abstract] [Full Text]

				L. S. Holliday, H. G. Welgus, C. J. Fliszar, G. M. Veith, J. J. Jeffrey, and S. L. Gluck Initiation of Osteoclast Bone Resorption by Interstitial Collagenase J. Biol. Chem., August 29, 1997; 272(35): 22053 - 22058. [Abstract] [Full Text] [PDF]

				T Sato, M del Carmen Ovejero, P Hou, A. Heegaard, M Kumegawa, N. Foged, and J. Delaisse Identification of the membrane-type matrix metalloproteinase MT1-MMP in osteoclasts J. Cell Sci., January 3, 1997; 110(5): 589 - 596. [Abstract] [PDF]

				S. M. Krane, M. H. Byrne, V. Lemaitre, P. Henriet, J. J. Jeffrey, J. P. Witter, X. Liu, H. Wu, R. Jaenisch, and Y. Eeckhout Different Collagenase Gene Products Have Different Roles in Degradation of Type I Collagen J. Biol. Chem., November 8, 1996; 271(45): 28509 - 28515. [Abstract] [Full Text] [PDF]

				H Kinoh, H Sato, Y Tsunezuka, T Takino, A Kawashima, Y Okada, and M Seiki MT-MMP, the cell surface activator of proMMP-2 (pro-gelatinase A), is expressed with its substrate in mouse tissue during embryogenesis J. Cell Sci., January 5, 1996; 109(5): 953 - 959. [Abstract] [PDF]

				L Blavier and J. Delaisse Matrix metalloproteinases are obligatory for the migration of preosteoclasts to the developing marrow cavity of primitive long bones J. Cell Sci., January 12, 1995; 108(12): 3649 - 3659. [Abstract] [PDF]

				K Fuller and T. Chambers Localisation of mRNA for collagenase in osteocytic, bone surface and chondrocytic cells but not osteoclasts J. Cell Sci., January 6, 1995; 108(6): 2221 - 2230. [Abstract] [PDF]

				V Mattot, M. Raes, P Henriet, Y Eeckhout, D Stehelin, B Vandenbunder, and X Desbiens Expression of interstitial collagenase is restricted to skeletal tissue during mouse embryogenesis J. Cell Sci., January 2, 1995; 108(2): 529 - 535. [Abstract] [PDF]

				P. Hill, G Murphy, A. Docherty, R. Hembry, T. Millican, J. Reynolds, and M. Meikle The effects of selective inhibitors of matrix metalloproteinases (MMPs) on bone resorption and the identification of MMPs and TIMP-1 in isolated osteoclasts J. Cell Sci., January 11, 1994; 107(11): 3055 - 3064. [Abstract] [PDF]