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Lysophosphatidic acid: receptors, signaling and survival (2000)

Swarthout*, J. T. ; Walling, H. W.

Springer

In: Cellular and Molecular Life Sciences. 2000; 57(13): 1978-1985. Published 2000 Dec 01. doi: 10.1007/pl00000678.

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Publication Date: 2000-12-01

Print ISSN: 1420-682X

Electronic ISSN: 1420-9071

Topics: Biology , Medicine

Published by Springer

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The regulation and regulatory role of collagenase in bone (1996)

Omura, T. H. ; Bloch, S. R. ; Partridge, N. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Interstitial collagenase plays an important role in both the normal and pathological remodeling of collagenous extracellular matrices, including skeletal tissues. The enzyme is a member of the family of matrix metalloproteinases. Only one rodent interstitial collagenase has been found but there are two human enzymes, human collagenase-1 and -3, the latter being the homologue of the rat enzyme. In developing rat and mouse bone, collagenase is expressed by hypertrophic chondrocytes, osteoblasts, and osteocytes, a situation that is replicated in a fracture callus. Cultured osteoblasts derived from neonatal rat calvariae show greater amounts of collagenase transcripts late in differentiation. These levels can be regulated by parathyroid hormone (PTH), retinoic acid, and insulin-like growth factors, as well as the degree of matrix mineralization. Much of the work on collagenase in bone has been derived from studies on the rat osteosarcoma cell line, UMR 106-01. All bone-resorbing agents stimulate these cells to produce collagenase mRNA and protein, with PTH being the most potent stimulator. Determination of secreted levels of collagenase has been difficult because UMR cells, normal rat osteoblasts, and rat fibroblasts possess a scavenger receptor that removes the enzyme from the extracellular space, internalizes and degrades it, thus imposing another level of control. PTH can also regulate the abundance of the receptor as well as the expression and synthesis of the enzyme. Regulation of the collagenase gene by PTH appears to involve the cAMP pathway as well as a primary response gene, possibly Fos, which then contributes to induction of the collagenase gene. The rat collagenase gene contains an activator protein-1 sequence that is necessary for basal expression, but other promoter regions may also participate in PTH regulation. Thus, there are many levels of regulation of collagenase in bone perhaps constraining what would otherwise be a rampant enzyme.

Keywords: Life Sciences (General)

Type: Critical reviews in eukaryotic gene expression (ISSN 1045-4403); 6; 1; 15-27

Format: text

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Regulation of the collagenase-3 receptor and its role in intracellular ligand processing in rat osteoblastic cells (1998)

Partridge, N. C. ; Jeffrey, J. J. ; Walling, H. W. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We have previously described a specific, saturable receptor for rat collagenase-3 in the rat osteosarcoma cell line, UMR 106-01. Binding of rat collagenase-3 to this receptor is coupled to the internalization and eventual degradation of the enzyme and correlates with observed extracellular levels of the enzyme. In this study we have shown that decreased binding, internalization, and degradation of 125I-rat collagenase-3 were observed in cells after 24 h of parathyroid hormone treatment; these activities returned to control values after 48 h and were increased substantially (twice control levels) after 96 h of treatment with the hormone. Subcellular fractionation studies to identify the route of uptake and degradation of collagenase-3 localized intracellular accumulation of 125I-rat collagenase-3 initially in Golgi-associated lysosomes and later in secondary lysosomes. Maximal lysosomal accumulation of the radiolabel and stimulation of general lysosomal activity occurred after 72 h of parathyroid hormone treatment. Preventing fusion of endosomes with lysosomes (by temperature shift, colchicine, or monensin) resulted in no internalized 125I-collagenase-3 in either lysosomal fraction. Treatment of UMR cells with the above agents or ammonium chloride decreased excretion of 125I-labeled degradation products of collagenase-3. These experiments demonstrated that degradation of collagenase-3 required receptor-mediated endocytosis and sequential processing by endosomes and lysosomes. Thus, parathyroid hormone regulates the expression and synthesis of collagenase-3 as well as the abundance and functioning of the collagenase-3 receptor and the intracellular degradation of its ligand. The coordinate changes in the secretion of collagenase-3 and expression of the receptor determine the net abundance of the enzyme in the extracellular space.

Keywords: Life Sciences (General)

Type: Journal of cellular physiology (ISSN 0021-9541); 177; 4; 563-74

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Collagenase-3 binds to a specific receptor and requires the low density lipoprotein receptor-related protein for internalization (1999)

Partridge, N. C. ; Barmina, O. Y. ; Walling, H. W. ; [et al.]

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Publication Date: 2019-07-13

Description: We have previously identified a specific receptor for collagenase-3 that mediates the binding, internalization, and degradation of this ligand in UMR 106-01 rat osteoblastic osteosarcoma cells. In the present study, we show that collagenase-3 binding is calcium-dependent and occurs in a variety of cell types, including osteoblastic and fibroblastic cells. We also present evidence supporting a two-step mechanism of collagenase-3 binding and internalization involving both a specific collagenase-3 receptor and the low density lipoprotein receptor-related protein. Ligand blot analysis shows that (125)I-collagenase-3 binds specifically to two proteins ( approximately 170 kDa and approximately 600 kDa) present in UMR 106-01 cells. Western blotting identified the 600-kDa protein as the low density lipoprotein receptor-related protein. Our data suggest that the 170-kDa protein is a specific collagenase-3 receptor. Low density lipoprotein receptor-related protein-null mouse embryo fibroblasts bind but fail to internalize collagenase-3, whereas UMR 106-01 and wild-type mouse embryo fibroblasts bind and internalize collagenase-3. Internalization, but not binding, is inhibited by the 39-kDa receptor-associated protein. We conclude that the internalization of collagenase-3 requires the participation of the low density lipoprotein receptor-related protein and propose a model in which the cell surface interaction of this ligand requires a sequential contribution from two receptors, with the collagenase-3 receptor acting as a high affinity primary binding site and the low density lipoprotein receptor-related protein mediating internalization.

Keywords: Life Sciences (General)

Type: The Journal of biological chemistry (ISSN 0021-9258); 274; 42; 30087-93

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Lysophosphatidic acid: receptors, signaling and survival (2000)

Swarthout*, J. T. ; Walling, H. W.

Springer

Cellular and molecular life sciences 57 (2000), S. 1978-1985

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ISSN: 1420-9071

Keywords: Key words. G-protein-coupled receptors; apoptosis; mitogen; calcium mobilization; smooth muscle contraction; phosphatidylinositol.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. Though the mitogenic activity of lysophosphatidic acid (LPA) has been wellestablished through classical studies, its mechanism of action was long obscure. Recent identification and cloning of LPA-specific receptors has led to the elucidation of the G-proteins and signaling pathways through which this molecule functions. In addition to its mitogenic properties, recent reports have suggested that LPA may also promote cell survival. This review will summarize the current literature regarding LPA signaling and its role as an antiapoptotic factor.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00000678

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Regulation of the collagenase-3 receptor and its role in intracellular ligand processing in rat osteoblastic cells H.W.W. and P.T.C. contributed equally to this work. (1998)

Walling, H. W. ; Chan, P. T. ; Omura, T. H. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Journal of Cellular Physiology 177 (1998), S. 563-574

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ISSN: 0021-9541

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Medicine

Notes: We have previously described a specific, saturable receptor for rat collagenase-3 in the rat osteosarcoma cell line, UMR 106-01. Binding of rat collagenase-3 to this receptor is coupled to the internalization and eventual degradation of the enzyme and correlates with observed extracellular levels of the enzyme. In this study we have shown that decreased binding, internalization, and degradation of 125I-rat collagenase-3 were observed in cells after 24 h of parathyroid hormone treatment; these activities returned to control values after 48 h and were increased substantially (twice control levels) after 96 h of treatment with the hormone. Subcellular fractionation studies to identify the route of uptake and degradation of collagenase-3 localized intracellular accumulation of 125I-rat collagenase-3 initially in Golgi-associated lysosomes and later in secondary lysosomes. Maximal lysosomal accumulation of the radiolabel and stimulation of general lysosomal activity occurred after 72 h of parathyroid hormone treatment. Preventing fusion of endosomes with lysosomes (by temperature shift, colchicine, or monensin) resulted in no internalized 125I-collagenase-3 in either lysosomal fraction. Treatment of UMR cells with the above agents or ammonium chloride decreased excretion of 125I-labeled degradation products of collagenase-3. These experiments demonstrated that degradation of collagenase-3 required receptor-mediated endocytosis and sequential processing by endosomes and lysosomes. Thus, parathyroid hormone regulates the expression and synthesis of collagenase-3 as well as the abundance and functioning of the collagenase-3 receptor and the intracellular degradation of its ligand. The coordinate changes in the secretion of collagenase-3 and expression of the receptor determine the net abundance of the enzyme in the extracellular space. J Cell Physiol 177:563-574, 1998. © 1998 Wiley-Liss, Inc.

Additional Material: 9 Ill.

Type of Medium: Electronic Resource

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