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Enzyme
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Query: EC:3.4.24.3 (
collagenase
)
18,340
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Growth plate cartilage from normal and vitamin D-phosphate deficient (-VDP) rats was cultured to study the production of
collagenase
and tissue inhibitor of metalloproteinases (TIMP) in vitro. All tissues secreted latent
collagenase
into the medium at a constant rate during the 5 days in culture. Microdissected-
VDP
growth plates, containing predominatly hypertrophic cells, released up to 8-fold more
collagenase
into the medium than either intact-
VDP
or normal growth plates. TIMP was also secreted during the culture, but its rate of production was not as dependent on tissue type as
collagenase
. The tissue level of
collagenase
and TIMP before culture was compared with that found in conditioned medium and remnant tissue after culture. During the 5 day culture period microdissected-
VDP
growth plates, containing predominatly hypertrophic cells, produced 3-times more
collagenase
/microgram DNA over the starting level than either intact-
VDP
or normal growth plates. TIMP was never found in tissues after they had been cultured, but was present in all tissues before culture except those containing predominatly hypertrophic cells. The amount of TIMP required to block
collagenase
was calculated. Growth plates in culture produced enough TIMP to block all
collagenase
found in the medium and remnant tissue, while extracts of uncultured intact -
VDP
growth plates, and those divided to contain hypertrophic cells, had an excess of
collagenase
over TIMP. The results suggest that hypertrophic cells produce far more
collagenase
than other cells in the growth plate, but all cell types have about the same capacity to synthesize TIMP. As a result, increased
collagenase
synthesis by hypertrophic cells may surpass increases in TIMP synthesis and lead to collagen removal. This would allow for thinning of the longitudinal septa and expansion of the hypertrophic cells.
...
PMID:Production of collagenase and tissue inhibitor of metalloproteinases (TIMP) by rat growth plates in culture. 196 14
In the transition from proliferating to hypertrophic cell zones in the growth plate, there is an increased in chondrocyte cell volume and a corresponding decrease in collagen content to allow for cell enlargement. To substantiate our hypothesis that
collagenase
is responsible for these changes, growth plates from rats treated with bisphosphonate (HEBP) were compared histologically and biochemically with growth plates from normal and vitamin D and phosphate deficient (-VDP) rats. HEBP-treated rats developed an expanded hypertrophic cell zone (HCZ) characterized by the presence of two distinct populations of hypertrophic cells. The proximal hypertrophic cells were only 2-fold enlarged compared to the proliferating cells, whereas 1/6 of the distal hypertrophic cells were enlarged almost 5-fold and appeared morphologically identical with hypertrophic cells from normal and -
VDP
rats. The HEBP growth plates were divided into cross-sectional thirds and analyzed for active and latent
collagenase
. The juxta-metaphyseal (lower 1/3) cartilage contained 100% of the fully enlarged hypertrophic cells and appeared identical to those found in normal and -
VDP
growth plates, along with 81% of the active and 77% of the total
collagenase
. Collagenase and tissue inhibitor of metalloproteinases (TIMP) were measured in extracts of similarly divided tissues. The presence of true collagenas was confirmed by using [3H]-telopeptide-free collagen. TIMP levels were inversely related to the presence of active
collagenase
and cellular hypertrophy. Substantial levels of latent
collagenase
were found in the extracellular fluid at sites of active collagenolysis, but not in the fluid phase surrounding the 2-fold enlarged hypertrophic cells. It is postulated that increased amounts of active
collagenase
and insufficient levels of TIMP may account for the reduced collagen content seen in the lower HCZ of both -
VDP
and HEBP rickets. Unlike active
collagenase
, which remains localized by binding to collagen, latent enzyme is probably restricted in its mobility throughout the extracellular space by diffusion, itself, or the interstices of the extracellular matrix.
...
PMID:Association of collagenase and tissue inhibitor of metalloproteinases (TIMP) with hypertrophic cell enlargement in the growth plate. 255 3
Matrix remodeling plays a prominent role in growth plate calcification. Since interleukin-1 (IL-1) has been implicated in stimulating proteinase production and inhibiting matrix synthesis in articular cartilage, we examined whether IL-1 was present in growth plate and whether the vitamin D metabolites, 1,25-dihydroxyvitamin D3 (1,25(OH)2D3; 1,25) and 24,25(OH)2D3 (24,25), regulate the level of IL-1 found in this tissue. Sprague-Dawley rats were placed on normal (Normal rats) or rachitogenic diet (-
VDP
rats). The -
VDP
rats were either left untreated, injected 24 h prior to euthanasia with 24,25 (-VDP+24,25 rats) or 1,25 (-VDP+1,25 rats), or were given ergocalciferol (Ergo rats) orally, 48 h prior to euthanasia. Growth plates were harvested and extracted in buffer containing 1 M guanidine. IL-1 activity was measured by adding authentic cytokine or growth plate extracts to cultures of lapine articular cartilage and assaying release of glycosaminoglycans (GAGs) and changes in
collagenase
and neutral metalloproteinase activity. Neutralization of activity in the extracts was performed using polyclonal antisera to IL-1alpha or IL-1beta. An ELISA was used to determine levels of IL-1alpha and beta in the extracts. All extracts contained IL-1alpha and beta, as determined by ELISA. Levels of IL-1beta, but not IL-1alpha, were affected by the vitamin D status of the animal. Extracts from -VDP+24,25 animals contained significantly more IL-1beta than any of the other treatment groups, with the level found in these animals being 3-fold higher than normal and 2-fold higher than -
VDP
. Extracts were also tested in the bioassay to determine the level of active cytokine present. All growth plate extracts contained activity which altered GAG and proteinase release by lapine articular cartilage. Extracts from -
VDP
-, -VDP+1,25-, and -VDP+Ergo-treated rats stimulated a 40% increase in glycosaminoglycan release compared with extracts from normal rats. In contrast, extracts from -VDP+24,25-treated rats stimulated a 300% increase in glycosaminoglycan release. Both
collagenase
and neutral metalloproteinase activity of lapine cartilage were increased after incubation with the growth plate extracts. Collagenase activity was significantly increased 8- to 13-fold by the addition of extracts from -
VDP
-, -VDP+24,25-, or -VDP+1,25-treated animals. Neutral metalloproteinase activity was similarly increased by 4- to 10-fold. To characterize this activity further, growth plate extracts were incubated with neutralizing antibody to IL-1alpha or beta prior to addition to the lapine articular cartilage cultures. When antibodies were used separately, only partial inhibition was observed; incubation with both antibodies blocked 25% of the glycosaminoglycan release observed without antibody and greater than 80% of the enzyme activity released by the articular cartilage cultures. The results of this study show that growth plate cartilage contains both IL-1alpha and beta and indicate that vitamin D regulates the level of IL-1 in this tissue.
...
PMID:Interleukin-1alpha and beta in growth plate cartilage are regulated by vitamin D metabolites in vivo. 933 16
