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Query: EC:3.4.24.35 (
matrix metalloproteinase 9
)
2,207
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Kaposi's sarcoma (KS) in general, and acquired immunodeficiency syndrome-related KS (AIDS-KS) in particular, is a highly invasive and intensely angiogenic neoplasm of unknown cellular origin. We have recently established AIDS-KS cells in long term culture and reported the development of KS-like lesions in nude mice inoculated with these cells. Here, we have examined the in vitro invasiveness of basement membrane by AIDS-KS cells, as well as the effect(s) of their supernatants on the migration and invasiveness of human vascular endothelial cells. AIDS-KS cells were highly invasive in the Boyden chamber invasion assay and formed invasive, branching colonies in a 3-dimensional gel (Matrigel). Normal endothelial cells form tube-like structures on Matrigel. AIDS-KS cell-conditioned media induced endothelial cells to form invasive clusters in addition to tubes. KS-cell-conditioned media, when placed in the lower compartment of the Boyden chamber, stimulated the migration of human and bovine vascular endothelial cells across filters coated with either small amounts of collagen IV (chemotaxis) or a Matrigel barrier (invasion).
Basic fibroblast growth factor
could also induce endothelial cell chemotaxis and invasion in these assays. However, when antibodies to basic fibroblast growth factor were used the invasive activity induced by the AIDS-KS-cell-conditioned media was only marginally inhibited, suggesting that the large quantities of basic fibroblast growth factor-like material released by the AIDS-KS cells are not the main mediators of this effect. Specific inhibitors of laminin and
collagenase IV
action, which represent critical determinants of basement membrane invasion, blocked the invasiveness of the AIDS-KS cell-activated endothelial cells in these assays. These data indicate that KS cells appear to be of smooth muscle origin but secrete a potent inducer of endothelial cell chemotaxis and invasiveness which could be responsible for angiogenesis and the resulting highly vascularized lesions. These assays appear to be a model to study the invasive spread and angiogenic capacity of human AIDS-related KS and should prove useful in the identification of molecular mediators and potential inhibitors of neoplastic neovascularization.
...
PMID:Supernatants of acquired immunodeficiency syndrome-related Kaposi's sarcoma cells induce endothelial cell chemotaxis and invasiveness. 202 45
The v-erbA oncogene coding for a mutated form of the thyroid hormone (T3) receptor (TR alpha 1) increased the invasion capacity of the mouse B3.1 glial cell line. This effect was mediated by the induction of platelet-derived growth factor (c-sis/PDGF B), as shown by its inhibition using an anti-PDGF BB antibody. Also, the low invasion capacity of parental B3.1 and c-erbA-expressing cells (B3.1 + TR alpha 1) was enhanced by exogenously added PDGF BB. This effect was independent of the growth-promoting activity of PDGF and unrelated to the secretion of metalloproteinases. All three cell types (parental B3.1, B3.1 + v-erbA, and B3.1 + TR alpha 1) secreted similar high levels of the M(r) 72,000
collagenase IV
(A) independently of PDGF. Anchorage-independent cell growth was also enhanced by v-erbA; B3.1 + v-erbA cells but neither parental B3.1 nor B3.1 + TR alpha 1 cells formed foci in soft agar. The effect of v-erbA only happened in the presence of serum, suggesting that some serum factor(s) cooperate with PDGF to overcome the anchorage dependence of B3.1 + v-erbA cells. Supporting this, high doses of exogenous PDGF were much less efficient than serum, and the addition of an anti-PDGF BB antibody blocked only partially the effect of serum.
Basic fibroblast growth factor
was found to cooperate with PDGF to abolish anchorage dependence. Moreover, B3.1 + v-erbA cells detached and grew in suspension when cultured on plastic dishes. Interestingly, the transformation-competent c-jun and fra-1 oncogenes were induced by v-erbA in serum-free medium and are candidates to mediate v-erbA effects. In summary, our results show that v-erbA induces transformation parameters in the glial B3.1 cell line via an increase in c-sis/PDGF B and probably other mechanisms, suggesting a role for (autocrine) PDGF stimulation in glial cell transformation.
...
PMID:v-erbA oncogene induces invasiveness and anchorage-independent growth in cultured glial cells by mechanisms involving platelet-derived growth factor. 883 67
Members of the Ets family of transcription factors mediate transcriptional responses of multiple signaling pathways in diverse cell types and organisms. Targeted deletion of the conserved DNA binding domain of the Ets2 transcription factor results in the retardation and death of homozygous mouse embryos before 8.5 days of embryonic development. Defects in extraembryonic tissue gene expression and function include deficient expression of matrix metalloproteinase-9 (MMP-9,
gelatinase B
), persistent extracellular matrix, and failure of ectoplacental cone proliferation. Mutant embryos were rescued by aggregation with tetraploid mouse embryos, which complement the developmental defects by providing functional extraembryonic tissues. Rescued Ets2-deficient mice are viable and fertile but have wavy hair, curly whiskers, and abnormal hair follicle shape and arrangement, resembling mice with mutations of the EGF receptor or its ligands. However, these mice are not deficient in the production of TGFalpha or the EGF receptor. Homozygous mutant cell lines respond mitogenically to TGFalpha, EGF, FGF1, and FGF2. However,
FGF
fails to induce MMP-13 (collagenase-3) and MMP-3 (stromelysin-1) in the Ets2-deficient fibroblasts. Ectopic expression of Ets2 in the deficient fibroblasts restores expression of both matrix metalloproteinases. Therefore, Ets2 is essential for placental function, mediating growth factor signaling to key target genes including MMP-3, MMP-9, and MMP-13 in different cell types, and for regulating hair development.
...
PMID:Defective trophoblast function in mice with a targeted mutation of Ets2. 957 48
Fibroblast growth factor 8 (FGF-8) is a secreted heparin-binding protein, which has mitogenic and transforming activity. Increased expression of FGF-8 has been found in human breast cancer, and it has a potential autocrine role in its progression. Human FGF-8 is alternatively spliced to generate four protein isoforms (a, b, e, and f). Isoform b has been shown to be the most transforming. In this work, we studied the role of
FGF
-8b in the growth (in vitro and in vivo) of MCF-7 human breast cancer cells, which proliferate in an estrogen-dependent manner. Constitutive overexpression of
FGF
-8b in MCF-7 cells down-regulated
FGF
-8b-binding receptors FGF receptor (FGFR) 1IIIc, FGFR2IIIc, and FGFR4 found to be expressed in these cells.
FGF
-8b overexpression led to an increase in the anchorage-independent proliferation rate in suspension culture and colony formation in soft agar, when MCF-7 cells were cultured with or without estradiol.
FGF
-8b also provided an additional growth advantage for cells stimulated with estradiol. In addition,
FGF
-8b-transfected cells invaded more actively through Matrigel than did control cells. This was possibly due to the increased secretion of
matrix metalloproteinase 9
. In vivo,
FGF
-8b-transfected MCF-7 cells formed faster growing tumors than vector-only-transfected cells when xenografted into nude mice. The tumors formed by
FGF
-8b-transfected cells were more vascular than the tumors formed by vector-only-transfected cells. In conclusion,
FGF
-8b expression confers a growth advantage to MCF-7 breast carcinoma cells, both in vitro and in vivo. In addition to stimulation of proliferation, this growth advantage probably arises from increased invasion and tumor vascularization induced by
FGF
-8b. The results suggest that
FGF
-8b signaling may be an important factor in the regulation of tumorigenesis and progression of human breast cancer.
...
PMID:Enhanced invasion and tumor growth of fibroblast growth factor 8b-overexpressing MCF-7 human breast cancer cells. 1135 49
