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Query: UMLS:C0012739 (
disseminated intravascular coagulation
)
8,673
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Expression of the tetraspanin CO-029 is associated with poor prognosis in patients with gastrointestinal cancer. In a pancreatic tumor line, overexpression of the rat homologue, D6.1A, induces lethally
disseminated intravascular coagulation
, suggesting D6.1A engagement in angiogenesis. D6.1A-overexpressing tumor cells induce the greatest amount of angiogenesis in vivo, and tumor cells as well as exosomes derived thereof strikingly increase endothelial cell branching in vitro. Tumor cell-derived D6.1A stimulates angiogenic factor transcription, which includes increased
matrix metalloproteinase
and urokinase-type plasminogen activator secretion, pronounced vascular endothelial growth factor expression in fibroblasts, vascular endothelial growth factor receptor expression, and strong D6.1A up-regulation in sprouting endothelium. Thus, D6.1A initiates an angiogenic loop that, probably due to the abundance of D6.1A in tumor-derived exosomes, reaches organs distant from the tumor. Most importantly, because of the strong D6.1A up-regulation on sprouting capillaries, angiogenesis could be completely inhibited by a D6.1A-specific antibody, irrespective of whether or not the tumor expresses D6.1A. Tetraspanins have been suggested to be involved in morphogenesis. This is the first report that a tetraspanin, CO-029/D6.1A, promotes tumor growth by its capacity to induce systemic angiogenesis that can effectively, and with high selectivity for sprouting endothelium, be blocked by a D6.1A-specific antibody.
...
PMID:Systemic induction of the angiogenesis switch by the tetraspanin D6.1A/CO-029. 1684 54
Previous studies have shown that platelet derived growth factor (PDGF) can stimulate corneal keratocyte spreading and migration within 3-D collagen matrices, without inducing transformation to a contractile, fibroblastic phenotype. The goal of this study was to investigate the role of matrix metalloproteinases (MMPs) in regulating PDGF-induced changes in keratocyte motility and mechanical differentiation. Rabbit corneal keratocytes were isolated and cultured in serum-free media (S-) to maintain their quiescent phenotype. A nested collagen matrix construct was used to assess 3-D cell migration, and a standard collagen matrix model was used to assess cell morphology and cell-mediated matrix contraction. In both cases constructs were cultured in S- supplemented with PDGF, with or without the broad spectrum
MMP
inhibitors GM6001 or BB-94. After 4 days, f-actin, nuclei and collagen fibrils were imaged using confocal microscopy. To assess sub-cellular mechanical activity (extension and retraction of cell processes), time-lapse
DIC
imaging was also performed. MT1-MMP expression and
MMP
-mediated collagen degradation were also examined. Results demonstrated that neither GM6001 nor BB-94 affected corneal keratocyte viability or proliferation in 3-D culture. PDGF stimulated elongation and migration of corneal keratocytes within type I collagen matrices, without causing a loss of their dendritic morphology or inducing formation of intracellular stress fibers. Treatment with GM6001 and BB-94 inhibited PDGF-induced keratocyte spreading and migration. Relatively low levels of keratocyte-induced matrix contraction were also maintained in PDGF, and the amount of PDGF-induced collagen degradation was similar to that observed in S- controls. The collagen degradation pattern was consistent with membrane-associated
MMP
activity, and keratocytes showed positive staining for MT1-MMP, albeit weak. Both matrix contraction and collagen degradation were reduced by
MMP
inhibition. For most outcome measures, the inhibitory effect of BB-94 was significantly greater than that of GM6001. Overall, the data demonstrate for the first time that even under conditions in which low levels of contractility and extracellular matrix proteolysis are maintained, MMPs still play an important role in mediating cell spreading and migration within 3-D collagen matrices. This appears to be mediated at least in part by membrane-tethered MMPs, such as MT1-MMP.
...
PMID:MMP regulation of corneal keratocyte motility and mechanics in 3-D collagen matrices. 2453 Jun 19
