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Query: EC:4.2.2.7 (
heparinase
)
1,270
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Embryonic data and ultrastructural analyses suggest that the primitive endothelium signals undifferentiated mesenchymal cells to migrate to the forming blood vessel and subsequently regulates mural cell growth and behavior. Upon maturation of the blood vessel, chemotactic and mitogenic signals are apparently diminished and differentiated smooth muscle cells normally remain quiescent. This homeostasis is seemingly upset in conditions which lead to pathologies characterized by smooth muscle cell hyperplasia such as atherosclerosis. By culturing endothelial cells at different densities, we attempted to re-create the various stages of vascular development. Whereas media conditioned by sparse endothelial cells stimulate smooth muscle cells, media conditioned by dense endothelial cell cultures are inhibitory. Culture of sparse smooth muscle cells in media conditioned for 3 days by postconfluent endothelial cell cultures leads to dose-dependent and reversible smooth muscle cell inhibition. Furthermore, in the presence of the endothelial cell-derived inhibitor, smooth muscle cells are rendered refractory to mitogens such as fibroblast growth factor and
platelet-derived growth factor
. The inhibitory activity is not attributable to the well-characterized inhibitors of smooth muscle cell growth, transforming growth factor type-beta, prostaglandin I2, or heparan sulfate proteoglycan. Partial characterization of the inhibitory conditioned media suggests that the active molecule is smaller than 1,000 da, and stable to boiling as well as proteinase K and
heparinase
digestion. These findings support the concept that there is intercellular communication between endothelial cells and smooth muscle cells and provide evidence for a novel endothelial cell-derived smooth muscle cell growth inhibitor.
...
PMID:Density-dependent endothelial cell production of an inhibitor of smooth muscle cell growth. 822 80
Mechanisms underlying stimulation of
platelet-derived growth factor
(
PDGF
) beta-receptors expressed on connective tissue cells in human colorectal adenocarcinoma were investigated in this study.
PDGF
-AB/BB, but not
PDGF
receptors, was expressed by tumor cells in situ, as well as in tumor cell isolates of low passage from human colorectal adenocarcinoma. In an experimental co-culture system, conditioned medium from tumor cells only marginally activated
PDGF
beta-receptors expressed on fibroblasts. In contrast, co-culturing of the two cell types led to a marked
PDGF
beta-receptor activation. Functional
PDGF
-AB/BB was found to be associated with
heparinase
-I-sensitive components on the tumor cell surface.
PDGF
-AB/BB, isolated from
heparinase
-I-sensitive cell surface components, induced a marked activation of
PDGF
beta-receptors. Furthermore, co-culturing tumor cells together with fibroblasts led to a sustained activation of
PDGF
beta-receptors expressed on fibroblasts. Double immunofluorescence staining of tissue sections from human colorectal adenocarcinoma, combined with computer-aided image analysis, revealed that nonproliferating tumor cells were the predominant cellular source of
PDGF
-AB/BB in the tumor stroma. In addition,
PDGF
-AB/BB-expressing tumor cells were found juxtapositioned to microvascular cells expressing activated
PDGF
beta-receptors. Confocal microscopy revealed a cytoplasmic and cell-membrane-associated expression of
PDGF
-AB/BB in tumor cells situated in the stroma. In contrast, epithelial cells situated in normal or tumorous acinar structures revealed only a cell-membrane-associated
PDGF
-AB/BB expression. The is vitro and in situ results demonstrate that tumor cells not only facilitate but also have the ability to modulate connective tissue cell responsiveness to
PDGF
-AB/BB in a paracrine fashion, through direct cell-cell interactions in human colorectal adenocarcinoma.
...
PMID:Tumor cell and connective tissue cell interactions in human colorectal adenocarcinoma. Transfer of platelet-derived growth factor-AB/BB to stromal cells. 925 Jan 60
Migration of vascular smooth muscle cells (SMCs) is a key step in vascular remodeling and formation of pathological lesions in diseased arteries and may be controlled by extracellular matrix (ECM) and by factors that regulate ECM composition, such as
platelet-derived growth factor
(
PDGF
). In culture,
PDGF
-AB and -BB enhance but
PDGF
-AA (although having no effect alone) suppresses SMC migration stimulated by other
PDGF
isoforms. To determine whether the migration-inhibitory mechanism of
PDGF
-AA was mediated by ECM composition, we examined baboon SMC migration in a Boyden chamber assay using filters coated with different ECM proteins.
PDGF
-AA suppressed the
PDGF
-BB-induced migration of baboon SMCs on a filter coated with basement membrane proteins (Matrigel) and fibronectin but failed to inhibit cell migration on a type I collagen (Vitrogen)-coated filter. Fibronectin and fibronectin fragments that contain heparin-binding domains permitted
PDGF
-AA inhibition of cell migration, but a fragment lacking heparin-binding domains did not. Treatment of SMCs with heparin lyases II and III, but not with chondroitin ABC lyase, diminished the
PDGF
-AA-mediated inhibition of migration.
PDGF
-AA stimulated accumulation of proteoglycan (PG) in the cell layer more potently than did
PDGF
-BB, whereas the turnover of cell layer PG was unaffected by either
PDGF
-AA or -BB. Northern blot analysis revealed that
PDGF
-AA increased syndecan-1 mRNA expression more than did
PDGF
-BB, whereas both
PDGF
isoforms decreased perlecan expression. The changes in cell migration and PG synthesis induced by
PDGF
-AA were accompanied by changes in the morphology of SMCs.
PDGF
-AA dramatically induced the spreading of SMCs, whereas the
heparin lyase
treatment of
PDGF
-AA-stimulated cultures diminished cell spreading. The data suggest that
PDGF
-AA selectively modifies heparan sulfate PG accumulation on SMCs and thereby influences the interactions of SMCs with heparin-binding ECM proteins. These interactions, in turn, generate signals that suppress SMC migration.
...
PMID:Heparan sulfate proteoglycans mediate a potent inhibitory signal for migration of vascular smooth muscle cells. 971 Jan 23
This study showed that synthetic peptides containing either a single copy or tandem repeat of the receptor binding domain sequence of apolipoprotein (apo) E, or a peptide containing its C-terminal heparin binding domain, apoE-(211-243), were all effective inhibitors of
platelet-derived growth factor
(
PDGF
)-stimulated smooth muscle cell proliferation. In contrast, only the peptide containing a tandem repeating unit of the receptor binding domain sequence of apoE, apoE-(141-155)(2), was capable of inhibiting
PDGF
-directed smooth muscle cell migration. Peptide containing only a single unit of this sequence, apoE-(141-155), or the apoE-(211-243) peptide were ineffective in inhibiting
PDGF
-directed smooth muscle cell migration. Additional experiments showed that reductively methylated apoE, which is incapable of receptor binding yet retains its heparin binding capability, was equally effective as apoE in inhibiting
PDGF
-stimulated smooth muscle cell proliferation. However, reductively methylated apoE was unable to inhibit smooth muscle cell migration toward
PDGF
. Additionally, the receptor binding domain-specific apoE antibody 1D7 also mitigated the anti-migratory properties of apoE on smooth muscle cells. Finally, pretreatment of cells with
heparinase
failed to abolish apoE inhibition of smooth muscle cell migration. Taken together, these data documented that apoE inhibition of
PDGF
-stimulated smooth muscle cell proliferation is mediated by its binding to heparan sulfate proteoglycans, while its inhibition of cell migration is mediated through apoE binding to cell surface receptors.
...
PMID:Apolipoprotein E receptor binding versus heparan sulfate proteoglycan binding in its regulation of smooth muscle cell migration and proliferation. 1135 Sep 66
The principal cells implicated as the source of the extracellular matrix in areas of progressive fibrosis are fibroblasts with the phenotypic appearance of myofibroblasts. This report describes differences in heparan sulfate proteoglycan expression between myofibroblasts and normal fibroblasts, associated with impaired responses to fibroblast growth factor-2 (FGF-2). Although both cell types responded to
platelet-derived growth factor
, myofibroblasts, unlike fibroblasts, did not proliferate to FGF-2. A response was acquired, however, when myofibroblasts were incubated with FGF-2 in the presence of heparan sulfate (HS) and heparin. Selective digestion with pronase, NaOH/NaBH(4),
heparinase
I, or low pH nitrous acid showed that each HS-glycosaminoglycan region comprised a pronase-resistant peptide separating two HS chains. The HS-glycosaminoglycan chains from myofibroblasts were larger (K(av), 0.32; molecular weight, 50 kd) than those from fibroblasts (K(av), 0.4; molecular weight, 33 kd), although their disaccharide composition was identical. The chains from myofibroblasts, however, contained three, compared to two,
heparinase
1-resistant sequences separated by larger contiguous areas of low sulfation. Furthermore, although there was no difference in FGF-2-binding affinity between the two cell types, the chains secreted by myofibroblasts had twice the binding capacity of those from fibroblasts. Thus, it is likely that the difference in response to FGF-2 is because of a difference in FGF-2 sequestration and receptor interaction with FGF-2-HS complexes. A comparative investigation into HS fine structure is being undertaken to examine these findings in more detail.
...
PMID:Structural and functional changes in heparan sulfate proteoglycan expression associated with the myofibroblastic phenotype. 1259 30
Fibroblast migration from the peri-wound collagenous stroma into the fibrin-laden wound is critical for granulation tissue formation and subsequent healing. Previously we found that fibroblast transmigration from a collagen matrix into a fibrin matrix required fibronectin (FN). Integrins alpha4beta1, alpha5beta1, and alphavbeta3 and dermatan sulfate CD44 were required for this invasive migration. Here we demonstrated that syndecan-4, a transmembrane heparan sulfate (HS) proteoglycan, known to bind FN, is also required for fibroblast invasive migration of a fibrin/FN gel. This conclusion was based on fibroblast migration using two independent means of disrupting syndecan-4:
heparinase
degradation of HS glycosaminoglycans or suppression of syndecan-4 core protein with antisense oligodeoxynucleotides. Isolated syndecan-4 from these fibroblasts bound Hep II recombinant constructs FN III12-V15>FN III12-15>FN III12-14 but did not bind the IIICS (V) domain. Furthermore,
platelet-derived growth factor
(
PDGF
), which is required to stimulate fibroblast migration, markedly increased cell levels of syndecan-4 core protein in a time and concentration-dependent fashion.
PDGF
also induced upregulation of syndecan-4 at transcriptional level as determined by RT-PCR. These results demonstrate that syndecan-4 is essential for fibroblast invasive migration into fibrin clot and that
PDGF
, the stimulus for migration, induces increased syndecan-4 core protein expression.
...
PMID:Three-dimensional migration of human adult dermal fibroblasts from collagen lattices into fibrin/fibronectin gels requires syndecan-4 proteoglycan. 1585 29
IBT 9302 (
heparinase
III, EC 4.2.2.8), purified from Flavobacterium heparinum, selectively cleaves heparan sulfate proteoglycans (HSPGs) from cellular surfaces and extracellular matrices. HSPGs serve as binding sites for P- and L-selectins, as well as for pro-inflammatory chemokines, such as interleukin (IL)-8. IBT 9302 reversibly removes these binding sites and inflammatory mediators, thereby limiting tissue damage following reperfusion of ischaemic areas by reducing leukocyte rolling, adhesion and extravasation. In models of myocardial ischaemia/reperfusion injury, infusion of IBT 9302 the time of transport and reperfusions, reduces the area of necrosis/area at risk ratios relative to vehicle-treated animals. Cardioprotection is accompanied by a reduction in serum creatine kinase levels and neutrophil adherence to coronary vessels, and the preservation of endothelial relaxation responsiveness to acetylcholine. HSPGs also serve as accumulation sites for most growth factors and IBT 9302 limits both proliferation and migration of vascular smooth muscle cells to
platelet-derived growth factor
(
PDGF
), basic fibroblast growth factor (bFGF) and endothelial growth factor (EGF). In vivo, the application of IBT 9302 at the time of vascular injury significantly reduces arterial medial proliferation. External application of IBT 9302 to wounds in a steroid-impaired wound healing model increases tensile strength by releasing mitogenic growth factors and HSPGs from the surrounding extracellular matrix. Pharmacokinetic studies show a simple monoexponential decay following iv. bolus dosing of IBT 9302, with a half-life of 5 - 6 min. The majority of [(125)I]-IBT 9302 goes to the liver (60%) and kidneys (25%), following iv. dosing. Preliminary toxicology studies in rats following single iv. bolus (10 mg/kg) or infusion (10 mug/kg/min) dosing show no untoward effects. These results suggest that IBT 9302 may have therapeutic utility in treating myocardial ischaemia/reperfusion injury, ischaemic stroke, restenosis or in healing diabetic ulcer wounds, by virtue of its ability to selectively cleave HSPGs.
...
PMID:IBT 9302 (Heparinase III): a novel enzyme for the management of reperfusion injury-related vascular damage, restenosis and wound healing. 1599 12
