A secreted collagen- and fibronectin-binding streptococcal protein modulates cell-mediated collagen gel contraction and interstitial fluid pressure

Fibroblast-mediated collagen gel contraction depends on collagen-binding beta1 integrins. Perturbation of these integrins reveals an alternative contraction process that is integrin alphaVbeta3-dependent and platelet-derived growth factor (PDGF) BB-stimulated. Connective tissue cells actively control interstitial fluid pressure (IFP), and inflammation-induced lowering of IFP provides a driving force for edema formation. PDGF-BB normalizes a lowered IFP by an alphaVbeta3-dependent process. A potential modulation of IFP by extracellular matrix-binding bacterial proteins has previously not been addressed. The fibronectin (FN)-binding protein FNE is specifically secreted by the highly virulent Streptococcus equi subspecies equi. FNE bound FN and native collagen type I with K(d) values of approximately 20 and approximately 50 nm determined by solid-phase binding assays. Rotary shadowing revealed a single FNE binding site located at on average 122 nm from the C terminus of procollagen type I. FNE induced alphaVbeta3-mediated contraction by C2C12 cells in a concentration-dependent manner having a maximal effect at approximately 100 nm. This activity of FNE required cellular FN, and FNE acted synergistically to added plasma FN or PDGF-BB. FNE enhanced binding of soluble FN to immobilized collagen, and conversely the binding of collagen to immobilized FN. Marked bell-shaped concentration dependences for these interactions suggest that FNE forms a bridge between FN and collagen. Finally, FNE normalized dermal IFP lowered by anaphylaxis. Our data suggest that secreted FNE normalized lowering of IFP by stimulating connective tissue cell contraction.     

Integrin alphavbeta3 mediates platelet-derived growth factor-BB-stimulated collagen gel contraction in cells expressing signaling deficient integrin alpha2beta1

The interplay between the collagen-binding integrin, alpha2beta1, and platelet-derived growth factor (PDGF) receptors in the context of functional interactions with collagen was studied. We expressed either wild-type alpha2beta1 (alpha2beta1A) or alpha2beta1 with a Y783/795F mutation in the cytoplasmic tail of the beta1 subunit (alpha2beta1Amut) in the beta1-null fibroblastic cell line, GD25. GD25 cells lack endogenous expression of the alpha1 and alpha2 integrin subunits and do not adhere to collagen even after transfection with beta1A. Cells expressing alpha2beta1Amut contracted three-dimensional collagen lattices less efficiently than those expressing alpha2beta1A. PDGF-BB significantly stimulated lattice contraction by GD25-alpha2beta1Amut cells. Both cell types responded chemotactically to PDGF-BB. Focal adhesion kinase (FAK) and p130(Cas) were phosphorylated when GD25-alpha2beta1A cells, but not GD25-alpha2beta1Amut cells were seeded on collagen-coated dishes. Subsequent treatment with PDGF-BB further increased phosphorylation of FAK and p130(Cas) only in GD25-alpha2beta1A cells. However, when cultured within collagen lattices, FAK and p130(Cas) phosphorylation were stimulated in both alpha2beta1A- and alpha2beta1Amut-expressing cells but further phosphorylation, in response to subsequent treatment with PDGF-BB, was seen only in GD25-alpha2beta1A cells. We show that the stimulatory effects of PDGF-BB on collagen gel contraction and chemotaxis by GD25-alpha2beta1Amut cells were mediated by the alphavbeta3 integrin. Phosphorylation of p130(Cas), but not FAK, in GD25-alpha2beta1Amut cells seeded in collagen lattices also depended on alphavbeta3. Our results show that PDGF-BB stimulation of fibroblast-collagen interactions is mediated by the alphavbeta3 integrin when beta1 integrin function is impaired.     

A fibronectin-binding protein from Streptococcus equi binds collagen and modulates cell-mediated collagen gel contraction

The N-terminal fragment (FNZN) of the fibronectin-binding protein FNZ from Streptococcus equi subspecies zooepidemicus was investigated as to effects on murine cell interactions with extracellular matrix proteins. FNZN bound to immobilized fibronectin (FN) and native, but not denatured, collagen type I. FNZN had no effect on primary adhesion of cells from the murine myoblastic C2C12 cell line to immobilized fibronectin. C2C12 cells adhered to immobilized FNZN, a process that was not inhibited by anti-human FN IgG or by an inhibitor of integrin alphaVbeta3. C2C12 cells lack collagen-binding beta1 integrins and neither adhere to native collagen nor mediate contraction of three-dimensional collagen gels. FNZN stimulated collagen gel contraction by C2C12 cells but not adhesion of C2C12 cells to collagen. Experiments with an alphaVbeta3-inhibitor suggested that FNZN promoted contraction by a process requiring alphaVbeta3. Our data suggest that FNZN by binding to cells, collagen, and FN modulate complex adhesive processes mediated by the alphaVbeta3 integrin. Since alphaVbeta3-mediated contractile events function to counteract edema formation during inflammation, it is possible that FNZN and its secreted homologue FNE modulate edema responses in infected tissues.     

Modulation of heart fibroblast migration and collagen gel contraction by IGF-I

Dynamic interactions between cells and the extracellular matrix are essential in the regulation of a number of cellular processes including migration, adhesion, proliferation and differentiation. A variety of factors have been identified which modulate these interactions including transforming growth factor-beta, platelet-derived growth factor and others. Insulin-like growth factors have been shown to regulate collagen production by heart fibroblasts; however, the effects of this growth factor on the interactions of heart fibroblasts with the extracellular matrix have not been examined. The present studies were carried out to determine the effects of IGF-I on the ability of fibroblasts to interact with the extracellular matrix and to begin to determine the mechanisms of this response. These experiments illustrate that IGF-I treatment results in increased migration, collagen reorganization and gel contraction by heart fibroblasts. IGF-I has been shown to activate both the mitogen-activated protein kinase and phophatidylinositol-3 kinase pathways in isolated cells. Experiments with pharmacological antagonists of these pathways indicate that the mitogen-activated protein kinase pathway is essential for IGF-I stimulated collagen gel contraction by fibroblasts. These studies illustrate that IGF-I modulates the ability of fibroblasts to interact with the collagen matrix and that activation of multiple signaling pathways by IGF-I may produce distinct downstream responses in these cells.     

Hydrostatic fluid pressure promotes cellularity and proliferation of human dermal fibroblasts in a three-dimensional collagen gel/sponge

Cell constructs and culture systems are essential components of tissue engineering. Cell constructs are usually composed of a dense population of cells, for which long-term culture is required in vitro. However, the denser construct suffers from the absence of passive nutrient supply, gas exchange, and removal of degraded debris. We have developed a novel hydrostatic pressure/perfusion (HP/P) culture system that improves the quality of neo-tissues, providing an automated affordable system for clinical applications. We evaluated the effects of HP/P on cellularity, viability, and proliferation of human dermal fibroblasts seeded in a gel/sponge construct. HP/P and perfusion promoted cell migration and significantly increased proliferation and DNA content after 4 days culture compared to the static culture. HP/P culture is beneficial for building a denser three-dimensional fibroblast construct.     

Epigallocatechin-3-O-gallate inhibits fibroblast contraction of floating collagen gel: interaction between epigallocatechin-3-O-gallate and platelet derived growth factor

The effects of (-)-epigallocatechin gallate (EGCG) on the contraction of floating collagen gel by fibroblasts were investigated. EGCG inhibited collagen gel contraction dose-dependently. On the basis of the fact that platelet-derived growth factor (PDGF) is one of the serum components with stimulatory activity in collagen gel contraction, we examined the possibility that interaction between EGCG and PDGF may be involved in this inhibition mechanism. We confirmed this by recombinant PDGF-BB in the present system and we found that EGCG inhibited PDGF-stimulated collagen gel contraction. The results of affinity chromatography indicated that PDGF was bound by EGCG immobilized on agarose gel as detected by enzyme-linked immunoassay and Western blotting. These findings suggest that binding of EGCG to PDGF is at least partly involved in the mechanism of inhibition of collagen gel contraction by EGCG.     

Heparin modulates the organization of hydrated collagen gels and inhibits gel contraction by fibroblasts

We studied the effects of extracellular matrix components on fibroblast contraction of hydrated collagen gels. After 4-h incubations, heparin-containing collagen gels contracted only 10% compared with 50% contraction of control gels. Contraction was not affected by hyaluronic acid, dermatan sulfate, or fibronectin, implying that the activity of heparin was specific. The possibility that heparin inhibited attachment of the cells to the gels was ruled out. Also, addition of heparin to the incubation medium had no effect on contraction. Microscopic examination showed that control collagen gels were composed of a uniform network of interlocking fibrils of similar sizes. Heparin-containing gels, on the other hand, were highly variable with some collagen bundles containing 5-6 collagen fibrils and other regions containing amorphous material. Unlike the control gels, the fibrils of heparin-containing gels were not continuously interconnected. Based on the results, we propose that fibroblasts attach normally to the collagen fibrils of heparin-containing gels and attempt to contract the gels, but the mechanical forces exerted by fibroblasts on individual collagen fibrils cannot be propagated throughout the gels.     

Regulation of extracellular volume and interstitial fluid pressure in rat bone marrow

The volume and fluid pressure characteristics of the intact bone marrow is incompletely understood. We used microspheres and lipoproteins for measurements of intravascular volume (IVV) and EDTA for interstitial fluid volume (IFV) within the rat bone marrow. Interstitial fluid pressure (IFP) was determined with micropipettes connected to a servo-controlled counter-pressure system. Both the microspheres and the lipoproteins yielded estimates of IVV of approximately 1 ml/100 g. After a brief reactive hyperemia, IVV increased to 2.5 ml/100 g, whereas IFV decreased with approximately 1.5 ml/100 g, so that total extracellular volume did not change. Baseline bone marrow IFP was 9.7 mmHg. The hyperemia led to a transient twofold increase in IFP, whereas a marked blood loss decreased IFP by almost one-half. These novel data suggest that extracellular volume and IFP within the bone marrow can be measured with tracer methods and the micropuncture technique. The responses of IVV, IFV, and IFP during changes in blood flow to the bone marrow suggest a tight regulation and are thus compatible with those for a low-compliant tissue.     

Integrin alpha 2 beta 1 (VLA-2) mediates reorganization and contraction of collagen matrices by human cells

The capacity of cells to organize and contract collagen fibrils is fundamental to processes as diverse as embryogenesis and wound healing. We analyzed different beta 1 integrins on diploid fibroblasts for their role in modifying the tertiary structure of collagen matrices. Using monoclonal antibodies that block the interaction of integrins with their ligands, evidence was obtained that alpha 2 beta 1 integrin is required for the contraction of a type I collagen matrix. Further supporting the role of alpha 2 beta 1, cell lines expressing minimal levels of this integrin uniformly failed to contract collagen matrices. In addition, transfection of a full-length alpha 2 cDNA into one such cell line led to enhanced cell surface expression of alpha 2 beta 1 and conferred the de novo capacity to contract collagen matrices.     

Role of the α1β1 integrin complex in collagen gel contraction in vitro by fibroblasts

Matrix remodeling, critical to embryonic morphogenesis and wound healing, is dependent on the expression of matrix components, their receptors, and matrix proteases. The collagen gel assay has provided an effective model for the examination of the functional role(s) of each of these groups of molecules in matrix remodeling. Previous investigations have indicated that collagen gel contraction involves the β1 integrin family of matrix receptors and is stimulated by several growth factors, including TGF-β, PDGF, and angiotensin II. In particular, collagen gel remodeling by human cells involves the α2β1 and, to a lesser extent the α1β1 integrin complexes. The present studies were undertaken to determine the role of the α1 integrin chain, a collagen/laminin receptor, in collagen gel contration by rodent and avian fibroblasts. A high degree of correlation was found between the expression of the α1β1 integrin complex and the relative ability of cells to contract collagen gels. Further studies using antibodies and antisense oligonucleotides against the α1 integrin indicated a significant role for this integrin chain in contraction of collagen gels by rat cardiac fibroblasts. In addition, antibodies to the α1 integrin chain inhibited migration of these fibroblasts on a collagen substratum, suggesting that at least one role of this integrin is in migration of cells in collagen gels. These results indicate that the α1β integrin complex plays a significant role in cellular interactions with interstital collagen that are involved in matrix remodeling such as is seen during morphogenesis and wound healing. © 1995 Wiley-Liss, Inc.     

Relationship between interstitial fluid volume and pressure (compliance) in hypothyroid rats

There is clinical and experimental evidence that lack of thyroid hormones may affect the composition and structure of the interstitium. This can influence the relationship between volume and pressure during changes in hydration. Hypothyrosis was induced in rats by thyroidectomy 8 wk before the experiments. Overhydration was induced by infusion of acetated Ringer, 5, 10, and 20% of the body weight, while fluid was withdrawn by peritoneal dialysis with hypertonic glucose. Interstitial fluid pressure (P(i)) in euvolemia (euvolemic control situation) and experimental situation was measured with micropipettes connected to a servocontrolled counterpressure system. The corresponding interstitial fluid volume (V(i)) was found as the difference between extracellular fluid volume measured as the distribution volume of (51)Cr-labeled EDTA and plasma volume measured using (125)I-labeled human serum albumin. In euvolemia, V(i) was similar or lower in the skin and higher in skeletal muscle of hypothyroid than in euthyroid control rats, whereas the corresponding P(i) was higher in all tissues. During overhydration, P(i) rose to the same absolute level in both types of rats, whereas during peritoneal dialysis there was a linear relationship between volume and pressure in all tissues and types of rats. Interstitial compliance (C(i)), calculated as the inverse value of the slope of the curve relating changes in volume and pressure in dehydration, did not differ significantly in the hindlimb skin of hypothyroid and euthyroid rats. However, in skeletal muscle, C(i) was 1.3 and 2.0 ml. 100 g(-1). mmHg(-1) in hypothyroid and euthyroid rats (P < 0.01), with corresponding numbers for the back skin of 2.7 and 5.0 ml. 100 g(-1). mmHg(-1) (P < 0.01). These experiments suggest that lack of thyroid hormones in rats changes the interstitial matrix, again leading to reduced C(i) and reduced ability to mobilize fluid from the interstitium.     

Increased negativity of interstitial fluid pressure in rat trachea in dextran anaphylaxis.

This study shows that, in rat trachea, dextran anaphylaxis is associated with increased negativity of interstitial fluid pressure (Pif) as measured with sharpened glass capillaries (tip diameter 3-7 microns) connected to a servo-controlled counterpressure system. Experiments were carried out in pentobarbital-anesthetized Wistar-M?ller rats. Pif in the control situation was -2.5 +/- 0.38 (SD) mmHg. The mean pressure in animals killed 2 min after initiation of the anaphylactic reaction by injection of 1 ml of 10% Dextran 70 in 0.9% NaCl was -10.3 +/- 2.6 mmHg. In another experimental series, interstitial fluid volume was measured after dextran administration but without inducing circulatory arrest. Interstitial fluid volume increased from 0.94 +/- 0.16 to 1.56 +/- 0.42 ml/g dry wt after 10 min to 1.57 +/- 0.30 and 1.10 +/- 0.27 ml/g dry wt after 30 and 60 min, respectively. The increased negativity in Pif in tracheal mucosa in the early phase of dextran anaphylaxis will markedly increase the transcapillary net filtration pressure in the initial phase of edema development.     

Integrin alphavbeta3 binding to human alpha5-laminins facilitates FGF-2- and VEGF-induced proliferation of human ECV304 carcinoma cells

Human ECV304 cells respond reproducibly by tube formation to complex basement membrane matrices. Laminins are major glycoproteins of basement membranes. We therefore studied the ability of ECV304 cells to attach to defined laminin isoforms and to fibronectin, and identified the involved laminin receptors. The cells bound poorly to fibronectin, to some extent to laminin-1, whereas laminin-2/4 and -10/11 were strong adhesive substrates. Antibody perturbation assays showed that adhesion to laminin-1 was mediated by integrin alpha6beta1, and adhesion to laminin-2/4 by cooperative activity of integrins alpha3beta1 and alpha6beta1. Adhesion of ECV 304 cells to laminin-10/11 was mainly mediated by integrins alpha3beta1, with minor involvement of alpha6beta1/4 and alphavbeta3. Solid-phase binding assays confirmed that integrin alphavbeta3 binds human laminin-10/11 and -10, in an RGD-dependent fashion. Although integrin alphavbeta3 played a very minor role in cell adhesion to laminin-10/11, this interaction facilitated growth factor-induced proliferation of ECV304 cells. In response to FGF-2 or VEGF, the cells proliferated better when attached on laminin-10/11 than on laminin-1, -2/4, or gelatin. The proliferation induced by the joint application of laminin-10/11 and either one of the growth factors could be blocked by antibodies against integrin alphavbeta3. Fragments of several other basement membrane components are known to interact with alphavbeta3. The current data show that that integrin alphavbeta3 can bind intact alpha5-containing laminin trimers. Since the laminin alpha5 chain is broadly expressed in adult basement membranes, this interaction could be physiologically important. Our data suggest that this interaction is involved in the regulation of cellular responses to growth factors known to be involved in epithelial and endothelial development.     

Effects of the taxanes paclitaxel and docetaxel on edema formation and interstitial fluid pressure

Interstitial fluid pressure (P(if)) is important for maintaining constant interstitial fluid volume. In several acute inflammatory reactions, a dramatic lowering of P(if) has been observed, increasing transcapillary filtration pressure and favoring initial and rapid edema formation. This lowering of P(if) seems to involve dynamic beta(1)-integrin-mediated interactions between connective tissue cells and extracellular matrix (ECM) fibers. beta(1)-Integrins are adhesion receptors responsible for the attachment of connective tissue cells to the ECM providing a force-transmitting physical link between the ECM and cytoskeleton. Disruption of actin filaments leads to lowering of P(if) and edema formation, suggesting a role for actin filaments. The aim of this study was to further investigate the role of the cytoskeleton in the control of P(if) by studying the effect of microtubuli fixation using paclitaxel and docetaxel. P(if) was measured with the micropuncture technique. Albumin extravasation (E(alb)) was measured using (125)I-labeled albumin. Paclitaxel and docetaxel were tested locally on foot skin in female Wistar rats. Paclitaxel (6 mg/ml) reduced P(if) from -1.5 +/- 1.0 mmHg in controls to -4.9 +/- 2.6 mmHg after 30 min (P < 0.05) in a dose-dependent manner (P < 0.05). Docetaxel caused a similar lowering of P(if). Both paclitaxel and docetaxel increased E(alb) compared with Cremophor EL and saline control (P < 0.05). Pretreatment with phalloidin before paclitaxel, causing fixation of actin filaments, abolished the lowering of P(if) caused by paclitaxel. This study confirms several previous studies demonstrating that connective tissue cells influence P(if) and edema formation.