A recombinant human TGF-beta1 fusion protein with collagen-binding domain promotes migration, growth, and differentiation of bone marrow mesenchymal cells.

A continuous source of osteoblasts for normal bone maintenance, as well as remodeling and regeneration during fracture repair, is ensured by the mesenchymal osteoprogenitor stem cells of the bone marrow (BM). The differentiation and maturation of osteoprogenitor cells into osteoblasts are thought to be modulated by transforming growth factors-beta (TGF-beta1 and TGF-beta2) and TGF-beta-related bone morphogenetic proteins (BMPs). To define the responses of mesenchymal osteoprogenitor stem cells to several growth factors (GFs), we cultured Fischer 344 rat BM cells in a collagen gel medium containing 0.

Acylated ascorbate stimulates collagen synthesis in cultured human foreskin fibroblasts at lower doses than does ascorbic acid.

Acylated derivatives of ascorbic acid were found to be active in a number of biochemical and physiological processes. In the present study we investigated the effects of 6-O-palmitoyl ascorbate on collagen synthesis by cultured foreskin human fibroblasts. Our observations indicate a marked stimulatory effect on collagen synthesis by 6-O-palmitoyl ascorbate in the concentration range of 5-20 microM, while the synthesis stimulated by ascorbic acid was maximal at concentrations of 20-100 microM.

Nitric oxide mediates hyperglycemia-induced defective migration in cultured endothelial cells.

Purpose: To examine the effects of elevated glucose on the migration and proliferation of vascular endothelial cells in an in vitro wound model and to investigate whether nitric oxide (NO) mediates the effects of elevated glucose.

Methods: Migration was investigated in monolayers of bovine aortic endothelial cells wounded by scraping and measuring the distance, the number of cells migrating, and the area covered by the migrating cells in the presence of various concentrations of glucose. The effects of NO were evaluated by adding to the cultures NG-monomethyl arginine (NMMA), an inhibitor of NO synthase, or S-nitrosylated penicillamine, which is a slow-release agent of NO.

Demineralized bone matrix mediates differentiation of bone marrow stromal cells in vitro: effect of age of cell donor.

Bone maintenance requires a continuous source of osteoblasts throughout life. Its remodeling and regeneration during fracture repair is ensured by osteoprogenitor stem cells which are part of the stroma of the bone marrow (BM). Many investigators have reported that in cultured BM stromal cells there is a cell population that will differentiate along an osteogenic lineage if stimulated by the addition of osteogenic inducers, such as dexamethasone (dex), beta-glycerophosphate (beta-GP), transforming growth factor beta-1 (TGF-beta 1) and bone morphogenetic protein-2 (BMP-2).

Complement proteins are present in developing endochondral bone and may mediate cartilage cell death and vascularization.

Normal endochondral bone formation follows a temporal sequence: immature or resting chondrocytes move away from the resting zone, proliferate, flatten, become arranged into columns, and finally become hypertrophic, disintegrate, and are replaced by bone. The mechanisms that guide this process are incompletely understood, but they include programmed cell death, a stage important in development and some disease processes. Using immunofluorescence we have studied the distribution of various complement proteins to examine the hypothesis that this sequence of events, particularly cell disintegration and matrix dissolution, are complement mediated.

Ultrastructures of the glial epiretinal membrane induced by activated macrophages.

A rabbit model of glial epiretinal membrane was established following the injection of activated macrophages into the vitreous. The membrane was composed entirely of cells with glial characteristics, ie, abundant intermediate filaments, microvilli, junctional complexes and basement membranes. The extracellular matrix of the mature membranes contained collagen fibrils of 10 to 15 and 20 to 25 nm in diameter.

Synthesis of extracellular matrix by macrophage-modulated retinal pigment epithelium.

In proliferative vitreoretinopathy, macrophages and retinal pigment epithelial cells are associated with microfibrillar matrix proteins in the vitreous cavity, but the contribution of this extracellular matrix to the pathophysiology is not known. We used radiolabeling techniques on cultured human retinal pigment epithelial cells to correlate the secretion of extracellular matrix proteins with macrophage-induced modulation of cell proliferation and morphologic features. Retinal pigment epithelial cells incubated in a macrophage-conditioned medium assumed fibrocytelike morphologic characteristics, grew faster, and exhibited a decreased cellular release of fibrillar and nonfibrillar matrix components.

Heterotypic and homotypic cell-cell adhesion molecules in endothelial cells.

Sickle red blood cells display an abnormal propensity to adhere to cultured bovine aortic endothelial cells when compared to normal red blood cells. The adherence was potentiated three-fold by endothelial cell derived conditioned medium, enriched in multimers of von Willebrand factor. Such adherence was ablated by 80% by either the synthetic peptide (RGDS) or antibody to GPIIb/IIIa, indicating the presence of RGD peptide recognition domain/receptor in either endothelial cells or sickle cells or both.

Clearance rate of macrophages from the vitreous in rabbits.

Macrophages are usually present in epiretinal membranes from eyes with proliferative vitreoretinopathy (PVR). Information on the kinetics of macrophages in the eye may be of help in identifying their role in this disease. To determine the half-life of macrophages in the vitreous, peritoneal macrophages were labeled by allowing them to phagocytose 141Cerium (gamma-emitter) labeled microspheres, and were then injected into the vitreous of the same rabbit from which they were obtained.

Vitreous modulation of migration and proliferation of retinal pigment epithelial cells in vitro.

Retinal pigment epithelial (RPE) cell migration and proliferation are believed to play a role in the pathogenesis of proliferative vitreoretinopathy (PVR). Since PVR develops in situations where vitreous contacts the RPE, we sought to determine whether human vitreous contains factors that stimulate proliferation and migration of RPE cells. We found that postmortem human vitreous stimulates migration but not proliferation of human RPE cells under serum-free conditions in vitro.

Fibrovascular proliferation and retinal detachment after intravitreal injection of activated macrophages in the rabbit eye.

Injection of activated macrophages into the posterior vitreous of the rabbit induced vigorous fibrovascular proliferation over the optic disk and medullary rays, as demonstrated by 3H-thymidine autoradiography. One week after injection, endothelial cells and pericytes of the capillaries near the inner surface of the optic disk and rays were labeled; fibroblast-like cells, which were also labeled, migrated and formed vitreous strands. By the second week after injection, the fibrovascular tissue proliferated most actively, and traction medullary ray detachment and peripapillary retinal fold formation were observed.

Macrophage modulation of retinal pigment epithelial cell migration and proliferation.

Macrophages are fully differentiated cells that do not synthesize an extracellular matrix and do not contract; they do, however, produce substances that modify the behavior and functions of other cells, particularly those involved in the inflammatory and immune responses. Since macrophages are a ubiquitous component of periretinal membranes, we sought to determine whether they modulate proliferation and/or migration of retinal pigment epithelial (RPE) cells, functions that may be essential for the development of proliferative vitreoretinopathy (PVR). Using an in vitro assay, we found that macrophage supernatant contains factors that stimulate proliferation and migration of cultured human RPE cells.

Pathogenesis of proliferative vitreoretinopathy. Modulation of retinal pigment epithelial cell functions by vitreous and macrophages.

RPE cell migration and proliferation are believed to play a role in the pathogenesis of PVR. Since PVR develops in situations where vitreous contacts the RPE, we sought to determine whether human vitreous contains factors that stimulate proliferation and migration of RPE cells. We found that postmortem human vitreous stimulates migration but not proliferation of human RPE cells in vitro under serum-free conditions.

Investigations on contractile properties of retinal pigment epithelial cells.

We have investigated the contractile properties of human and bovine retinal pigment epithelial (RPE) cells in culture. In collagen gels, RPE cells sent out processes which were able to retract the gels. In a glycerinated model of contraction, RPE cells contracted and aggregated into clusters in response to the addition of ATP to the media.

Morphologic observations of retinal pigment epithelial proliferation and neovascularization in the rabbit.

Neovascularization and proliferation of the retinal pigment epithelium (RPE) was induced in the rabbit by subretinal injection of vitreous without rupture of Bruch's membrane. New vessels developed between the layer of RPE and photoreceptor outer segments, but were enveloped in proliferating RPE. For this reason they were occult; no fluorescein leakage was visible by angiography.

Experimental subretinal neovascularization in the rabbit.

Subretinal neovascularization (SRN) in the rabbit was induced by subretinal injection of vitreous without rupture of Bruch's membrane. Eight of 26 eyes developed SRN. The incidence of SRN rose from 33% to 57% in a period of 4-40 weeks.

Glial epiretinal membranes and contraction. Immunohistochemical and morphological studies.

It has been suggested that glial cells do not contribute substantially to the contractile forces generated by epiretinal membranes. We have established a rabbit model in which epiretinal membranes form on the inferior peripheral retina after the injection of activated macrophages into the vitreous. By two months, the membranes were extensive but without evidence of traction.

Human retinal pigment epithelial cell cultures: phenotypic modulation by vitreous and macrophages.

In proliferative vitreoretinopathy (PVR), retinal pigment epithelial (RPE) cells migrate into the vitreous, where they may acquire a fibroblast-like morphology. Such cells may eventually form contractile periretinal membranes, resulting in traction retinal detachment. Among the environmental influences that could cause this change in RPE phenotype, exposure to vitreous and to macrophages is most obvious, as macrophages are invariably found in epiretinal membranes and precede membrane formation in experimental traction retinal detachment.

Liquefaction of rabbit vitreous by ferrous ions.

Intravitreal injection of 0.7 mumol of ferrous chloride in 0.1 ml into the rabbit eye resulted in liquefaction of the vitreous gel and condensation of vitreous collagen fibrils within two weeks; injection of 0.

Breakdown of Bruch's membrane after subretinal injection of vitreous. Role of cellular processes.

It was recently shown that the injection of autologous vitreous beneath the retina of rabbits leads to retinal degeneration, subretinal cellular proliferation and neovascularization. The current study, using electron microscopy, was designed to determine the cellular processes involved in the breakdown of Bruch's membrane in this model. Bruch's membrane was not mechanically damaged by the injection and appeared intact for the first 1 to 2 days after injection.

Experimental changes resembling the pathology of drusen in Bruch's membrane in the rabbit.

Drusen-like changes in Bruch's membrane following subretinal injection of vitreous in the rabbit were studied by electron microscopy. A sequence of changes is seen that closely panellels those observed during drusen formation in primates. The initial event is the budding of retinal pigment epithelial (RPE) cells into Bruch's membrane; the buds, which contain cytoplasm and plasma membrane, are connected to the cytoplasm of the parent RPE cell.

Cellular proliferation induced by subretinal injection of vitreous in the rabbit.

A new experimental model of subretinal cellular proliferation, based on injection of autologous vitreous into the subretinal space of rabbits, was studied by light and electron microscopy. As early as five days after injection, proliferation of retinal pigment epithelial (RPE) and retinal glial cells was observed in the subretinal space. These morphologically distinct proliferating cells were sometimes joined by junctional complexes.

Differential effects of soluble and immobilized fibronectins on aortic endothelial cell proliferation and attachment.

We studied the effects of soluble and immobilized forms of plasma fibronectin on bovine aortic endothelial cell (AEC) proliferation and attachment. Soluble fibronectin stimulated AEC growth at 10 micrograms/ml, but at higher concentrations of soluble fibronectin AEC growth was progressively inhibited. The growth rates of arterial smooth muscle cells (ASMC) and dermal fibroblasts (DF) were not altered by soluble fibronectin concentrations of 10 to 100 micrograms/ml.

Increased adherence of oxidant-treated human and bovine erythrocytes to cultured endothelial cells.

Bovine erythrocytes, which normally lack phosphatidyl choline in their membranes, when treated with either H2O2 or diamide (1-3 mM), showed a partial appearance of phosphatidyl ethanolamine (PE 40%) and phosphatidyl serine (PS, 30-33%) in the external leaflet of the bilayer and a concomitant increased (four- to five-fold) propensity to adhere to cultured bovine aortic endothelial cells. Similar treatment of normal human erythrocytes caused an alteration in the organization of the phospholipid bilayer and also resulted in their increased adherence to endothelial cells derived either from human umbilical vein or bovine aorta. Treatment of RBCs with H2O2 at low concentration (0.

Morphologic observations on experimental subretinal neovascularization in the monkey.

Subretinal neovascularization is a poorly understood and potentially disastrous feature of many eye diseases. We used light and electron microscopy to study the sequence of events that lead to the formation of new vessels after laser photocoagulation of the retina and choroid of primates. In this animal model there is a rapid development of new blood vessels; one day after photocoagulation, endothelial cell degeneration and thrombus formation were observed in the capillaries, venules and arterioles of the choroid around the center of the lesion.