Increased adhesion of fibroblasts from patients with scleroderma to extracellular matrix components: in vitro modulation by IFN-gamma but not by TGF-beta

A modest proposal: targeting αv integrin-mediated activation of latent TGFbeta as a novel therapeutic approach to treat scleroderma fibrosis

INTRODUCTION

The potent profibrotic cytokine transforming growth factor-β (TGF-β) has been associated with the onset and progression of the fibrosis seen in the autoimmune connective tissue disease scleroderma (systemic sclerosis, SSc).

AREA COVERED

This review explores the data supporting the notion that TGF-β contributes to SSc fibrosis and examines why initiating clinical trials in SSc aimed at targeting integrin-mediated latent TGF-β activation is timely.

EXPERT OPINION

Targeting TGF-β directly has not been proven to be clinically effective in this disease. Conversely, targeting matrix stiffness, which perpetuates fibrosis, may have more promise. Intriguingly, targeting integrin-mediated activation of latent TGF-β, which bridges these concepts, may have therapeutic value.

Integrin signaling in fibrosis and scleroderma

Integrins are a large family of heterodimeric transmembrane receptors for extracellular matrix proteins. As well as mediating cell attachment and the bulk of force transduction from the cytoskeleton, they convey signals from the extracellular matrix to the cell. alpha1beta1 and alpha2beta1 are the major collagen receptors in this family. a1beta1 provides negative feedback on collagen synthesis, whereas alpha2beta1 stimulates the synthesis of matrix metalloproteases. Each receptor modulates the signaling activity of the other to coordinate matrix synthesis and remodeling. Expression of both is reduced in scleroderma despite a paracrine environment which would be expected to upregulate them. Deficiencies in the integrins correlate with upregulated collagen synthesis and downregulated metalloprotease synthesis seen during the disease.

Management of localized scleroderma

Localized scleroderma denotes a spectrum of conditions characterized by circumscribed fibrotic areas involving different levels of the dermis, subcutis, and sometimes underlying soft tissue and bone. Although the clinical course of the disease is often benign, widespread lesions and disabling joint contractures may lead to significant complications. The pathogenesis of the different types of localized scleroderma is still unknown. Numerous therapeutic agents have been reported to be effective in this disease spectrum, but controlled studies are rare. The purpose of this review is to summarize previous experience and to discuss recent advances in the management of localized scleroderma.

TGF beta--a role in systemic sclerosis?

Systemic sclerosis (SSc) is a multisystem connective tissue disorder in which there is progressive fibrosis. Transforming growth factor beta (TGF beta) has wide-ranging cellular actions. It is a potent chemoattractant for human dermal fibroblasts, from which it may induce synthesis of collagen, which suggests that it may have a central role to play in the pathogenesis of SSc. This is supported to some extent by in vitro studies. SSc fibroblasts produce more collagens and fibronectin than normal fibroblasts and elevated TIMP levels have been observed, all of which could be explained on the basis of TGF beta stimulation of fibroblasts. Some studies have suggested that fibroblasts are the source of TGF beta. However, the serum of patients with SSc is cytotoxic to endothelial cells, which could culminate in TGF beta synthesis by them, with secondary fibroblast stimulation. The role of TGF beta remains elusive, although it would seem an ideal candidate as a mediator of fibrosis in systemic sclerosis.

Cell behavior and cell-matrix interactions of human palmar aponeurotic cells in vitro

The present investigation has been performed to better characterize, in vitro, normal aponeurotic cells in comparison with dermal fibroblasts and with cells derived from Dupuytren's affected aponeuroses. Cells were cultured in monolayer and/or into three-dimensional collagen gels. Cell structure, adhesion, and spreading capability on different substrates, as well as integrin expression were investigated by light and electron microscopy and by flow cytometry. Cell-matrix interactions were also analyzed by gel retraction experiments in the presence, or absence, of RGD peptides and anti-integrin antibodies. Normal aponeurotic cells, compared with dermal fibroblasts, exhibited in vitro peculiar structural features, which were substantially maintained in Dupuytren's aponeurotic cells, irrespective of the substrate they were grown on. By contrast, the aponeurotic cell behavior was different in normal and diseased cells, these latter approaching that of dermal fibroblasts. Normal aponeurotic cells, in fact, were characterized by low efficiency in retracting the collagen gel, low alpha 2, alpha 1, and alpha 5 integrin subunit expression and low adhesion properties onto collagen and fibronectin, whereas cells isolated from the aponeuroses of Dupuytren's patients exhibited higher capability of retracting the collagen gel, increased adhesion properties toward collagen and fibronectin, and higher levels of integrin expression. No differences were observed between dermal fibroblasts from Dupuytren's patients or from normal subjects. These in vitro results are consistent with those previously obtained in situ, suggesting that palmar aponeurotic cells have a peculiar phenotype and that changes in cell-matrix interactions occur in Dupuytren's contracture. Moreover, by comparing data obtained from the retracted fibrotic cords and the still clinically unaffected aponeuroses of the same patients, it may be noted that Dupuytren's disease is not only confined to the clinically involved branches, but includes the whole aponeurosis of the affected hand.

Double-blind, placebo-controlled study of intralesional interferon gamma for the treatment of localized scleroderma

BACKGROUND

Localized scleroderma is characterized by circumscribed fibrotic plaques and may progress to widespread skin involvement and fibrosis. Interferon gamma (IFN-gamma) has been shown to be a potent inhibitor of collagen synthesis and of the migration and proliferation of dermal fibroblasts.

OBJECTIVE

Our purpose was to determine whether IFN-gamma is effective in the treatment of localized scleroderma.

METHODS

A double-blind, randomized, placebo-controlled, multicenter study was conducted. Twenty-four patients with progressive lesions received 100 micrograms of IFN-gamma or placebo subcutaneously on 5 consecutive days for 2 weeks followed by 100 micrograms of IFN-gamma or placebo once weekly for 4 weeks. Thereafter patients were observed for 18 weeks. To determine whether improvement could be related to an altered level of collagen messenger RNA (mRNA), biopsy specimens were taken from uninvolved and involved skin before and after therapy.

RESULTS

The patients treated with IFN-gamma or placebo showed no significant difference in size or fibrosis of lesions or collagen type I mRNA synthesis. However, a reduction in the number of new lesions was observed in the IFN-gamma-treated group. The biopsy specimens obtained from involved skin showed a moderate increase of type I collagen and a significant decrease in the small proteoglycan decorin mRNA levels.

CONCLUSIONS

The results indicate that IFN-gamma is ineffective in the treatment of localized scleroderma, but may inhibit the development of new lesions.

Pathogenesis of scleroderma. Collagen

It is now evident that persistent overproduction of collagen and other connective tissue macromolecules results in excessive tissue deposition, and is responsible for the progressive nature of fibrosis in SSc. Up-regulation of collagen gene expression in SSc fibroblasts appears to be a critical event in the development of tissue fibrosis. The coordinate transcriptional activation of a number of extracellular matrix genes suggests a fundamental alteration in the regulatory control of gene expression in SSc fibroblasts. Trans-acting nuclear factors that bind to cis-acting elements in enhancer and promoter regions of the genes modulate the basal and inducible transcriptional activity of the collagen genes. The identity of the nuclear transcriptional factors that regulate normal collagen gene expression remains to be firmly established, and to date, no alterations in the level or in the activity of such DNA binding factors has been demonstrated in SSc fibroblasts. In addition to important interactions between fibroblasts and the extracellular matrix, cytokines and other cellular mediators can positively and negatively influence fibroblast collagen synthesis. Some of these signaling molecules may have physiologic roles, and their aberrant expression, or altered responsiveness of SSc fibroblasts to them, may result in the acquisition of the activated phenotype. The rapid expansion of knowledge regarding the effects of cytokines on extracellular matrix synthesis has led to an appreciation of the enormous complexity of regulatory networks that operate in the physiologic maintenance of connective tissue and which may be responsible for the occurrence of pathologic fibrosis. The ubiquitous growth factor TGF beta is the most potent inducer of collagen gene expression and connective tissue accumulation yet discovered. The expression of TGF beta in activated infiltrating mononuclear cells suggests a role for this cytokine as a mediator of fibroblast activation in SSc. Furthermore, the recognition that TGF beta is capable of inducing its own expression in a variety of cell types, coupled with the demonstration that a subpopulation of SSc dermal fibroblasts produces TGF beta, indicates the existence of a possible autocrine loop whereby lymphocyte-derived TGF beta in early SSc not only signals biosynthetic activation of fibroblasts in a paracrine manner, but autoinduces endogenous TGF beta production by the target fibroblasts themselves. Such an autocrine loop involving TGF beta may explain the persistent activation of collagen gene expression in SSc fibroblasts, and could be responsible for the progressive nature of fibrosis in SSc. Numerous other cytokines, as well as cell-matrix interactions, also modify collagen gene expression and can significantly influence the effects of TGF beta. Although their physiologic function in tissue remodeling or their involvement in abnormal fibrogenesis has not yet been conclusively demonstrated, the study of the biologic effects of these cytokines may provide important clues to understanding the pathogenesis of SSc, and to the development of rational drug therapy aimed at interrupting the abnormal fibrogenic process in this disease.

Attachment of intrinsically and extrinsically aged fibroblasts on collagen and fibronectin

In the present study we compare human dermal fibroblasts from donors of different age and from sites differing in sun exposure for their capacity to adhere to collagen or fibronectin. Attachment of cells was not dependent on the collagen concentration but was clearly dependent on the fibronectin concentration used for the coating of the plastic surfaces. Attachment of fibroblasts to collagen and fibronectin is dominated by specific integrin binding: only few cells were able to attach to collagen after inhibition with an anti-VLA 2 antibody, or to attach to fibronectin after inhibition with an anti-VLA 5 antibody. On unexposed sites, cells from old donors showed a significantly increased adhesion capacity on collagen (plus 50.7%) and on fibronectin (plus 62.4%) and an increased staining pattern of VLA 2 and VLA 5 integrins in immunohistochemistry in comparison with young donors. In contrast fibroblasts of chronically sun-exposed skin had a significantly decreased adhesion capacity both on collagen (minus 55.3%) and on fibronectin (minus 46.5%) and a poor staining pattern of the above integrins in comparison with cells from solely aged skin (unexposed sites of old donors). Adhesion of all cells could be inhibited by specific integrin antibodies showing that the employed antibodies were able to detect the epitopes responsible for attachment. Intrinsic and extrinsic aging are able to alter cellular properties of mesenchymal cells, such as adhesion to physiologically relevant macromolecules of the extracellular matrix.

Regulation of connective tissue synthesis in systemic sclerosis

Excessive connective tissue deposition in the skin and other organs is the pathologic hallmark of systemic sclerosis (SSc), and fibrosis accounts for much of the chronic morbidity of this disease. Unregulated production of collagen in SSc skin fibroblasts has been demonstrated both in vivo and in vitro, and is considered to be a critical process in the development of fibrosis. In addition to collagen, other components of the extracellular matrix are also overexpressed in SSc fibroblasts, and may be important in the functional alterations of connective tissue. The transcriptional activity of several genes coding for matrix macromolecules is upregulated in SSc fibroblasts. The pleiotropic signaling molecule transforming growth factor-beta (TGF beta) is likely to be intimately involved in initiating and perhaps perpetuating the fibrotic response in SSc. TGF beta, a potent profibrotic cytokine, is highly expressed in endothelial cells, in fibroblasts near blood vessels, and in perivascular inflammatory cells in involved tissues in SSc. The apparent failure of SSc fibroblasts to down-regulate their collagen synthesis when cultured in a three-dimensional matrix suggest an additional mechanism for the maintenance of unregulated collagen production in these cells. Finally, subpopulations of fibroblasts with an activated biosynthetic phenotype may become dominant in SSc. Therefore, persistent elevation of extracellular matrix gene expression in SSc tissues may be the result of a series of events representing the interaction of genetic and hormonal factors. A precise delineation of the mechanisms of fibroblast activation is needed for understanding the pathogenesis of SSc, and for the rational design of therapeutic interventions aimed at interfering with the fibrotic process.

Expression and shedding of intercellular adhesion molecule 1 and lymphocyte function-associated antigen 3 by normal and scleroderma fibroblasts. Effects of interferon-gamma, tumor necrosis factor alpha, and estrogen

OBJECTIVE

To examine intercellular adhesion molecule 1 (ICAM-1) and lymphocyte function-associated antigen 3 (LFA-3) in cultures of normal and systemic sclerosis (SSc) dermal fibroblasts.

METHODS

The surface and soluble forms of ICAM-1 and LFA-3 were measured by flow cytometry and capture enzyme-linked immunosorbent assay, respectively.

RESULTS

Surface ICAM-1 was significantly higher on SSc fibroblasts compared with normal controls. Beta-estradiol did not directly enhance ICAM-1 or LFA-3 expression in either normal or SSc cells, but significantly augmented the cytokine-induced increase in ICAM-1. Soluble ICAM-1 (sICAM-1) and sLFA-3 were detected in fibroblast cultures. While no difference was found in the level of sLFA-3, the shedding of sICAM-1 was significantly increased (P < 0.001) in cells from SSc patients.

CONCLUSION

SSc fibroblasts express intrinsically elevated levels of surface ICAM-1 and release higher levels of sICAM-1 in vitro. Increased expression of ICAM-1 by interferon-gamma and tumor necrosis factor alpha alone, and the further induction in combination with beta-estradiol may underlie an aspect of fibroblast dysfunction in SSc and the female predisposition to the disease.

Leukocyte-extracellular matrix interactions in psoriasis

BACKGROUND

The basic phenomenon in psoriasis appears to be a directed leukocyte migration that in a great part, depends on the cell-extracellular matrix (ECM) interactions.

METHODS

To evaluate the leukocyte-ECM interactions in psoriasis, we investigated the adherence of peripheral blood mononuclear cells (PBMC) and polymorphonuclear leukocytes (PMNL) to ECM components (collagen type I, IV, laminin, and fibronectin), using crystal violet staining and measuring absorbance at 570 nm.

RESULTS

In the most active cases of psoriasis (pin-point and guttate type) of short duration, we found a decreased adherence of PBMC to collagen type IV. In a majority of cases of actively spreading plaque psoriasis of large extent and longer duration, there was decreased adherence to all ECM components, especially to collagen type IV and laminin. The adhesion of PMNL to collagen type IV (but not to other ECM components) was increased only in cases of short duration. Preliminary data suggest that etretinate treatment may modulate leukocyte adherence to the ECM components in patients with psoriasis.

CONCLUSIONS

The decreased in vitro adherence of PBMC to ECM components, especially those of the basement membrane, may reflect their in vivo activation and migration to the epidermis, which is a basic phenomenon in psoriasis that could be affected by etretinate therapy.

Systemic sclerosis

Systemic sclerosis affects the connective tissue of various organs. It is characterized by alteration of the microvasculature with a dense inflammatory cellular infiltrate, followed by massive deposition of collagen. This review discusses diagnostic criteria, clinical subsets, survival data, clinical evaluation, epidemiology, pathogenesis, immunobiology, genetics, and therapy for systemic sclerosis in adults. Because the diagnosis of systemic sclerosis is most dependent on its cutaneous involvement, knowledge of this is essential in the evaluation and management of patients with this disorder.