Isolation and characterization of allergen-binding cells from normal and allergic donors

BACKGROUND

Flow cytometry of the immune system so far has been limited to the analysis of subpopulations according to lineage markers. The cells involved in a particular immune response could not be assayed due to their low frequency. Here we show the potential of antigen-specific high gradient magnetic cell sorting to enrich cells for visualisation in multiparameter cytometry, functional studies and immortalization.

OBJECTIVES

The aim of this study was the development of an efficient technology for staining and isolation of antigen-binding cells from human peripheral blood. In particular, allergen-specific cells from normal and allergic donors should be analysed and compared to develop a cellular diagnosis of allergy.

STUDY DESIGN

The rare antigen-specific cells were sorted by high-gradient magnetic cell sorting with MACS. Haptenized phospholipase A2 (PLA2), the major allergen of bee venom, or haptenized ParoI, the major allergenic component of Parietaria officinalis, were used as antigens. The cells from normal and allergic donors, binding to the allergen were characterized phenotypically by immuno-fluorescence. Allergen-specific B-cells were immortalized by EBV transformation.

RESULTS AND CONCLUSION

Allergen-specific cells can be enriched from blood of both allergic and normal donors to purities of up to 75%, by high gradient magnetic cell sorting. The specificity of labelling with allergen was confirmed by establishing allergen-specific EBV-transformed B-cell lines from the sorted cells. Clear differences exist in the cellular composition of allergen-binding cells from normal compared to allergic donors. In normal donors the allergen-binding cells are B-cells expressing CD19 and CD21. In allergic donors, in addition to allergen-binding B-cells, occurring in about equal absolute numbers as in normal donors, basophilic granulocytes are labeled by allergen. These cells express CD38, CD9 and CD25 on their surface, and stain for IgE.

Altered immunohistochemical expression of small proteoglycans in the tumor tissue and stroma of basal cell carcinoma

Small proteoglycans have been shown to act as receptors for matrix molecules or growth factors and to influence the attachment and the migration of cells. We therefore report here on the immunocytochemical expression of three small proteoglycans, i.e., decorin, biglycan, and the recently described PG-100, in normal human skin and in basal cell carcinoma. In normal human skin, staining for decorin revealed expression throughout the dermis with an increased signal in the papillary dermis, whereas no expression was observed in the epidermis. Biglycan and PG-100 were mainly detected in the epidermis, with biglycan being expressed only in suprabasal layers. In addition, biglycan could be detected in a narrow zone below the basement membrane. In tissue specimens obtained from 12 basal cell carcinomas, the expression of biglycan and PG-100 was absent or strongly down-regulated in the tumor tissue. Tumor cells thus displayed a staining pattern similar to that found on the basal cells of normal human skin. In the stroma surrounding the tumor, however, the expression of biglycan and to a lesser degree decorin was increased when compared with normal human dermis. The increased deposition appears to be due to an increased synthesis of these molecules, as total RNA extracted from basal cell carcinoma tissue revealed an induction of biglycan and decorin mRNA. This study indicates that the expression of proteoglycans in basal cell carcinoma tumor cells and in tumor stroma is altered from that in normal skin.

Expression of type VI collagen mRNA during wound healing

During the highly regulated process of wound healing the expression of the interstitial collagens I and III is increased in a time-dependent fashion. Although ultrastructural and in vitro studies suggest a physiologic role of collagen VI in the organization of extracellular matrix deposition, nothing is known about its role in wound healing. Therefore, we studied collagen VI gene expression during wound healing in humans compared to that of collagens I and III. The presence of specific alpha 1(VI) and alpha 3(VI) mRNA species in scar tissue was demonstrated by Northern blot analysis. Quantification of mRNA expression by dot blot analysis and in situ hybridization indicated that like for the interstitial collagens I and III collagen VI gene expression was increased during wound healing, reaching its maximum 2 weeks after initial insult. In the late phase of wound healing like alpha 1(I) the alpha 1(VI) gene expression was not down regulated significantly. In contrast, a reduction of alpha 3(VI) collagen gene expression was observed, as was for the alpha 1(III) collagen gene, indicating a non-coordinate regulation of these chains. Collagen VI gene expression could be localized to fibroblast-like cells and to endothelial cells of newly formed vessels. Collagen VI gene expression was undetectable in smooth muscle cells and myoepithelial cells of eccrine glands. These results indicate that collagen VI gene expression is regulated in a time-dependent fashion and that fibroblasts and endothelial cells appear to play an important role in collagen VI synthesis during wound healing.

Control of fibrosis in systemic scleroderma

Scleroderma is characterized by an excessive deposition of collagen in all involved organs. This is due to an overproduction of extracellular matrix (ECM) molecules following induction of gene expression, whereas there is no evidence that the composition of the connective tissue matrix is altered. Several in vivo studies and in vitro experiments suggest that a close interaction between inflammatory cells and fibroblasts is required for the initial activation of fibroblasts. TGF-beta presumably plays an important role, but other cytokines, e.g., PDGF or FGF, may also be involved. Many of the ECM molecules have been shown to interact closely with fibroblasts and provide signals that regulate fibroblast metabolism. The cellular response towards those signals is a further aspect of fibrosis that has attracted attention during recent years. The altered expression of receptor proteins on the cell surface of scleroderma fibroblasts for example might explain in part the lack of down-regulation of collagen synthesis in late phases of the disease. This review summarizes the alterations of connective tissue in scleroderma, and discusses the role of cytokines as well as the ECM for the regulation of fibroblast function and their implication for the development of fibrosis.

Autocrine growth limitation of human papillomavirus type 16-harboring keratinocytes by constitutively released tumor necrosis factor-alpha

TNF-alpha is known to exert antitumor and antiviral effects and to participate in the regulation of the immune response. In our study we demonstrate that human rTNF-alpha specifically blocks growth of SK-v keratinocyte cell line harboring and expressing human papillomavirus type 16 (HPV16) sequences. This inhibitory effect was shown by [3H]TdR incorporation and cell counting. Binding experiments with 125I-TNF-alpha showed that SK-v cells express about 10,000 single class TNF-alpha R per cell with affinity constant of about 0.7 nM. Binding of 125I-TNF-alpha could be inhibited by htr-9 mAb recognizing a 55/60-kDa type I TNF-alpha R but not by utr-1 mAb recognizing 75/80-kDa type II TNF-alpha R or irrelevant mAb specific for HPV16E7 protein. Addition of anti-TNF-alpha antibodies to SK-v cell culture resulted in significant (p < 0.05), dose-dependent stimulation of their proliferation. SK-v cells constitutively expressed TNF-alpha mRNA, and SK-v CM contained TNF-alpha, as demonstrated by Northern blot analysis, a specific ELISA, Western blot analysis, and a bioassay with TNF-alpha-sensitive L-M cells. HPLC gel filtration of SK-v cell CM showed that the factor cytotoxic for L-M cells coeluted with immunoreactive TNF-alpha. These results demonstrate that HPV16-harboring SK-v cells constitutively express and release immunoreactive and biologically active TNF-alpha that in turn may exert an autocrine growth inhibitory effect. This phenomenon could represent one of the self-limiting mechanisms controling growth of HPV-induced neoplasia.

Autocrine growth limitation of human papillomavirus type 16-harboring keratinocytes by constitutively released tumor necrosis factor-alpha

TNF-alpha is known to exert antitumor and antiviral effects and to participate in the regulation of the immune response. In our study we demonstrate that human rTNF-alpha specifically blocks growth of SK-v keratinocyte cell line harboring and expressing human papillomavirus type 16 (HPV16) sequences. This inhibitory effect was shown by [3H]TdR incorporation and cell counting. Binding experiments with 125I-TNF-alpha showed that SK-v cells express about 10,000 single class TNF-alpha R per cell with affinity constant of about 0.7 nM. Binding of 125I-TNF-alpha could be inhibited by htr-9 mAb recognizing a 55/60-kDa type I TNF-alpha R but not by utr-1 mAb recognizing 75/80-kDa type II TNF-alpha R or irrelevant mAb specific for HPV16E7 protein. Addition of anti-TNF-alpha antibodies to SK-v cell culture resulted in significant (p < 0.05), dose-dependent stimulation of their proliferation. SK-v cells constitutively expressed TNF-alpha mRNA, and SK-v CM contained TNF-alpha, as demonstrated by Northern blot analysis, a specific ELISA, Western blot analysis, and a bioassay with TNF-alpha-sensitive L-M cells. HPLC gel filtration of SK-v cell CM showed that the factor cytotoxic for L-M cells coeluted with immunoreactive TNF-alpha. These results demonstrate that HPV16-harboring SK-v cells constitutively express and release immunoreactive and biologically active TNF-alpha that in turn may exert an autocrine growth inhibitory effect. This phenomenon could represent one of the self-limiting mechanisms controling growth of HPV-induced neoplasia.

Excessive collagen formation in fibrolamellar carcinoma of the liver: a morphological and biochemical study

We have studied the excessive deposition of extracellular matrix in a patient with fibrolamellar carcinoma of the liver. The collagen matrix was predominantly composed of collagens I, III, and V. Since specific mRNAs for collagens I and III were detected by in situ hybridization, we also provide evidence that the fibroblastoid stromal cells were the major source of this collagen. Occasionally, also tumor cells could be shown to express collagen III-mRNA. Furthermore, some tumor cells showed positive signals for TGF-beta 1, while isolated stromal cells expressed interleukin-6. This cytokine expression may probably be related to the altered control of collagen gene expression.

Treatment of systemic sclerosis with gamma-interferon

Numerous drugs have been recommended for the treatment of systemic sclerosis, but without any significant effect on the fibrotic stage of this disorder. Because recombinant gamma-interferon (gamma-IFN) is a potent and selective inhibitor of fibroblast proliferation and collagen production by human dermal fibroblasts in vitro, we assessed the effects of gamma-IFN treatment on the skin and on pulmonary function in patients with systemic sclerosis. Fourteen patients entered the study, and nine completed the 12-month trial. Fifty micrograms/day of gamma-IFN was administered subcutaneously 3 days per week. At the end of the 12-month treatment period a significant improvement was observed in total skin score, and blood gas analysis showed a significant increase in Pa O2 during therapy with gamma-interferon. Other clinical parameters (dysphagia, Raynaud's phenomenon, cardiac involvement) were not altered significantly. No serious adverse effects were noted. These results suggest a beneficial effect of gamma-IFN on the cutaneous fibrotic abnormalities and on lung fibrosis in systemic sclerosis.

The effect of interferon-gamma on the invasiveness of HT-180 cells

It has been shown that tumour necrosis factor-alpha (TNF-alpha) induces the gene expression of collagenase and enhances the invasiveness of many cell types. However, we have previously demonstrated that interferon-gamma (IFN-gamma) induces the chemotactic response of cells and we have studied the in vitro effects of both cytokines on invasive migration using a human fibrosarcoma cell line (HT-1080). Invasive migration occurred with HT-1800 cells through a basement membrane equivalent (matrigel) and collagen type I gel. Pre-incubation of cells with increasing concentrations of IFN-gamma resulted in a dose-dependent reduction of this invasive migration. TNF-alpha considerably enhanced the invasiveness of HT-1080 cells and of fibroblasts. This effect could be significantly diminished by the pre-incubation of cells with IFN-gamma. Inhibition of invasiveness did not appear to be due to an altered binding to the barriers or altered collagenolytic activity of these cells, as shown by attachment and collagenase assays. These data support the concept that IFN-gamma can reduce the invasiveness of transformed cells which contributes to its in vivo anti-neoplastic effect.

Interleukin-6 expression by fibroblasts grown in three-dimensional gel cultures

We investigated the expression and biological activity of interleukin-6 (IL-6) by human fibroblasts cultured as monolayers and within three-dimensional type I collagen lattices. In the course of contracting the gel to a dense tissue-like structure, the cells upregulated their levels of IL-6 mRNA as well as IL-6 biological activity. While there was little mRNA and protein activity (6,500 U/ml) in monolayer cultures, fibroblasts in the 3D system showed a 13-fold increase in IL-6 mRNA on day 3. IL-6 protein was increased 6-fold (38,000 U/ml) on day 4. Stimulation of fibroblast cultures with IL-1 alpha resulted in enhanced IL-6 production in both systems, but the fibroblasts embedded into the 3D network continued to exhibit higher levels.

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

A characteristic feature of systemic scleroderma is fibrosis of the skin and eventually of internal organs resulting from an overproduction of collagen and other connective tissue components by the resident fibroblasts. The balance between the cells and the amount of the surrounding extracellular matrix is then altered. Because cellular metabolism depends to a large extent on cellular contacts and communications with connective tissue molecules, we have therefore investigated the interactions with extracellular matrix components of fibroblasts obtained from skin of patients affected with scleroderma. In comparison to fibroblasts from healthy skin, all fibroblasts from scleroderma patients had an increased adhesion capacity to collagens I, IV, VI, fibronectin, and laminin. In addition, whereas adhesion of control fibroblasts was stimulated by a pre-treatment with transforming growth factor-beta, adhesion patterns of scleroderma fibroblasts remained unchanged. However, pre-incubation of the cells with interferon-gamma decreased the adhesion of both scleroderma and control fibroblasts.

TGF beta-1 and TNF alpha expression in the epidermis of patients with epidermodysplasia verruciformis

In epidermodysplasia verruciformis (EV), the infection with specific human papillomaviruses (HPV) might be under control of the local immunosurveillance mechanisms related to cytokines produced by epidermal cells. We have investigated by in situ hybridization the expression of mRNA coding for TGF beta-1 and TNF alpha in the skin of patients with EV (n = 4) as compared to the skin lesions of patients with other premalignant (actinic keratosis; n = 5) or malignant (squamous cell carcinoma; n = 4) skin lesions, and to the skin of healthy individuals (n = 5). The expression of TGF beta-1 and TNF alpha mRNA was higher in the epidermis of EV patients as compared to the control skin from healthy individuals. The increased expression of mRNA for both cytokines was confirmed by northern blot analysis of RNA isolated from the skin lesions of the patient with EV. No specific signals for TGF beta-1 and TNF alpha were detected in actinic keratosis, and in cases of squamous cell carcinomas only single neoplastic cells were positive for TGF beta-1. It is conceivable that in EV TGF beta-1 and TNF alpha can be involved in the regulation of the growth and differentiation of HPV-infected keratinocytes and in the persistence of HPV-induced skin lesions.

Expression of intercellular adhesion molecule-1 (ICAM-1) in the skin of patients with systemic scleroderma

The expression and tissue distribution of intercellular adhesion molecule-1 (ICAM-1) in skin biopsies from 12 patients with systemic (SSc) and localized (LS) scleroderma was studied and compared to the biopsies from patients with lupus erythematosus (LE) and normal individuals. In normal human skin ICAM-1 expression was restricted to the vascular endothelium, infiltrating mononuclear cells (MNC), and to few individual keratinocytes. In the inflammatory stage of SSc, however, the expression of ICAM-1 was dramatically increased at the site of MNC infiltrates and could also be detected on fibroblast-like cells lying well apart from these infiltrates in the deep dermis. In contrast, in LS ICAM-1 was expressed mainly at the sites of MNC infiltrates. In LE ICAM-1 expression was confined to the keratinocytes, endothelial cells, and mononuclear cells in the upper parts of the dermis. Analysis of serial tissue sections from patients with SSc demonstrated also colocalization of staining of ICAM-1 around blood vessels with LFA-1-positive lymphocytes. Increased expression of ICAM-1 in the dermis of patients with SSc may represent an important mechanism by which MNC become localized and retained at a site of connective tissue inflammation, leading to the activation of fibroblasts.

Cytokines alter mRNA steady state levels for basement membrane proteins in human skin fibroblasts

Keratinocytes and fibroblasts synthesize basement membrane proteins and even contribute to the formation of basement membrane structures following injury or tissue damage. Under these conditions many cellular functions are regulated by mediators e.g. transforming growth factor-beta, tumor necrosis factor alpha, interferon-gamma or interleukin-1 alpha. We therefore describe here their influence on synthesis of basement membrane proteins in human skin fibroblasts. A comparative analysis of mRNA steady levels coding for BM-40, nidogen, laminin B1 and B2 chains and collagen IV in fibroblasts, in primary human keratinocytes and a epidermal cell line grown in monolayer culture demonstrated that the highest amounts were present in human fibroblasts. Interferon-gamma reduces all mRNA steady state levels dose dependently in comparison to the control, while transforming growth factor-beta simultaneously induces BM-40, alpha 1 and alpha 2 (IV) collagen mRNAs. TGF-beta, however, has no effect on nidogen and laminin mRNA levels. Interleukin-1 alpha and tumor necrosis factor alpha do not affect the mRNA levels of most basement membrane proteins. However, the alpha 1 (IV) collagen mRNA is upregulated by both cytokines to 300%. These data demonstrate a specific control of the expression of several basement membrane proteins by cytokines and indicate that fibroblasts could contribute to basement membrane formation during wound healing and tissue repair.

Movement adaptation in the peripheral retina

With strict fixation, the eye quickly adapts to moving periodic stimuli presented to the peripheral retina. A slowly spinning sector disk, 7 degrees in diameter, will rapidly appear to slow down and come to a standstill (within 5-25 sec). The time required for this full motion adaptation decreases with (a) increasing retinal eccentricity (30-70 degrees); (b) increasing number of sectors (16-60); and (c) decreasing speed of rotation (0.3-0.5 rev/sec). After the standstill, the disk fades from view in much the same way as a stationary stimulus (Troxler effect). A spinning disk presented to the temporal retina appears to stop about 2.5 times faster than a disk presented to the nasal side. Adapting one eye reduces the time of adaptation for the other eye by 70%. If an aperiodic sector disk is used, no standstill is perceived.