Predominance of "memory" T cells (CD4+, CDw29+) over "naive" T cells (CD4+, CD45R+) in both normal and diseased human skin

Immunohistochemical analysis of late local skin reactions during rush venom immunotherapy

During rush venom immunotherapy (VIT), about 65% of patients develop large local reactions (LLR) at the application site that last for at least 24 h. However, LLR subside during long-term treatment. To learn more about the provenance of infiltrating cells in late, local skin reactions during VIT, we analyzed the skin infiltrates of 23 Hymenoptera venom (HV)-allergic patients. Punch biopsies were obtained 24 h after s.c. injection of HV allergens from 23 HV-allergic patients and five nonallergic controls. Seven patients did not show LLR at the beginning of VIT. Ten patients had LLR when the dose of HV allergens was increased. Six patients showed reduced LLR after long-term treatment. Immunoenzymatic labeling of the cryostal sections with a panel of monoclonal antibodies was performed by the APAAP method. S.c. application of HV allergens induced a perivascular and periadnexial cutaneous mononuclear cell infiltrate consisting mainly of CD4+, CD45RO+; and HLA-DR+ cells in patients without clinically apparent LLR. In contrast, LLR were associated with a significant increase in total cells, CD4+ cells, CD8+ cells, CD11c+ cells, EG2+ cells, NP57+ cells, HLA-DR+ cells, CD45RO+ cells, CD45RA+ cells, CD23+ cells and CD25+ cells (P < 0.001). Decreased LLR after long-term VIT was correlated with a significantly reduced recruitment of CD4+ cells, EG2+ cells, and CD23+ cells as compared to LLR in the course of dose increases (P < 0.05), whereas the number of CD8+ cells, CD11c+ cells, NP57+ cells, and CD25+ cells remained high. Our data suggest that s.c. injections of HV allergens attract CD4+ helper T cells, of both the naive (CD45RA+) and memory (CD45RO+) phenotypes, to the allergen application site. LLR represent delayed allergic rather than toxic reactions to HV components and might be relevant to the development of clinical protection during VIT.

Immunophenotyping of skin-infiltrating T-cell subsets in dogs with atopic dermatitis

Atopic dermatitis in dogs has many clinical features that are identical to those of the same disorder in man. To investigate the pathogenesis of this disease in dogs and the possibility of similarities to the pathogenesis in humans we compared the presence and ratio of CD4+ and CD8+ T-cells in the cutaneous infiltrate of lesional and non-lesional skin of atopic dogs with that in the skin of healthy dogs. In ten dogs with atopic dermatitis and ten healthy dogs the skin was biopsied at the predilection sites for atopic dermatitis and histological sections were immunohistochemically stained for CD4 and CD8. The staining showed an increase in CD4+ and CD8+ T-cells in canine lesional atopic skin, with a predominance of CD4+ T-cells in the epidermis. In non-lesional atopic skin there was also an infiltration with CD4+ and CD8+ T-cells, but without predominance of CD4+ T-cells. The results in the separate predilection sites did not differ substantially from the mean results. These observations indicate further similarities in the immunopathogenesis of atopic dermatitis in dogs and humans, which may have consequences for the control of atopic dermatitis in dogs and contributes to a possible role of the dog as a model for human atopic dermatitis.

The chemotactic activity of T-lymphocytes in response to interleukin 8 is significantly decreased in patients with psoriasis and atopic dermatitis

Involvement of T-lymphocytes in the pathogenesis of psoriasis and atopic dermatitis is well established. The question arises as to whether not only tissue infiltrating but also circulating T-lymphocytes are involved in the disease process. Therefore we sought to determine whether T-lymphocytes from patients with psoriasis and atopic dermatitis show abnormal biological behavior to the proinflammatory chemokine interleukin 8 (IL-8) in vitro as studied by their chemotactic activity. In addition, the expression of T-cell activation markers such as HLA-DR and interleukin 2 receptor (IL-2R) were analysed with FACS-technique. In all, 25 patients with psoriasis (13 patients with severe psoriasis and 12 patients with mild psoriasis) and 11 patients with atopic dermatitis were investigated. For comparison. T-lymphocytes from 14 healthy controls were tested equally. The results show that T-cell chemotactic responses to IL-8 were significantly decreased in patients with severe psoriasis as compared to healthy controls. T-cells from patients with atopic dermatitis demonstrated an even more pronounced decrease in chemotactic response as compared to T-cells from psoriasis patients or healthy controls. In contrast, increased expression of activation markers HLA-DR and IL-2R were demonstrated in circulating T-cells from patients with severe psoriasis and atopic dermatitis in comparison to healthy controls. It can be concluded that circulating T-cells in patients with severe psoriasis and atopic dermatitis show a decreased in vitro chemotactic response to IL-8. Furthermore, the in vivo phenotypic activation state of T-lymphocytes in these patients seemed to be associated with their decreased in vitro functional capacity.

TCR V beta gene expression in lesional T lymphocyte cell lines in oral lichen planus

To study V beta gene expression in oral lichen planus (OLP) lesional T lymphocytes cell lines.

MATERIALS AND METHODS

Lesional T lymphocytes were isolated from eight OLP patients and cell lines established. The total RNA was extracted from these lymphocyte cell lines and reverse transcribed. cDNA was amplified by the polymerase chain reaction (PCR) using a panel of 26 V beta-specific oligonucleotide primers followed by qualitative analysis of the electrophoresed reaction products.

RESULTS

V beta 1, 2, 3, 5.1, 6.1-3, 7, 8, 9, 22, 23, and 24 were represented consistently in all of the OLP samples, V beta 11, 12, and 17 were consistently negative, while the other V beta families (V beta 4, 5.2-3, 10, 13.1, 13.2, 14, 15, 16, 18, 19, 20, and 21) were variable. V beta 22 and 23 were the most strongly expressed in all patients.

CONCLUSIONS

A limited T cell receptor (TCR) gene usage indicates a degree of oligoclonality within these lesional T lymphocyte cell lines from OLP. This implies that OLP may be an antigen-specific disease or linked to a limited number of superantigens.

Cellular actions of etretinate in psoriasis: enhanced epidermal differentiation and reduced cell-mediated inflammation are unexpected outcomes

Retinoids are potent cell growth and differentiation modulators, but cellular effects of therapeutic retinoids in psoriasis are unknown. We studied the effects of etretinate on pathological activation of keratinocytes and lymphocytes in patients treated systemically with this agent for 8 weeks. Ten patients with extensive psoriasis vulgaris were treated with etretinate at 0.75 mg/kg for 8 weeks. Skin biopsies obtained before and at 8 weeks of treatment were studied using immunohistochemical markers for keratinocyte proliferation or differentiation and for the presence of T-lymphocyte subsets or associated inflammatory proteins. During 8 weeks of treatment, the clinical severity decreased by a mean of 64% (p < 0.001). Compared to a similar group of patients treated with bath PUVA, psoriatic plaque erythema resolved more slowly and less completely (p < 0.05), but improvements in plaque thickness and scale were not significantly different between etretinate and PUVA treatments. Etretinate produced a 44% decrease in epidermal thickness (p < 0.001) and a 62% reduction in keratinocyte proliferation (p < 0.001) after 8 weeks of treatment. Unexpectedly, keratinocyte differentiation was enhanced following etretinate treatment as indicated by increased filaggrin production, increased number and size of keratohyaline granules, greater abundance of keratin filaments, and increased secretion of intercellular lipids from Odland bodies. The stratum corneum in resolving psoriatic lesions was unusually thin, probably caused by retinoid-induced shedding of corneocytes. "Regenerative" epidermal growth was maintained during etretinate treatment, as marked by continued expression of keratin 16 and alpha 3-integrin by suprabasal keratinocytes. Surprisingly the inflammation-associated proteins HLA-DR and ICAM-1 were no longer produced by epidermal keratinocytes following etretinate treatment, and CD3+, CD8+, and CD25+ T-lymphocyte subsets were reduced by 50-65% in lesional tissue (p < 0.01). Etretinate shows unexpected anti-inflammatory and pro-differentiation actions in psoriasis. Etretinate appears to function as a disease suppressive agent which improves hyperplasia, keratinocyte differentiation and tissue inflammation mediated by cellular immune elements.

The interleukin-8 receptor B and CXC chemokines can mediate transendothelial migration of human skin homing T cells

We studied the involvement of chemokines that bind to G protein-coupled receptors in the migration of skin homing T cells across a bilayer vascular construct (BVC) consisting of a fibroblast matrix underneath an activated endothelial (EC) monolayer. Based on the expression of the cutaneous lymphocyte-associated antigen (CLA), a skin homing receptor, CD45R0+ T cells freshly isolated from blood or HUT-78 cutaneous T lymphoma cells were separated into CLA+ and CLA- subpopulations. These T cells were incubated on interleukin (IL)-1 beta and tumor necrosis factor-alpha-activated EC, and the number of transmigrated cells was determined. The chemokine IL-8 was selectively involved in the enhanced migration of CLA+ T cells across activated EC as demonstrated by blocking antibody to IL-8 but not to GRO-alpha, MCP-1 and RANTES. Identical results were obtained with both human umbilical vein EC (HUVEC) and microvascular skin EC (HDMEC). Pertussis toxin selectively inhibited the enhanced transendothelial migration (TEM) of CLA+ T cells, suggesting that CLA-dependent TEM depends on Gi protein-transmitted signals. Moreover, the IL-8 receptor B (IL-8RB) appeared to be functionally involved in TEM, as demonstrated by receptor desensitization with the CXC chemokines IL-8 and GRO-alpha and by blocking the IL-8RB with specific monoclonal antibodies. Although only the IL-8RB was involved in CLA-dependent TEM, mRNA encoding IL-8RA and IL-8RB was expressed by both CLA+ and CLA- T cells. This correlated with IL-8RA and IL-8RB surface expression on these cells. Thus, the IL-8RB is selectively functional in TEM of T cells expressing the skin homing receptor CLA. Our results demonstrate a critical role for IL-8 and possibly other IL-8RB ligands in addition to the IL-8RB in TEM and suggest the involvement of these molecules in the homing of specific T cells to inflamed skin.

Skin-homing T cells in human cutaneous allergic inflammation

The cutaneous lymphocyte-associated antigen (CLA) is a carbohydrate epitope present on memory/effector T cells that infiltrate inflamed skin. E-selectin is the ligand for CLA and is induced under inflammation on endothelial cells. CLA was originally postulated as a phenotype marker for skin-associated T cells. We studied the specific in vitro response to skin-associated allergens of CLA+ and CLA-CD45RO+ T cells in atopic dermatitis (AD) and contact dermatitis (CD), which represent two well-characterized T cell-mediated cutaneous allergic inflammations. Whereas CLA+ T cells from AD patients preferentially responded to house dust mite (HDM) and CLA+ T cells from nickel CD patients showed an increased response to nickel, CLA-T cells showed very little response in both cases. In contrast, tetanus toxoid, a systemically acting antigen, induced a proliferative response in both CLA+ and CLA- cells. Interestingly the response to HDM in patients with asthma +/- AD was preferentially found in the CLA- subset indicating the involvement of different homing receptors for mucosal tissues. Moreover, CLA+ T cells showed enhanced migration through activated human umbilical vein endothelial cell monolayers compared to CLA- T cells. The CLA binding to E-selectin is initially responsible for the extravasation that also involves VLA-4/VCAM-1 and LFA-1/ICAM-1 interactions. We have recently identified IL-8 as an endothelial cell-derived chemokine and the IL-8 receptor type B which control CLA+ T cell migration. Such a CLA-mediated migration would localize memory/effector T cells that respond to antigens and reach the body through inflamed skin. Our data support the existence of a regionalization of the immune system and in particular of the skin immune system. It may allow an efficient distribution of the immune defense to different sites of the body.

Successful ultraviolet B treatment of psoriasis is accompanied by a reversal of keratinocyte pathology and by selective depletion of intraepidermal T cells

Skin irradiation with ultraviolet B (UVB) is a common and often durable treatment for psoriasis and other inflammatory skin disorders. We studied the effects of UVB on keratinocytes and leukocytes in psoriatic tissue and in culture. In nine patients treated repetitively, most of the cellular and molecular changes that typify the psoriatic epidermis reverted to normal. Keratinocyte hyperplasia, assessed by expression of the Ki-67 cell cycle antigen, decreased by 70%, and residual cell proliferation was appropriately confined to the basal layer. Epidermal thickening was reduced by 60%, and a granular layer reformed. Expression of keratin 16, as well as suprabasal integrin alpha 3 and insulin-like growth factor-1 receptors, was eliminated, whereas filagrin increased markedly. UVB also depleted > 90% of the CD3+, CD8+, and CD25+ T cells from the psoriatic epidermis, whereas dermal T cells were only minimally depressed. The latter finding parallels the known inability of these doses of UVB to penetrate the dermis. In tissue culture, UVB was antiproliferative and cytotoxic toward T cells and keratinocytes, but the T cells were 10-fold more sensitive. Furthermore, low doses of UVB induced apoptosis in lymphocytes but not keratinocytes, as detected by the TUNEL (TdT-mediated dUTP-biotin nick end labeling) technique. The selective effects of UVB on intraepidermal T cells in situ and in culture support the hypothesis that epidermal alterations in psoriasis can be normalized by a depletion of activated intraepidermal T cells.

Short-contact anthralin treatment augments therapeutic efficacy of cyclosporine in psoriasis: a clinical and pathologic study

BACKGROUND

Psoriasis is characterized by immune activation and increased epidermal proliferation. Cyclosporine acts by reducing T lymphocyte numbers and lymphokine production. Anthralin inhibits keratinocyte proliferation.

OBJECTIVE

We investigated whether topical anthralin would augment clearing of psoriasis produced by systemic cyclosporine.

METHODS

Twelve patients with psoriasis were treated with cyclosporine (5 mg/kg per day). Patients applied anthralin only to plaques on half of their body. They were treated until a remission or maximum benefit was achieved. Disease activity was assessed by a severity index and quantitative histopathologic markers.

RESULTS

Of the 12 patients, the skin of five cleared within 10 weeks irrespective of anthralin use. The other seven (slow responders) continued treatment for a mean of 18 weeks. Slow responders had a significantly lower severity index, a thinner epidermis, fewer CD8+ cells, and fewer proliferating keratinocytes on the anthralin-treated side than on the non-anthralin-treated side.

CONCLUSION

The combination of cyclosporine and topical anthralin is effective in patients who are slow to respond to cyclosporine alone.

The central rôle of T-cells in allergic sensitization and IgE regulation

The atopic phenotype develops on the basis of a genetic predisposition. Several candidate genes and chromosomal regions have been recently identified that may play a rôle in the development of allergic sensitization and total IgE production, including genes encoding MHC and T-cell receptor (TCR) molecules, cytokines and others. Genetic predisposition triggers and immunological dysregulation which is controlled by CD4+ T-cells. (Specialized) antigen presenting cells process and present allergenic peptides (T-cell epitopes) on MHC class II molecules to T-cells that recognize MHC plus peptide using the TCR. Cognate and non-cognate interaction results in T-cell activation. Selective stimulation of the allergen specific T-cells is the result of allergen-specific sensitization. These T-cells are characterized by (simultaneous) production of IL-3, IL-4, IL-5 (and may be IL-13). These cytokines control the production of IgE by B cells and play a critical rôle in the activation and differentiation of effector cells of the allergic response (such as eosinophils and mast cells). In addition to MHC-TCR interaction and cytokine production, ligation of CD40 and CD40L represents an additional requirement for the production of functional IgE molecules. Immediate hypersensitivity responses are characterized by an early phase response (triggered by many mediators released from effector cells following allergen exposure, IgE cross-linking and activation of signal transduction pathways) and a late phase response that is mediated to a large extend by the influx of T-cells and effector cells into the site of allergic inflammation. Deliniation of the immunological mechanisms that result in allergic sensitization will contribute to the development of specific immunomodulatory strategies aimed to prevent the development of allergies.

Intralesional T-lymphocyte activation as a mediator of psoriatic epidermal hyperplasia

An early cellular event in the development of psoriatic lesions is infiltration of target tissue by macrophages and activated T lymphocytes. Lesional psoriatic skin contains activated memory T lymphocytes with production of mRNA for lymphokines such as interleukin-2, interferon-gamma, and tumor necrosis factor-alpha that is elevated relative to normal or uninvolved psoriatic skin. That the T-cell activation and cellular lymphokine production have a crucial role in the maintenance of epidermal hyperplasia in the psoriatic lesion is indicated by the beneficial effect of immunosuppressive agents in the treatment of psoriasis (cyclosporin A, FK506, anti-CD3, anti-CD4). A link between immune activation and psoriasis is also indicated by immunogenetic associations in this disease. Also, psoriatic keratinocytes appear to have been modulated by T-cell lymphokines in vivo, because they abnormally express molecules uniquely induced on keratinocytes by the T-cell product interferon-gamma. Indeed, T cells producing interferon-gamma have been cloned from psoriatic lesions, and they are able to induce keratinocyte class II major histocompatibility complex and intercellular adhesion molecule expression. These lesion-derived T-cell clones can induce growth of keratinocytes, and specifically lesional psoriatic T cells produce factors that induce increased keratinocyte colony formation, as well as increased cell cycle entry of the normally quiescent stem cell population. Interferon-gamma, although a growth inhibitor on its own, acts cooperatively with other T-cell-produced growth factors to cause keratinocyte growth induction. Furthermore, relative to normal stem cells, keratinocyte stem cells (beta 1 integrin+ K1/K10-) in psoriatic uninvolved epidermis are significantly hyperresponsive to the growth-stimulatory lymphokine milieu created by lesional T lymphocytes. Whether such abnormalities in responsiveness are associated with new genetic linkages reported in families of psoriasis patients is unknown. As the epidermis of lesional psoriatic skin can be demonstrated to produce elevated levels of factors that can further potentiate T-cell activation, a self-sustaining cycle can be constructed of T-cell recruitment, intralesional activation, release of factors that preferentially stimulate psoriatic epidermal stem cells to proliferate, and further epidermal potentiation of the T-cell-mediated lesions.

Response of psoriasis to a lymphocyte-selective toxin (DAB389IL-2) suggests a primary immune, but not keratinocyte, pathogenic basis

Psoriasis is a hyperproliferative and inflammatory skin disorder of unknown aetiology. A fusion protein composed of human interleukin-2 and fragments of diphtheria toxin (DAB389IL-2), which selectively blocks the growth of activated lymphocytes but not keratinocytes, was administered systemically to ten patients to gauge the contribution of activated T cells to the disease. Four patients showed striking clinical improvement and four moderate improvement, after two cycle of low dose IL-2-toxin. The reversal of several molecular markers of epidermal dysfunction was associated with a marked reduction in intraepidermal CD3+ and CD8+ T cells, suggesting a primary immunological basis for this widespread disorder.

Excessive costimulation of CD3-dependent lymphocyte response by extracellular matrix proteins in severe widespread psoriasis

Costimulation of anti-CD3-triggered proliferative T-cell responses by type I and type IV collagen and fibronectin was studied in 25 patients with psoriasis and 12 healthy subjects. The stimulation index of anti-CD3-mediated responses in the presence of type I collagen was about half that in the controls. Although the CD3-dependent proliferative response of psoriatic lymphocytes in patients with active widespread plaque psoriasis was reduced by about 50%, costimulatory responses induced by type IV collagen and fibronectin were found to be enhanced in relation to the controls. The degree of costimulation by type IV collagen and fibronectin was related to disease severity. The highest values of the stimulation index were found in patients with a PASI greater than 24, skin involvement of more than 40% of body surface area, and a duration of psoriatic lesions of more than 3 months. The results indicated that in active widespread plaque psoriasis subpopulations of T cells bearing receptors for some extracellular matrix proteins were increased in the peripheral blood. A factor responsible for this phenomenon may be trafficking of T cells through the basement membrane zone of psoriatic lesions, which presumably causes modification of T cell immunological responsiveness after recirculation.

The distribution of lymphocyte subpopulations in normal and acanthotic ovine skin

The prevalence and distribution of lymphocyte subpopulations in normal and acanthotic ovine skin were investigated using monoclonal antibody immunocytochemistry. CD8+ cells were predominant in the epidermis of both normal and acanthotic skin, but were CD8+ cells, CD4+ cells and T19+ cells infrequent in normal epidermis. Within the dermis of normal skin, there were significantly greater numbers of CD4+ and T19+ cells situated around the superficial dermal vessels than in any other region examined. The majority of the CD8+ cells adjoined vessels, but the proportion that did not was greater for CD8+ than for CD4+ or T19+ cells. The CD4+ and CD8+ subsets were represented equally in adnexa. T cells were of memory phenotype. B cells and naive T cells, both of which express the CD45RA antigen, were rarely seen and tended to be associated with vessels in both normal and acanthotic skin. None of the T19+ cells (which are gamma delta+) resembled the dendritic gamma delta cells seen in murine epidermis. Acanthotic skin was strikingly different to normal skin. There was a greater abundance of T cells, particularly CD4+ cells, in acanthotic epidermis and the numbers of CD8+ and T19+ cells, and to a greater extent CD4+ cells, were greater at the dermal-epidermal junction. There were more CD4+ and CD8+ cells in the superficial dermal stroma of acanthotic skin. Within the dermis of acanthotic skin, T cells were concentrated near vessels but the apportioning of T cells between stromal/adnexal and vessel-associated sites differed from normal. Such observations suggest that migration away from perivascular sites and into the stroma may be controlled separately for subregions of skin and for each T cell subset. The role of this altered nonrandom migration of T cells in skin chronically exposed to ultra violet radiation is uncertain.

Differential in situ cytokine gene expression in acute versus chronic atopic dermatitis

The mechanisms involved in the initiation and maintenance of skin inflammation in atopic dermatitis (AD) are poorly understood. Recent data suggest that the pattern of cytokines expressed locally plays a critical role in modulating the nature of tissue inflammation. In this study, we used in situ hybridization to investigate the expression of interleukin 4 (IL-4), IL-5, and interferon-gamma (IFN-gamma) messenger RNA (mRNA) in skin biopsies from acute and chronic skin lesions of patients with AD. As compared with normal control skin or uninvolved skin of patients with AD, acute and chronic skin lesions had significantly greater numbers of cells that were positive for mRNA, IL-4 (P < 0.01), and IL-5 (P < 0.01), but not for IFN-gamma mRNA expressing cells. However, as compared with acute AD skin lesions, chronic AD skin lesions had significantly fewer IL-4 mRNA-expressing cells (P < 0.01), but significantly greater IL-5 mRNA (P < 0.01). T cells constituted the majority of IL-5-expressing cells in acute and chronic AD lesions. Chronic lesions also expressed significantly greater numbers of activated EG2+ eosinophils than acute lesions (P < 0.01). These data indicate that although acute and chronic AD lesions are associated with increased activation of IL-4 and IL-5 genes, initiation of acute skin inflammation in AD is associated with a predominance of IL-4 expression whereas maintenance of chronic inflammation is predominantly associated with increased IL-5 expression and eosinophil infiltration.

Increased expression of adhesion receptors in both lesional and non-lesional psoriatic skin

Adhesion receptors and their ligands play a vital role in the immune system. We studied the expression of different adhesion receptors, using single- and double-staining immunohistochemical techniques, in both lesional and non-lesional skin specimens from seven psoriasis patients and in skin biopsy specimens from eight normal healthy controls. Our results showed an overall increased expression of several adhesion receptors in both lesional and non-lesional psoriatic skin. We consistently found an increased expression in particular of ICAM-1 and E-selectin on endothelial cells, and ICAM-1 on T cells and Langerhans cells. In contrast, a weak expression of VCAM-1 was found on endothelial cells and mononuclear cells in lesional psoriatic skin specimens alone. Interestingly, LFA-1 was also expressed on Langerhans cells, with a greater frequency in skin from lesional than from non-lesional sites, but was never expressed in skin from normal healthy individuals. Furthermore, significantly increased numbers of Langerhans cells and T cells with a positive reactivity for MAb HECA-452 were found in both lesional and non-lesional psoriatic skin. We hypothesize that the enhanced expression of adhesion receptors on migrating immunocompetent cells and endothelial cells of psoriatic skin in general facilitates the increased influx of activated T lymphocytes and other immunocomponent cells into the skin, and thus underscores the generalized character of the disease.

A study of CD45RO, CD45RA and CD29 antigen expression on human decidual T cells in an early stage of pregnancy

The decidua is the place where the fertilized egg is implanted and where the immunocompetent cells of the mother come into direct contact with genetically disparate cells of the conceptus. Although the T cells in the decidua are exposed to fetal antigens, the fetus is not rejected by maternal immunocompetent cells. In the present study, we examined surface markers to determine whether the T cells in the human decidua are naive T cells without or memory T cells with a history of antigen stimulation. Although few T cells were present in the decidua, as compared to the peripheral blood, CD45RO+, CD29+ and CD45RA- CD4+ T cells as well as CD45RO+, CD29+ and CD45RA- CD8+ T cells, which are considered to be memory T cells, were in the majority, with only small numbers of CD45RO-, CD29- and CD45RA+ CD4+ and CD8+ cells, which are naive T cells, present. Also, the decidual mononuclear cells secreted IL-2 and IL-4. Since IL-4 is secreted only by memory T cells, it is suggested that in the decidua memory T cells increase in number and secrete cytokines, thereby in some way influencing the phenomenon of fertility.

CD7-negative helper T cells accumulate in inflammatory skin lesions

Recently, we identified a particular T-cell subset in the peripheral blood of normal individuals that lack CD7 expression. In this study we determined the portion of CD7- T cells in the peripheral blood and skin of patients with various inflammatory skin diseases. We found that skin-infiltrating lymphocytes isolated from different benign and malignant skin lesions (n = 20) contain a high portion of CD7- helper T cells, whereas the number of CD7- T cells in the peripheral blood was not altered compared to healthy controls. Cell activation in vitro did not induce CD7 expression in negative T cells but increased CD7 expression in CD7-positive cells. Thus, lack of CD7 expression seems to be a stable characteristic in a major subset of skin-infiltrating lymphocytes. During long-term culture of CD7- helper T-cell clones derived from a psoriasis skin lesion, no phenotypic change in the CD7 phenotype could be monitored by sequential flow-cytometric analyses. No CD7 mRNA could be detected by Northern blot analysis, indicating transcriptional regulation of CD7 expression. The results show that CD7- T cells accumulate in certain inflammatory skin lesions without alteration of the circulating CD7- population. These cells may be identical to or derived from CD7- T cells of the peripheral blood.

Reappraisal of in situ immunophenotypic analysis of psoriasis skin: interaction of activated HLA-DR+ immunocompetent cells and endothelial cells is a major feature of psoriatic lesions

Psoriasis is an inflammatory skin disease of unknown aetiology. Many observations indicate that T cells play an important role in the pathogenesis of the disease. Upregulation of MHC class-II molecules on immunocompetent cells, endothelial cells and keratinocytes on lesional psoriatic skin has been regarded as a hallmark of the disease. However, there is some controversy in the literature regarding the cell types expressing class-II molecules and there is limited information about the presence of immune cells other than T cells and antigen presenting cells in the cellular infiltrates of psoriatic skin. We therefore reinvestigated the subject using immunocytochemical single and multiple staining techniques. In agreement with earlier reports, our studies showed that the cellular infiltrates in lesional skin consist largely of HLA-DR+/IL-2R+ T cells, HLA-DR+/CD1a+ Langerhans cells, and HLA-DR+/CD68+ macrophages. We found increased HLA-DR expression mostly on immuno-competent cells and endothelial cells, but no prominent HLA-DR expression on keratinocytes in lesional psoriatic skin. Upregulation of HLA-DR on endothelial cells and in mononuclear infiltrates was also evident in the non-lesional skin of psoriatic patients as compared with normal controls. B cells and natural killer cells were also found in the cellular infiltrates in lesional psoriatic skin. In spite of the presence of a large amount of activated T cells in the epidermis, we found that HLA-DR expression on keratinocytes was not a major feature of psoriatic skin.

Atopic dermatitis: recent trends in pathogenesis and therapy

Emerging concepts in the areas related to the pathogenesis and treatment of atopic dermatitis are reviewed. In particular, recent findings have revealed several key steps in the maintenance of a vicious circle of spongiotic dermatitis associated with elevated T-lymphocyte activation, hyperstimulatory Langerhans cells, defective cell-mediated immunity, and B-cell IgE overproduction. The discovery of specific IgE-binding structures on Langerhans cells provides a mechanism for Langerhans cells to capture and present IgE-targeted allergens to allergen-specific T cells. Furthermore, certain microbial allergens that tend to preferentially elicit IgE-type responses also elicit a T-cell response dominated by the IgE-inducing lymphokine interleukin 4. Repeated stimulation by activated Langerhans cells appears to induce just such a response. Abnormal biochemical responsiveness and mediator release by AD monocytes, mast cells, and eosinophils also participate in the sustainment or initiation of such a vicious circle, and contribute directly to the dermatitis as well. Developments in the areas of neuropeptides, genetics, microbial superantigens, and cytokine networks in the skin also appear to have promise in providing a rational link between immune defects and the inflammatory events in AD. Conventional therapy remains the mainstay of atopic dermatitis management; however, new therapies based upon the above concepts are being tested in clinical trials. Although the difficulty of objectively grading AD lesional activity and the high placebo response of AD patients hampers the interpretation of many reports, several types of approaches are coming into focus. The effectiveness of cyclosporin A, which targets T-cell activation and antigen presentation, indicates that additional agents with such activity should be effective, and verifies the criticality of these cells in AD pathogenesis. Therapy with biologic response modifiers, such as interferon gamma or thymopentin, is oriented toward normalization of imbalanced immune responsiveness, rather than direct suppression of the immune system. The mechanism of action of and toxicities of Chinese herbal mixtures require further investigation, but may reveal hitherto unconsidered avenues. Other recent therapeutic trials have focused on reduction of trigger factors, such as house dust mite exposure, foods, and the abnormal epidermal lipid barrier to irritation.

A case of malignant haemangioendothelioma treated with recombinant interleukin-2

A case of malignant haemangioendothelioma of the scalp in an 82-year-old female treated with intralesional, intra-arterial and intravenous recombinant interleukin-2 (rIL-2) is reported. The scalp lesions disappeared after injection of 35,350,000 Japan reference units of rIL-2 and excision of the residual tumour. Immunohistochemical characterization of the cells infiltrating the lesion after rIL-2 administration revealed 30-40% CD4+ and CD8+ T lymphocytes, 20-30% macrophages and 5-10% natural killer cells. These findings are similar to those in other human cancers. Almost all of the cells in the intersticies of the lesion after rIL-2 injection expressed leucocyte function-associated antigen-1, and some of the tumour cells and the infiltrating cells around them expressed intercellular adhesion molecule-1. HLA-DR-positive cells markedly increased in number after rIL-2 administration. This report suggests that rIL-2 administration is the most effective therapy for malignant haemangioendothelioma.

Langerhans cell accumulation in chronic tinea pedis and pityriasis versicolor

Persistence of chronic tinea pedis (CTP) and pityriasis (tinea) versicolor (PIVE) has been tentatively attributed to an impaired cellular immune response. Therefore immunophenotyping of the inflammatory infiltrates in both disorders was performed in order to detect possible defects in cellular defence. The results of the present study show a dominance of memory T cells, an accumulation of macrophages and lack of B cells. A very prominent feature in CTP and especially PIVE was a marked accumulation of Langerhans cells (LCs) in the epidermis, mostly without expression of CD4. Furthermore, reduced expression of cellular activation markers and the presence of suppressor T cells was noted. In general, the cellular response in PIVE appeared to be slightly stronger than in CTP. This composition of the inflammatory infiltrates in chronic dermatomycoses is similar to previous findings in a variety of dermatoses. However, in PIVE and CTP local reduction of delayed-type hypersensitivity may occur. The function of LCs in these infections is therefore of special interest.

Group A streptococcal antigen-specific T lymphocytes in guttate psoriatic lesions

A strong association exists between guttate psoriasis and group A, beta-haemolytic streptococcal infections. To demonstrate the presence of streptococcal-specific T cells in psoriatic skin, T-cell lines (TLs) were established from biopsies of lesions from five patients with guttate psoriasis, and compared with TLs from five patients with eczema, five with lichen planus, two with pityriasis rosea and three with nickel contact dermatitis. TLs from purified protein derivative (PPD)-induced delayed hypersensitivity sites in three normal individuals were also studied. All five of the psoriatic TLs responded in a proliferation assay to heat-killed isolates of group A streptococci, compared with only one eczema, two lichen planus and one pityriasis rosea. The response of one nickel contact dermatitis and two PPD TLs to group A streptococci was markedly less than to nickel and PPD, respectively. One of the psoriatic TLs was cloned in the presence of type 5 streptococcal M protein. The nine clones obtained were all CD3+, CD4+, CD45RO+, TCR alpha, beta+, gamma, delta-. However, they were all unreactive with antibodies to TCR V beta 5, 6, 8 or 12. Eight of the nine clones reacted, to a varying extent, to one or two of three preparations of group A streptococci expressing different M proteins. The streptococcal response of four consistently reactive clones from this patient was HLA-DR-restricted and inhibited by anti-HLA-DR antibody in a dose-dependent manner. On stimulation these four clones secreted high levels of gamma-interferon and detectable levels of IL-2, IL-10 and granulocyte/macrophage colony stimulating factor (GM-CSF) depending upon the nature of the stimulus, but no IL-4 or TNF-alpha production was detected. This study has demonstrated, for the first time, that T lymphocytes specific for group A streptococcal antigens can be consistently isolated from guttate psoriatic lesions. The role of streptococcal-specific T cells in the pathogenesis of psoriasis remains to be determined.

The skin immune system: progress in cutaneous biology

The skin is an active, and in many ways unique, immunological microenvironment quite different from the other primary interfaces between the body and the environment (namely the mucosae). Here Jan D. Bos and Martien L. Kapsenberg identify the components of the skin immune system and describe the inflammatory and immunological responses that they can mount. New findings with regard to the immunophysiology and physiopathology of the human integument are emphasized.

Imbalance of CD4+CD29+ and CD4+CD45RA+ T-helper cell subsets in peripheral blood of patients with severe atopic dermatitis

To determine the proportion of T-helper cell subsets in the peripheral blood we studied 16 patients with mild, moderate and severe atopic dermatitis. Lymphocytes were isolated from heparinized peripheral blood and analysed by two-colour flow cytometry. Patients with severe atopic dermatitis had a decreased CD4+CD29+: CD4+CD45RA+ ratio (p < 0.01). We found a decreased absolute number of CD4+CD29+ cells (p < 0.05) and an increased absolute number of CD4+CD45RA+ cells (p < 0.05) in the peripheral blood. No significant changes in the CD4+CD29+: CD4+CD45RA+ ratio were found in the peripheral blood of patients with clinically mild or moderate atopic dermatitis.

The intrinsic migratory capacity of memory T cells contributes to their accumulation in rheumatoid synovium

OBJECTIVE

Mechanisms controlling the infiltration of T cells into rheumatoid synovium have not been fully characterized. These studies were undertaken to investigate the relationship between T cell phenotype and migratory capacity, so as to elucidate mechanisms that might contribute to the accumulation of T cells at inflammatory sites.

METHODS

The characteristics of in vivo migrating cells were studied by dual-immunofluorescence FACS (fluorescence-activated cell sorter) analysis of rheumatoid synovial and peripheral blood T cells. Migratory cells were also characterized using a recently developed in vitro assay, wherein peripheral blood T lymphocytes (PBTL) with the capacity to migrate through endothelial cell monolayers were retrieved and assessed.

RESULTS

Migratory CD4+ T cells from rheumatoid arthritis (RA) and normal individuals were characterized as being CD45RA-, CD29bright, CD11abright, L-selectin-, CD54+, and CD58+. Migrating RA PBTL (compared with normal PBTL), however, were significantly enriched in activated HLA-DR+ T cells. RA synovial tissue lymphocytes exhibited a similar phenotype, but with decreased surface density of CD4 and an increase in HLA-DR and VLA-1. RA synovial lymphocytes exhibited a 2-3-fold increase in migratory capacity over normal and RA PBTL:

CONCLUSION

These studies demonstrate the inherent migratory proficiency of CD4+ T cells that express a memory phenotype (CD29bright, CD11abright, and CD58+). In addition, enhanced transendothelial migration was observed for CD4+ T cells that were CD54+ and L-selectin-. These studies demonstrate that the migratory patterns of circulating lymphocytes may be correlated with their surface phenotype and that the intrinsic migratory capacity of memory T cells is one component contributing to their accumulation in the rheumatoid synovium.

Expression and Role of Integrin Receptors in Sézary Syndrome

The potential role of integrins in the epidermotropism of the atypical lymphocytes of Sézary syndrome was studied by monitoring the expression of alpha and beta chains and their major ligands in skin biopsies and peripheral blood cells in patients at different progression stages. Most mononuclear cell integrins were also detected on infiltrating cells including the leukocyte complex CD11/CD18, alpha 4 beta 1, and their ligands, ICAM-1 and VCAM-1. Conversely, alpha 6 and beta 4 were present only in epidermal basal cells. Mononuclear infiltrates of SS were positive for both alpha 3 and alpha 5 chains, whereas in inflammatory cutaneous diseases only alpha 5 was expressed, indicating that a major feature of Sézary cells is the unique expression of alpha 3 beta 1. Significant changes of alpha 3 beta 1 were monitored in the follow-up of Sézary patients and correlated with the results of the therapy. The heterodimer alpha 1 beta 1 was absent from mononuclear cells except in one case. Among matrix molecules, laminin and type IV collagen displayed a pattern similar to that of the controls, whereas fibronectin and tenascin deposition were apparently increased. Circulating Sézary cells, both at diagnosis and during follow-up, were alpha 3 and alpha 5 negative and failed to acquire these adhesion molecules after mitogenic stimulation. We propose that the expression of alpha 3 beta 1 is a distinguishing feature of skin-infiltrating Sézary cells and may be related to their epidermotropism. It could also be adopted as an additional parameter of the progression and therapeutic stage of Sézary syndrome.

Lymphocyte interactions with endothelial cells

Adhesion of lymphocytes to endothelium is vital to lymphocyte migration into lymphoid tissue and into inflammatory sites. In this review, Yoji Shimizu and colleagues identify the molecules that mediate lymphocyte-endothelial cell adhesion, describe the underlying principles of lymphocyte migration, and discuss a model of the sequence of events that allow a lymphocyte to successfully attach to endothelium and migrate into the surrounding tissue.

Common Pathogenetic Pathways in Allergic and Irritant Contact Dermatitis

Despite their different pathogeneses, allergic and irritant contact dermatitis show a remarkable similarity with respect to clinical appearance, histology, and immunohistology. To further analyze this apparent contradiction, our study was designed to meticulously compare cellular infiltrates in irritant and allergic patch-test reactions by immunostaining with a broad panel of monoclonal antibodies. For this purpose, skin biopsies from allergic and irritant patch-test reactions of similar inflammatory degree were obtained from the same probands. We found that after 72 h both types of reaction were characterized by an identical dermal infiltrate consisting mainly of memory T cells, many of which were activated, and macrophages. Dermal and epidermal Langerhans cell density and HLA--DR expression of keratinocytes were also virtually identical. Our results show that antigen recognition by specific memory T cells as well as irritants can finally induce the same pattern of inflammation, including activation of T cells obviously independent of exogenous antigen.

Isoforms of the CD45 common leukocyte antigen family: markers for human T-cell differentiation

The diverse host defense and immunoregulatory functions of human T cells are performed by phenotypically heterogeneous subpopulations. Among the membrane antigens that are differentially expressed by reciprocal human T-cell subsets are the CD45RA and CD45RO isoforms of the common leukocyte antigen family, which have been hypothesized to identify "naive" and "memory" T cells, respectively. The CD45RA antigen is first expressed by T-lineage cells relatively late during their intrathymic maturation and continues to be expressed by most T cells in the immunologically naive neonate. With increasing age and antigenic exposure, however, CD45RA-/RO+ cells become more prevalent in the circulation and comprise the majority of cells in tissues. Analyses of the functional capabilities of CD4+CD45RA+ and CD4+CD45RO+ cells have shown that proliferative responses to "memory" recall antigens or the ability to provide help for antibody production are functions uniquely performed by CD4+CD45RA-/RO+ cells. The major immunoregulatory functions described for CD4+CD45RA+ cells involve suppression of immune responses, either directly or via the induction of suppressor activity by CD8+ cells. Two general models of differentiation have been proposed to describe the lineal relationship of these T-cell subsets. Although these subsets could represent mature, phenotypically and functionally stable progeny arising from separate differentiation pathways, there is considerable experimental support for the hypothesis that CD45RA-/RO+ cells are "memory" cells that derive from "naive" or "virgin" CD45RA+/RO- precursors via an activation-dependent postthymic differentiation pathway. Altered frequencies of CD45RA+ and CD45RO+ T cells have been observed in a variety of different clinical conditions, particularly diseases manifesting altered immune function. These findings have contributed new information concerning the physiological events regulating the in vivo generation of these T-cell subsets. In addition, they may provide clues to the pathogenetic processes associated with certain diseases.

Immunocytochemical characterization of immune cells in lesions of American cutaneous leishmaniasis using novel T cell markers

Some recently defined lymphocyte immunophenotypes were determined in lesions of patients with American cutaneous leishmaniasis (ACL). New monoclonal antibodies have allowed the demonstration of cell surface antigens of T lymphocytes, such as CD45RA and CD45RO, which recognize different maturational stages of the same T CD4+ cell subgroup: 'virgin' (CD4+CD45RA+) and 'memory' (CD4+CD45RO+) T cells respectively. The CD4/CD8 cell ratios were higher in mucocutaneous leishmaniasis (MCL) than in localized cutaneous leishmaniasis (LCL) lesions. Diffuse cutaneous leishmaniasis (DCL) has the highest values of 'virgin' T cells; LCL and MCL patients have lower values, similar to each other. 'Memory' T cells were higher in MCL than in LCL or DCL. The ratio of 'memory'/'virgin' T cells was 7.9 for LCL, 9.6 for MCL and 2.5 for DCL. The highest value for IL-2 receptor positive cells (CD25) was observed in LCL, whereas single CD45RO-immunoreactive cells showed a peak value in DCL patients. HLA-DR+ cells were present in all three clinical forms of ACL. MCL patients showed a lack of epithelial Langerhans cell (CD1a+) in the nasal mucosa.

Characterisation of the in vitro responsiveness of lymphocyte subsets to locomotor stimuli by immunocytochemical methods

The in vitro locomotion of lymphocyte subsets has previously been determined by use of highly purified cell populations. A method is now described in which mixed peripheral blood lymphocytes (PBL) migrate to the undersurface of polycarbonate filters in a 48 well microassay, the responding cells being characterised by alkaline phosphatase-anti-alkaline phosphatase immunocytochemistry. Recombinant interleukin (rIL)-1 alpha, zymosan activated plasma (ZAP) and rIL-8 were shown to induce concentration-related migration of mixed PBL in the 48 well assay and were therefore used as reference agonists. Total T cells, B cells, T helper/inducer and T suppressor/cytotoxic cells, as well as lymphocytes stained with the monoclonal antibodies UCHL1 and SN130, have now been quantified after migration to the undersurface of 8 microns pore size polycarbonate filters, in response to optimal concentrations of rIL-1 alpha, ZAP and rIL-8. The value of the analytical method was demonstrated by the selective responses seen. rIL-1 alpha selectively stimulated the migration of T helper/inducer and a small number of B cells without affecting T suppressor/cytotoxic cell locomotion. ZAP and rIL-8 significantly stimulated the migration of T helper/inducer, T suppressor/cytotoxic and B cells. ZAP and rIL-1 alpha also stimulated the migration of both UCHL1 and SN130 positively stained cells. This method may therefore be used to investigate the selective actions of lymphocyte locomotor stimuli on PBL sub-populations without the need to purify specific cell subsets, and to study the specificity of certain inhibitors or drugs on lymphocyte responses.

Expression of a cell adhesion protein (VLA beta) in normal and diseased skin

Biopsies from normal skin (n = 17) and various cutaneous disorders (n = 83) were examined immunohistologically for reactivity with an antibody (CD29) against the common beta chain of the VLA integrin family. In normal skin, CD29 recognized a number of cell types, i.e. endothelial cells, fibroblasts, T lymphocytes and basal keratinocytes. Similar cells were positive in diseased skin, but the expression of VLA beta was upregulated on keratinocytes. The phenotype of the VLA beta-positive T cells was examined in more detail by staining with anti-T-cell antibodies, i.e. CD3, CD4, CD8, CD45RO (UCHL1) and CD45R (2H4). These studies showed that most of the T cells in normal skin, benign cutaneous conditions and early cutaneous T-cell lymphomas (CTCL) expressed a similar phenotype and resembled antigen committed 'memory' (helper/inducer) cells (CD4+, CD29+, CD45RO+, CD45R-). In advanced CTCL, expression of these antigens was more variable, and many of these infiltrates showed aberrant (or unusual) expression of CD29, CD45RO, CD45R and other T-cell antigens. It is concluded that several cells involved in cutaneous immune reactions express a molecule (VLA beta) which acts as a receptor for extracellular matrix components. This molecule is important for the attachment of cells to connective tissue constituents and may act to facilitate the migration of lymphocytes (and other cells) during immune reactions in normal and diseased cutaneous conditions. Advanced CTCL differ from the early lesions and it is possible that there is a progressive accumulation of increasingly malignant (or transformed) cells in these conditions.

Interleukin-4 promotes the expansion of skin-infiltrating lymphocytes from atopic dermatitis in vitro

Functional studies of lymphocytes in atopic dermatitis (AD) have so far focused on peripheral blood mononuclear cells (PBMC), whereas cells at the involved site, the skin, have not been examined. Accordingly, we have developed methods to generate lymphocyte cultures from biopsies of inflammatory skin areas. Skin-infiltrating lymphocytes (SIL) were isolated from skin biopsies of 6 patients with severe AD and expanded in vitro in the presence of interleukin-2 (IL-2) without additional antigens. After 6-10 d in culture, outgrowth of mononuclear cells from biopsy tissue was observed in all cases. Phenotypic analysis of skin-derived cells revealed the predominance of CD4+ T-helper/inducer phenotype in SIL populations. Parallel cultures of SIL and PBMC showed an increase and expansion of CD8+ T cells in cultured PBMC, whereas the CD4+ phenotype was predominant in SIL cultures. As indicated by their expression of HLA-DR and CD25 antigens, most of the SIL were activated and the cells mainly expressed T-cell receptors (TCR) composed of alpha and beta chains. Different strategies for expansion of SIL in vitro were examined. High levels of IL-4 (1,000 U/ml) in combination with IL-2 (50 U/ml or 1,000 U/ml) preferentially promoted growth of SIL derived from AD and were much more effective than IL-2 alone. No cells expanded in cultures with IL-4 alone. SIL grown with high concentrations of IL-4 contained a significant proportion of double-positive CD4+8+ cells. No other marked differences were observed in the distribution of T cell subsets in cultures propagated under different conditions for 21 d. Our results demonstrate the feasibility of growing infiltrating T lymphocytes from inflammatory skin of AD patients. The use of high concentrations of IL-2 in combination with high levels of IL-4 allows a large expansion of these cells and thus represents a useful strategy to expand cells for further functional and molecular biologic studies.

Proliferating cells in psoriatic dermis are comprised primarily of T cells, endothelial cells, and factor XIIIa+ perivascular dendritic cells

Determination of the cell types proliferating in the dermis of patients with psoriasis should identify those cells experiencing activation or responding to growth factors in the psoriatic dermal milieu. Toward that end, sections of formalin-fixed biopsies obtained from 3H-deoxyuridine (3H-dU)-injected skin of eight psoriatic patients were immunostained, followed by autoradiography. Proliferating dermal cells exhibit silver grains from tritium emissions. The identity of the proliferating cells could then be determined by simultaneous visualization with antibodies specific for various cell types. UCHL1+ (CD45RO+) T cells (recall antigen-reactive helper T-cell subset) constituted 36.6 +/- 3.1% (mean +/- SEM, n = 6) of the proliferating dermal cells in involved skin, whereas Leu 18+ (CD45RA+) T cells (recall antigen naive T-cell subsets) comprised only 8.7 +/- 1.5% (n = 6). The Factor XIIIa+ dermal perivascular dendritic cell subset (24.9 +/- 1.5% of proliferating dermal cells, n = 6) and Factor VIII+ endothelial cells (23.0 +/- 2.3%, n = 6) represented the two other major proliferating populations in lesional psoriatic dermis. Differentiated tissue macrophages, identified by phase microscopy as melanophages or by immunostaining with antibodies to Leu M1 (CD15) or myeloid histiocyte antigen, comprised less than 5% of the proliferating population in either skin type. In addition to calculating the relative proportions of these cells to each other as percent, we also determined the density of cells, in cells/mm2 of tissue. The density of proliferating cells within these populations was increased in involved versus uninvolved skin: UCHL1+, 9.0 +/- 1.7 cells/mm2 versus 1.8 +/- 0.6 cells/mm2, p less than 0.01; Factor XIIIa+, 6.0 +/- 0.7 cells/mm2 versus 1.5 +/- 0.5 cells/mm2, p less than 0.01; Factor VIII+, 5.5 +/- 1.4 cells/mm2 versus 0.0 cells/mm2, p less than 0.05. The presence of preferential active proliferation of a T-cell subset in lesional dermis suggests that activating signals specific for this subset are contained within the psoriatic dermis in vivo. The activation of recall antigen-reactive T cells may be a driving force behind the dendritic cell and endothelial cell proliferation. Alternatively, the selective proliferation and expansion of these two constitutive cell types (Factor XIIIa+ and Factor VIII+) may result in signals that promote activation of UCHL1+ (CD45RO+) T cells.

Effects of cyclosporine on immunologic mechanisms in psoriasis

A major impetus for further investigation of cellular immunologic mechanisms in psoriasis has been the discovery that cyclosporine, a potent immunosuppressive, is highly effective in the treatment of psoriasis. Cyclosporine has significant inhibitory effects on the ability of T cells to become activated. However, a direct activity of this drug on human keratinocyte signal transduction or growth has been difficult to demonstrate at relevant concentrations. Nevertheless, treatment of psoriasis or of 12-O-tetradecanoyl phorbol-13-acetate-treated murine skin with cyclosporine does reverse many epidermal abnormalities that are common to these two systems. This suggests that the compound exerts an indirect effect on epidermal keratinocytes in vivo, perhaps through immunocyte inhibition. During treatment of psoriasis patients, cyclosporine therapy resulted in selective changes in the numbers and functions of certain antigen-presenting cell subsets (which were distinct from Langerhans cells) and T-cell subsets. These changes were accompanied by indirect evidence of decreased T-cell lymphokine release. Lesional activity of cyclosporine-treated psoriasis patients was closely correlated with the degree of T-cell activation caused by antigen-presenting cells. Cyclosporine inhibition of lymphokine or cytokine release may result in decreased recruitment of non-Langerhans antigen-presenting cells into the epidermis and thus decreased immunoreactivity in the lesion.

Dominance of memory over naive T cells in contact dermatitis is due to differential tissue immigration

CD4+ T cells include a naive (CD4-, CD45RO-, CD29-, CD45RA+) as well as a memory subpopulation (CD4+, CD45RO+, CD29+, CD45RA-). These subpopulations represent different stages in T-cell development and function. Recently, it has been shown that inflammatory and neoplastic CD4+ T-cell infiltrates are dominated by the memory subpopulation, whereas both subpopulations are about the same size in the peripheral blood. This was thought to be the result of in situ maturation of naive into memory T cells. We analysed early positive patch-test reactions 1-2 days after antigen challenge and found that most of the CD4+ T cells that had freshly immigrated into the tissue carried the memory phenotype. Their preferential migration may be mediated by at least five adhesion molecules expressed on their cell surface. This observation has important pathogenetic implications, since memory T cells can be rapidly activated by antigens and secrete a wide variety of pro-inflammatory cytokines.

T-cell receptor gamma delta bearing cells in normal human skin

T-cell antigen receptors (TCR) are divided into common alpha beta and less common gamma delta types. In the murine skin, TCR gamma delta+ cells have been reported to form the great majority of epidermal T lymphocytes. We have examined the relative contribution of TCR alpha beta+ and TCR gamma delta+ cells to the T-cell population in normal human skin. Serial sections of freshly frozen skin specimens were acetone fixed, incubated with anti-CD3, beta F1 (anti-TCR alpha beta), anti-TCR gamma delta-1 and anti-TCR delta 1 (anti-TCR gamma delta) monoclonal antibodies (MoAb), and stained with a highly sensitive method. Over 90% of the T cells of normal human skin are localized around the postcapillary venules of the dermis, while less than 5% are present within the epidermis. In papillary dermis, TCR gamma delta+ cells formed on average 7% (anti-TCR gamma delta-1) or 9% (anti-TCR delta 1) of the total number of CD3+ cells, while TCR alpha beta+ cells constituted up to 80%. In epidermis, these percentages were 18% and 29% for TCR gamma delta+ cells, and up to 60% for TCR alpha beta+ cells. It is concluded that there is no preferential immigration or in situ expansion of TCR gamma delta+ T cells in normal human skin, because the relative percentages found for the TCR alpha beta+ and TCR gamma delta+ populations in skin are comparable to those found in lymphoid organs and peripheral blood. However, the percentage of TCR gamma delta+ cells in epidermis seemed on average higher than in papillary dermis. Therefore, there may still be a difference in migration patterns of TCR gamma delta+ v TCR alpha beta+ cells, but this does not result in their preferential localization in human epidermis. The hypothesis that TCR gamma delta+ T cells have a specialized function in immunosurveillance of epithelia may thus not be valid for human epidermis.