Immunologic aspects of acute cutaneous graft-versus-host disease: decreased density and antigen-presenting function of Ia+ Langerhans cells and absent antigen-presenting capacity of Ia+ keratinocytes

Keratinocytes function as accessory cells for presentation of endogenous antigen expressed in the epidermis

The precise contribution(s) of skin dendritic cells (DCs) to immune responses in the skin has not been well delineated. We developed an intradermal (i.d.) injection model in which CD8+ T (OT-I) cells that express ovalbumin (OVA) peptide-specific TCRs (Valpha2/Vbeta5) are delivered directly to the dermis of transgenic (Tg) mice expressing OVA in the epidermis. After i.d. injection, these mice reliably develop skin graft-versus-host disease (GVHD) by day 7. To determine the relative contribution of Langerhans cells (LCs) to the ensuing GVHD-like reaction, we generated K14-OVA x Langerin-diphtheria-toxin-receptor (Langerin-DTR) Tg mice to allow conditional ablation of LCs in the epidermis. To delineate the role of dermal DCs (dDCs) in the reaction, we also generated K14-OVA Tg chimeras using beta(2)-microglobulin-deficient (beta(2)m) congenic donor bone marrow cells. Dermal DCs in these mice cannot present OVA to autoreactive T cells (OT-I cells), whereas the LCs are antigen presentation-competent. Unexpectedly, OT-I cell injection into diphtheria toxin (DT)-treated beta(2)m --> K14-OVA x Langerin-DTR Tg mice resulted in skin GVHD. Thus, in vivo, both LC and dDC appear to be dispensable for the induction of keratinocyte-directed, CD8-mediated effector immune responses. Furthermore and surprisingly, OVA-expressing epidermal cells depleted of LCs that could not initiate allogeneic epidermal lymphocyte reactions activated naive OT-I cells in vitro. These results indicate that keratinocytes may function as accessory cells competent to prime naive skin-reactive T cells.JID JOURNAL CLUB ARTICLE: For questions, answers, and open discussion about this article, please go to http://network.nature.com/group/jidclub.

Surface antigen expression on bladder tumor cells induced by bacillus Calmette-Guérin (BCG): A role of BCG internalization into tumor cells

BACKGROUND

The antitumor mechanisms of bacillus Calmette-Guérin (BCG) against bladder cancer is still unclear. We previously reported that BCG was internalized by and survived within murine bladder tumor cells (MBT-2) for at least 40 days. In the present study, we investigated the effect of BCG on the surface antigen expression of bladder tumor cells and the characteristics of these cells as antigen-presenting cells in vitro.

METHODS

Surface antigen (major histocompatibility complex (MHC) Class II, CD1, CD80 and intercellular adhesion molecule-1 (ICAM-1)) expression on BCG-treated murine (MBT-2) and human (T-24, J82) bladder tumor cells were analyzed using flow cytometry. The production of interleukin-2 (IL-2) and interferon-gamma (IFN-gamma) from murine lymphocytes sensitized with BCG or BCG-treated tumor cells were also investigated.

RESULTS

The expressions of MHC Class II, CD1, CD80 and ICAM-1 were augmented in all of the bladder tumor cell lines used; however, they were augmented to varying degrees among the cell lines that were treated with live BCG. Heat-killed BCG had little or no effect. When murine lymph node cells sensitized with BCG or BCG-treated MBT-2 cells were cocultured with BCG-treated MBT-2 cells, significant amounts of IL-2 and IFN-gamma were produced in the culture medium.

CONCLUSIONS

BCG induced the augmented expression of surface antigens, such as MHC Class II, CD1, CD80 and ICAM-1, of bladder tumor cells. Furthermore, BCG-treated MBT-2 cells could stimulate BCG-sensitized lymphocytes to produce IL-2 and IFN-gamma. These results strongly suggest that bladder tumor cells gained the characteristics and functions of antigen-presenting cells (APC).

Numerical, morphological and phenotypic changes in Langerhans cells in the course of murine graft-versus-host disease

BACKGROUND

In the course of graft-versus-host disease (GVHD) or diseases that histologically mimic GVHD (e.g. toxic epidermal necrolysis, Stevens-Johnson syndrome), it is known that epidermal Langerhans cells (LCs) are depleted from the epidermis. However, the mechanism and significance of LC depletion is not well known.

OBJECTIVES

To investigate the numerical, morphological and phenotypic changes in LCs and apoptosis of LCs in the course of GVHD using a non-irradiated mouse GVHD model.

METHODS

BALB/c nu/nu mice and C57BL/6 mice were used as recipients and donors, respectively. Recipient mice were injected with T-cell-enriched donor spleen cells. Skin samples were harvested at various times after the inoculation. The numerical and morphological changes were examined by an immunofluorescence study of epidermal sheets. Apoptosis was studied by the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end labelling method and flow cytometric analysis using annexin V. Phenotypic change was studied by flow cytometric analysis of epidermal cell suspensions. The mixed epidermal cell lymphocyte reaction (MELR) was performed to examine functional changes in the epidermal cells.

RESULTS

Five days after inoculation, a graft-versus-host reaction occurred. Epidermal LCs began to decrease from the sixth day. On the fifth day, the LCs became larger and had prominent dendrites. Immediately before the LCs began to decrease, many LCs became round in shape, with scanty dendrites. LC apoptosis was not observed in the epidermis either on the fifth or seventh day. Phenotypically, the expression of CD40, CD80, CD86 and major histocompatibility complex class II antigen on the LCs was upregulated on the fifth and seventh day. Epidermal cells from GVHD mice showed an increased allostimulatory capacity in the secondary MELR.

CONCLUSIONS

These results suggest that at early GVHD onset, most LCs may not undergo apoptosis in the epidermis but are phenotypically activated, resulting in further activation of alloreactive T cells and aggravation of the disease.

Injection of CD4+ and CD8+ cells with donor or host accessory cells induces acute graft-vs-host disease in human skin in immunodeficient mice

OBJECTIVE

We examined cell subsets with respect to cutaneous graft-vs-host disease by cell sorting selection of subsets of human mononuclear cells and injecting the subsets subcutaneously in a mouse model.

MATERIALS AND METHODS

Cell suspensions containing cultured human epidermal cells and dermal fibroblasts from a single donor mixed with lymphoid cell subsets positively selected using the FACSVantage cell sorting instrument and/or MACS cell isolation kits from unrelated individuals were injected into immunodeficient mice. This model is known to generate human skin with histologic findings similar to human graft-vs-host disease.

RESULTS

Donor T-cell subsets CD4(+) and CD8(+) plus either host or donor CD14(+) cells were necessary to cause acute cutaneous graft-vs-host disease. Although graft-vs-host disease can result from recognition of class I antigens expressed on human cutaneous cells by donor peripheral blood mononuclear cells, additional recognition of class II antigens expressed on host mononuclear cells resulted in more severe histologic manifestations. Dendritic cells that differentiated from donor and host monocytes also showed competent accessory cell function in this system.

CONCLUSIONS

Based on this model, human cutaneous graft-vs-host disease was caused by donor CD4(+) cells and CD8(+) cells activated through recognition of host antigens, including class I and class II antigens presented by either donor or host CD14(+) cells or dendritic cells.

An in vivo model of human skin acute graft-versus-host disease: transplantation of cultured human epidermal cells and dermal fibroblasts with human lymphocytes into SCID mice

The ability of mixed epidermal cell-lymphocyte reactions to detect allogeneic reactivities in an in vivo model was investigated by developing an in vivo model of acute graft-versus-host disease (GVHD), using SCID mice with a C.B-17 background in which human skin structures were generated by transplantation of cultured human epidermal cells (HEC) with dermal fibroblasts (HDFC). Suspensions containing cultured HEC and HDFC from a single donor were mixed with autologous peripheral blood mononuclear cells (PBMNC) or with PBMNC from unrelated individuals, and were injected into the flanks of C.B-17-SCID mice. Ten and 21 days after injection, subcutaneous nodules generated in the mice were examined histologically and immunohistochemically. Cystic structures developing after injection of HEC and HDFC without human PBMNC showed normal epidermislike tissue. Human skin generated in SCID mice injected with HEC and HDFC with auto-PBMNC showed no graft-versus-host reaction (GVHR) histologically, whereas those mice injected with PBMNC from siblings that shared an HLA haplotype showed mild GVHR. Human skin in SCID mice injected with HEC and HDFC with histoincompatible unrelated PBMNC showed moderate to severe GVHR. The severity of GVHR paralleled the dose of unrelated PBMNC, and GVHR was prevented by peroral treatment with cyclosporine A. Immunohistochemically, inflammatory cells infiltrating human cutaneous tissue formed in the SCID mice were stained by an anti-human CD45RO antibody that reacts with human T cells but not with murine lymphocytes, and most T cells were stained by an anti-human CD8 antibody recognizing HLA class I antigens. These findings are similar to those in clinical skin graft-versus host disease (GVHD) observed in patients undergoing allogeneic bone marrow transplantation. This experimental system should be useful as an in vivo model of human skin GVHD.

The steady-state turnover of murine epidermal Langerhans cells

We have investigated the steady-state turnover of murine epidermal Langerhans cells (LCs) using an X-irradiation model, 3H-thymidine autoradiography and cultured epidermal sheet explants, and by assessing the LC population in normal mice. The LC density after whole-body irradiation without any cutaneous shielding was not significantly different from that in skin shielded during whole-body irradiation (P > 0.05), indicating that the additional irradiation to the skin did not contribute to a decrease in LC density. In both instances, the LC number gradually decreased in a linear fashion. The results indicate that epidermal LCs continuously leave the epidermis and are continually replaced by circulating precursor cells from the bone marrow at a steady rate. Autoradiographic studies after a pulse injection of 3H-thymidine showed a labelling index of 0.013%, indicating that local mitosis is not an important contributor to the maintenance of the epidermal LC population. Although local X-irradiation resulted in temporary reduction of LC density, epidermal sheet explant culture obtained immediately after local X-irradiation showed no difference in LC density as compared with control unirradiated skin, indicating that the decrease in LC density was not due to significant LC destruction. From these data, we calculated that the half-life of murine LCs in the epidermis is approximately 9 days.

Graft-versus-host reactions in dermatology

Graft-versus-host reactions frequently produce cutaneous and systemic complications in patients receiving bone marrow transplants. Characteristic skin involvement typically heralds graft-versus-host reactions and significantly contributes to the morbidity associated with marrow transplants. Familiarity with these reactions and their treatment is important to dermatologists involved in the care of marrow transplant recipients.

Langerhans' cells are depleted in chronic graft versus host disease

AIMS

To measure Langerhans' cells in skin of patients treated by bone marrow transplantation who developed chronic graft versus host disease (GvHD); to determine whether the reduction in Langerhans' cells resulted directly from the GvHD or from other factors, such as the immunosuppressive regimens used in bone marrow transplant patients.

PATIENTS AND METHODS

Lesional and nonlesional skin specimens from nine patients with lichen planus-like lesions and three patients with sclerodermoid lesions were studied. Control skin specimens were taken from three patients undergoing breast reduction surgery. The number of Langerhans' cells/mm2 and the area of Langerhans' cells as a percentage of total epidermis were measured by counting cells labelled with antihuman CD1a.

RESULTS

A significant reduction in Langerhans' cell area and number were found in specimens with lesions (area 3.5%; number 507/mm2) compared with specimens without lesions (8.42%; 2375/mm2). In contrast, Langerhans' cell area and number in skin without lesions were similar to controls (10.26%; 2968/mm2).

CONCLUSIONS

Langerhans' cells were significantly reduced in skin with lesions of chronic GvHD but not in skin without lesions from the same patient, suggesting that the reduction is a direct consequence of GvHD and not linked to immunosuppressive drugs or late effects of conditioning regimens. In long term bone marrow transplant recipients, Langerhans' cells are derived mainly from the donor cells; therefore, this result suggests the occurrence of autoreactive phenomenon in chronic GvHD.

Immunohistochemical study of skin lesions in acute and chronic graft versus host disease following bone marrow transplantation

Allogeneic bone marrow transplantation (BMT) is the therapy of choice for a variety of malignant and nonmalignant disorders; however, a major constraint to successful BMT is graft versus host disease (GVHD). Skin lesions are the earliest presentation of GVHD. Donor-derived cytotoxic T lymphocytes are the effector cells responsible for lesions in the skin and other tissues. Here we show that most skin-infiltrating lymphocytes, in all forms of GVHD, are memory T cells with a predominance of CD4+ cells in the dermis and CD8+ cells in the epidermis. Relatively little attention has been focused on the adhesive phenotype of keratinocytes in GVHD. In this study, immunohistochemical analyses of skin biopsies from BMT patients with acute or chronic GVHD were conducted, with particular emphasis on antigen-presenting cells (APCs) and on keratinocytes. The distribution of APCs in the epidermis (Langerhans' cells) was investigated. Keratinocytes were analyzed for the expression of human leukocyte antigen DR locus (HLA-DR) and of a novel integrin, alpha10.1.2 beta1, which is detected in the basal layer of normal epidermis. Langerhans' cells were decreased in all grades of acute GVHD, but the epidermal APC network was reconstituted in chronic GVHD. HLA-DR was expressed by keratinocytes in grade 2 and 3 acute GVHD lesions, but not in two of three chronic GVHD cases, and in the regression phase of acute GVHD. Integrin chains alpha10.1.2 and beta1 were detected in the epidermal basal cell layer of most GVHD cases but they were also expressed in suprabasal keratinocytes of both acute and chronic GVHD. This latter finding indicates that a proliferative response uncoupled from differentiation occurs in keratinocytes in the course of GVHD.

Functional expression of minor histocompatibility antigens on human peripheral blood dendritic cells and epidermal Langerhans cells

Adequate presentation and cell surface expression of foreign minor histocompatibility antigens (mHag) to allogeneic T cells can lead to graft versus-host disease (GvHD) after HLA matched bone marrow transplantation (BMT). Cells of the dendritic cell (DC) lineage, including epidermal Langerhans cells (LC), are the most potent inducers of primary alloreactive T cell responses in vivo and in vitro. To explore the possible role of peripheral blood DC and of skin derived LC in the induction of alloimmune responses against mHag, we analysed the functional expression of mHag on these professional antigen-presenting cells (APC). To this end, cytotoxic T cell (CTL) clones specific for mHag H-Y and HA-1 to HA-4 were used to demonstrate the presence of these antigens on highly purified DC and LC. Our results demonstrate that, like other cells of the hematopoietic lineage, DC and LC express all the mHag tested for. The functional expression of mHag on these potent APC suggests their involvement in the induction of mHag specific GvH directed T cell responses after allogeneic BMT.

A case of infantile febrile psoriasiform dermatitis

An infant suffered from psoriasiform dermatitis complicated by severe constitutional symptoms. During his 12 months of hospitalization, the symptoms exacerbated periodically despite numerous therapeutic trials. Histologic findings revealed lichenoid psoriasiform dermatitis with striking eosinophilic necrosis of epidermal cells and satellite cell necrosis. Immunohistochemically, CD1+ Langerhans cells had almost disappeared, and CD8+ cytotoxic-suppressor T cells were predominant over CD4+ helper-inducer T cells in the epidermis. These findings in the skin biopsy specimens suggested some similarity to graft-versus-host disease but no known cause of that disorder was proved. Finally, methotrexate was effective. The patient became afebrile, and his skin lesions improved, leaving almost no scarring. This patient seems to have had specific clinical features that do not correspond with any of the known dermatitis. Clinical, histologic, and laboratory findings did not uncover any etiologic factors.

Reappraisal of histologic features of the acute cutaneous graft-versus-host reaction based on an allogeneic rodent model

We employed a rat model of complete major histocompatibility complex-mismatched allogeneic bone marrow transplantation to better characterize the histologic expression of the acute cutaneous graft-versus-host reaction (GVHR), compared with changes due to the preparative regimen. Cyclosporin A abolished the development of this GVHR. Low levels of dyskeratotic cells were present in all groups (allogeneic and syngeneic transplants with and without cyclosporin A) and, alone, were insufficient to diagnose a cutaneous GVHR. A consistent histologic feature of the GVHR was significant lymphoid infiltration of the dermis. The pattern of cytotoxic folliculitis involved follicular epithelium above the entry of sebaceous glands. Immunostain for major histocompatibility complex class II, IA, and IE antigens revealed that dendritic cells within the follicle were limited to this upper region and that lower follicular epithelium did not upregulate expression with evolution of the GVHR. Based on this model, we conclude 1) that the diagnostic scheme for the acute cutaneous GVHR should include lymphoid infiltration of the dermis, 2) that the preparative regimen (including total body irradiation) induces persistent low levels of dyskeratotic cells (two to three cells/linear mm of epidermis), and 3) that the pattern of follicular involvement may relate to the distribution of dendritic cells and to an inability of lower follicular epithelium to upregulate major histocompatibility complex class II antigens.

Superantigenic staphylococcal exotoxins induce T-cell proliferation in the presence of Langerhans cells or class II-bearing keratinocytes and stimulate keratinocytes to produce T-cell-activating cytokines

Several staphylococcal toxins are among a growing number of immunostimulatory molecules called "superantigens" because of their ability, when presented by appropriate major histocompatibility complex class II+ accessory cells, to activate essentially all T cells bearing particular T-cell receptor V beta gene segments. We have examined the ability of murine epidermal Langerhans cells and/or keratinocytes to act as accessory cells in the T-cell response to the superantigens staphylococcal enterotoxin B and exfoliative toxin, also known as epidermolysin. Purified murine splenic T cells were stimulated with staphylococcal enterotoxin B or exfoliative toxin in the presence of Langerhans cells--enriched epidermal cells from normal mice or epidermal cells isolated from mice pretreated with recombinant interferon-gamma, a procedure that induces the expression of major histocompatibility complex class II molecules on keratinocytes. The data show that both Langerhans cells and class II-bearing keratinocytes can act as accessory cells in the T-cell response to staphylococcal enterotoxin B and exfoliative toxin. We also observed that both human and murine keratinocytes cultured in the presence of staphylococcal enterotoxin B or exfoliative toxin produce increased amounts of cytokine(s) capable of stimulating thymocytes and D10 cells, and that this toxin activity is independent of the level of expression of class II on keratinocytes. Studies by enzyme-linked immunosorbent assay showed that staphylococcal enterotoxin B stimulates keratinocytes to produce tumor necrosis factor-alpha but not interleukin-1, suggesting tumor necrosis factor-alpha and perhaps other cytokines are responsible for the T-cell proliferative activity. These results demonstrate that two distinct epidermal constituents (i.e. Langerhans cells and keratinocytes) can serve as accessory cells in the responses of T cells to superantigenic bacterial toxins. It is possible that such toxins contribute to the pathogenesis of a variety of skin diseases by either locally activating T cells bearing particular V beta genes and/or enhancing keratinocyte production of immunomodulatory cytokines.

HLA class II+ human keratinocytes present Mycobacterium leprae antigens to CD4+ Th1-like cells

In a variety of inflammatory skin diseases like leprosy, keratinocytes (KC) are induced to express MHC class II molecules and may therefore serve as antigen-presenting cells (APC) for MHC class II restricted T cells infiltrating the lesions. However, KC have been thought to be improper APC for MHC class II restricted T cells and to drive T cells into an anergic rather than into an activation state. We evaluated this issue in relation to leprosy and tested whether HLA-DR+ KC could present M. leprae antigens to well-defined, CD4+, cytotoxic as well as proliferative, Th1-like cell clones. Using a recently developed sensitive assay system which employs intact layers of basal KC as APC we found that most T-cell clones (6/8) lysed HLA-DR+ KC pulsed with M. leprae antigens. KC were only recognized after induction of HLA-DR expression by IFN-gamma, in an antigen-specific and HLA class II restricted manner. All T-cell clones tested also showed significant proliferation and IFN-gamma production in response to M. leprae antigens presented by HLA-DR+ KC, arguing against a KC dependent anergizing effect on T cells. Thus, HLA class II+ KC can function as proper APC for HLA class II restricted CD4+ Th 1-like cells. It seems therefore possible that antigen presentation by KC contributes to the local cell-mediated immune responses in DTH lesions.

Specificity of T cells invading the skin during acute graft-vs.-host disease after semiallogeneic bone marrow transplantation

The mechanisms responsible for skin lesions during acute graft-vs.-host disease (aGVHD) after allogeneic bone marrow transplantation (BMT) are poorly understood. The exact role of various effector cell populations and "major" (particularly HLA-DP) or "minor" antigens as target molecules is not known. To investigate the nature of cells responsible for tissue injury, we cultured T cells from skin biopsy first with interleukin 2 (IL-2) alone and then in polyclonal activation conditions to avoid in vitro antigenic sensitization before specificity testing. We applied this method to two biopsies performed during aGVHD after semiallogeneic BMT and obtained cytotoxic T cells against four graft mismatches: CD8+ T cells against HLA-A2.2 and HLA-B27 and CD4+ T cells against HLA-DP101 and HLA-DP401. This demonstrates that T cells with documented specificity can be obtained from an aGVHD lesion without antigenic selection. Moreover, these data directly implicate DP as a potential target antigen for aGVHD.

Epidermal Langerhans cells after allogeneic bone marrow transplantation: depletion by chemotherapy conditioning regimen alone

Depletion of Langerhans cells (LC) is known to follow bone marrow transplantation (BMT) and is thought to be mainly related to pretransplant radiation and chemotherapy conditioning regimens. We studied sequential biopsies of clinically normal skin of 22 thalassemic and leukemic patients undergoing allogeneic BMT who had received only chemotherapy (busulfan and cyclophosphamide) as conditioning regimen. LC were identified immunohistochemically using antibodies against CD1a and HLA-DR antigens, and their number expressed per square mm of epidermal vertical section, the latter measured by computerized image analysis. After the preparatory regimen, the number of LC decreased progressively in both leukemic and thalassemic patients. CD1a+ and HLA-DR+ epidermal cells were reduced, respectively, to 68.5% and 64.5% of their original number around Day 2, and to 23.1% and to 18.2% around Day 17. By this time, electron microscopic examination of selected biopsies confirmed the depletion of LC. Variable repopulation was observed between Days 40 and 60. Our results indicate that a conditioning regimen based exclusively on high dose chemotherapy depletes epidermal LC early after BMT, and that such depletion is not related to the development of acute graft-versus-host disease.

Functional analysis of HLA-DR-expressing keratinocytes from tuberculin reactive skin

We examined the functional roles of HLA-DR+ keratinocytes which were induced in vivo from tuberculin reactive skin. At 4 days after intradermal PPD injection, about 80% of keratinocytes obtained from the tuberculin reactive area expressed DR antigens. In 14 of 18 individuals examined, PPD-pulsed DR+ keratinocyte fraction induced autologous T-cell proliferation. The proliferative response was PPD-dependent, antigen specific; it depended upon DR expression by the keratinocyte fraction, because it did not occur in the presence of the PPD-nonpulsed DR+ keratinocyte fraction and was completely blocked by mouse monoclonal antibody to HLA-DR. However, the antigen-presenting capacity of the DR+ keratinocyte fraction appeared to be less than that of monocytes or the DR+ epidermal cell fraction. The DR+ keratinocyte fraction was also able to stimulate allogeneic T-cell DNA synthesis, but the DR- keratinocyte fraction could not. The possible influences of contaminant Langerhans cells and mononuclear cells in the DR+ keratinocyte fraction were considered to be unlikely. These results suggest that DR+ keratinocytes, which are induced in vivo, can both present the antigen to autologous T cells and stimulate allogeneic T cells.

Differential expression of Ia by murine keratinocytes and gut epithelium in response to recombinant gamma-interferon

Keratinocyte expression of class II antigens (HLA-DR, human; Ia, murine) is associated with certain cutaneous diseases, especially those marked by the infiltration of immune and inflammatory cells into the skin. It has been shown that interferon-gamma (IFN-gamma) is capable of inducing human keratinocytes to express HLA-DR. Similar results, however, have not been duplicated in murine systems. The purpose of this study was to determine whether IFN-gamma was capable of inducing murine keratinocyte expression of Ia in vivo in an experimental model in which epithelial cells in a variety of organs were shown to express Ia after the i.v. injection of IFN-gamma. Recombinant murine IFN-gamma was injected into BALB/c mice. Biopsies of skin and intestine were analyzed by indirect immunoperoxidase to identify Ia-expressing keratinocytes and mucosal cells, respectively. Interferon-gamma was administered as either: 1) a single s.c. injection, 2) multiple i.v. injections of increasing doses (10(3)-10(5) U/d) on 3 consecutive d, or 3) i.p. injections of 5 X 10(4) U/d or 5 X 10(5) U/d on 6 consecutive d. At all i.v. and i.p. injection doses, the intestinal villi mucosal cells were induced to express Ia. Keratinocyte expression of Ia, however, was observed only in animals that received the two higher i.p. doses. Procedures to augment Ia expression, e.g., combined treatment with pertussis toxin, dinitrofluorobenzene, tumor necrosis factor, and indomethacin, did not enhance the ability of IFN-gamma to induce keratinocyte expression of Ia. We conclude that: 1) high doses of IFN-gamma are required to induce murine keratinocyte Ia expression in vivo and 2) low doses of IFN-gamma, although capable of inducing intestinal mucosal cells to express Ia, do not induce keratinocyte Ia expression.

Keratinocyte expression of OKM5 antigen in inflammatory cutaneous disease

Keratinocyte expression of the monocyte/macrophage surface antigens defined by OKM1 and OKM5 antibodies (Ortho Diagnostics) was examined using the peroxidase anti-peroxidase immunohistochemical technique. A range of inflammatory cutaneous disorders were investigated, including lichen planus, psoriasis and atopic dermatitis. Positive suprabasal keratinocyte expression of OKM5 antigen was observed in all disorders, while keratinocyte staining with OKMI antibody was consistently negative. These results provide further evidence that keratinocytes may play an important role in cutaneous immune responses. Furthermore, they are consistent with the recent observation that HLA-DR positive keratinocytes may modulate cutaneous immunological reactions by inducing T-cell unresponsiveness.

Differential expression of major histocompatibility complex class II antigens on human keratinocytes

Skin biopsies from 136 patients with 30 different dermatoses and eight biopsies of normal skin were investigated with the avidin-biotin-peroxidase complex method with regard to the expression of major histocompatibility complex class II antigens human leukocyte antigen (HLA) HLA-DR, HLA-DQ, HLA-DP on keratinocytes. In normal skin the expression of these antigens was restricted to acrosyringia and Langerhans cells. In the dermatoses investigated HLA-DR was found in 51.5% (70 of 136), HLA-DQ in 24.3% (33 of 136), and HLA-DP in 20.5% (8 of 39). In 37 cases (27.2%) only HLA-DR could be detected, whereas in 33 cases (24.3%) HLA-DR was expressed jointly with HLA-DQ. Coexpression of HLA-DR and HLA-DQ was found especially often in cutaneous T cell lymphomas, skin tumors, and inflammatory dermatoses.

Products of class II major histocompatibility complex gene subregions are differentially expressed on keratinocytes in cutaneous diseases

Aberrant expression of class II major histocompatibility complex (MHC) subregion antigens by keratinocytes was examined immunohistochemically in a range of cutaneous disorders. Although cell surface expression of human lymphocyte antigen (HLA)-DR was observed, HLA-DQ and HLA-DP were not expressed in any disorder investigated except for allergic contact dermatitis. Epidermal Langerhans cells expressed antigens of all three subregions on the cell surface. Differential expression of class II MHC subregion antigens may be related to tissue levels of gamma-interferon or to different functions of each subregion.

Photoimmunology: the mechanisms involved in immune modulation by UV radiation

Ultraviolet radiation (UVR) may be the most prevalent agent that man encounters in his environment. As a result, certain biological adaptations take advantage of the beneficial effects of UVR exposure, e.g. the photoactivation steps involved in vitamin D metabolism. In this regard, UVR plays an important role in maintaining our good health; however, it must be noted that UVR is potentially the most harmful naturally occurring agent in our environment. Thus, it appears that several mechanisms have evolved to protect us against the detrimental effects of UVR overexposure. Although epidermal melaninization or "tanning" may be the most obvious example of these processes, we would argue that adoptive mechanisms within the immune system also provide protection against UVR-induced skin damage. It is now known that UVR affects the distribution and functional activities of various immunocompetent cells within the skin, as well as modifying the production of inflammatory and hematopoietically active cytokines. This review will focus on the known mechanisms involved in the immune modulatory effects of UVR and how adoptive immune responses to UVR-induced skin damage contribute to specific pathological processes.

HLA-DR expression by hair follicle keratinocytes in alopecia areata: evidence that it is secondary to the lymphoid infiltration

There is evidence suggesting that alopecia areata (AA) may have an autoimmune pathogenesis, and it was recently reported that keratinocytes in the bulb of some hair follicles affected by this condition express class II HLA (HLA-DR) antigens, which are not present on the same cells in normal tissue. Since it has been proposed that an analogous ectopic HLA-DR expression by epithelial cells in other organs might be an early event leading to organ-specific autoimmunity, we have investigated the sequence in which perifollicular mononuclear cell (MNC) infiltration and ectopic HLA-DR expression on keratinocytes appear in recent-onset and long-standing cases of AA by immunostainings of affected and unaffected areas with monoclonal antibodies against leukocyte and HLA-DR antigens. In recent-onset AA lesions, ectopic HLA-DR expression on hair follicle keratinocytes was found only occasionally (in 3 out of 247 follicles examined) and was restricted to biopsies from the affected areas. This prevalence was significantly lower than the prevalence of hair follicles showing perifollicular MNC infiltrates in the same biopsies, and was also significantly lower than the prevalence of hair follicles showing ectopic HLA-DR expression on keratinocytes in the affected areas of longstanding cases. These findings suggest that in AA lesions the perifollicular MNC infiltration precedes the ectopic HLA-DR expression on hair follicle keratinocytes, and therefore argue against the notion of a primary role for that ectopic HLA-DR expression on epithelial cells in triggering the putative autoimmune response in AA.

Role of Langerhans cells in epidermotropism of T cells

Certain T lymphocytes display a specific affinity for the epidermis (epidermotropism). Recent studies have suggested that Ia+ Langerhans cells (LCs) are possible targets for the epidermotropism. A variety of self-Ia-reactive cloned T cells were tested for their ability to migrate into the epidermis following intradermal inoculation into the footpads of syngeneic mice. Clone BB5 was chosen as representative of the epidermotropic T cells. We investigated whether the depletion of Ia+ LCs from the epidermis by tape-stripping could alter the migration of BB5 cells into the epidermis. The epidermal invasion of BB5 cells was markedly impaired in those mice whose LCs were depleted by 95% after repetitive tape-stripping. Because production of epidermal-derived thymocyte activating factor (ETAF) by the epidermal cells was augmented after repetitive tape-stripping, the diminished migration of BB5 cells into tape-stripped epidermis did not result from a decrease in ETAF production which is thought to attract T cells chemotactically. These results suggest that Ia+ LCs may play an inductive role in the preferential migration of T cells into the epidermis.

Comparison of alloimmunogenicity of Langerhans cells and keratinocytes from mouse epidermis

Among lymphoreticular cells, Langerhans cells and splenic dendritic cells stand alone in their capacity, when hapten-derivatized, to induce vigorous immune responses, irrespective of route of inoculation, including intravenous. We have examined the comparative efficiency of relatively purified populations of Langerhans cells and their epidermal companions, keratinocytes, to induce alloimmunity when injected intravenously into adult mice. It was found that as few as 100 BALB/c Langerhans cells injected intravenously into C3H mice are capable of inducing specific sensitization as evidenced by subsequent accelerated rejection of BALB/c skin grafts. By contrast, 10,000 BALB/c keratinocytes failed to immunize similarly injected C3H recipients. These results emphasize the unparalleled capacity of Langerhans cells to induce sensitization, and they point to Langerhans cells, among cells within the epidermal compartment, as dominant in the alloimmunogenic potential of skin grafts.

Interleukin-2 stimulates resting human T lymphocytes' response to allogeneic, gamma interferon-treated keratinocytes

In order to investigate the biologic significance of HLA-DR expression by human keratinocytes, we have examined the possibility that DR-positive keratinocytes become alloantigen presenting cells for resting T cells in the presence of interleukin-2. Using this system, gamma interferon-treated, DR-positive keratinocytes stimulate the proliferation of allogeneic, resting T cells approximately 3-fold whereas non-gamma interferon-treated, DR-negative keratinocytes do not. Because a monoclonal antibody against recombinant gamma interferon inhibits this proliferation, the stimulation is dependent on pre-incubation with gamma interferon. By contrast, since the stimulation is not inhibited by a monoclonal antibody against HLA-DR, it is not clear that the stimulation is due to class II antigen expression by keratinocytes. To rule out that gamma interferon increases the expression of class I antigens, leading to stimulation of resting T cells on that basis, we determined whether gamma interferon treatment enhances class I antigen expression by keratinocytes. The lymphokine treated cells did not demonstrate more class I antigen expression than untreated keratinocytes. Thus, the observed stimulation of allogeneic, resting T cells by gamma interferon-treated keratinocytes in the presence of IL-2 is not due to increased class I antigen expression but is due to other cell surface antigen(s) induced by recombinant gamma interferon treatment. These results suggest that gamma interferon-exposed keratinocytes in the presence of interleukin-2 may augment the activation of resting T lymphocytes and, in this manner, may contribute to cutaneous inflammation.

Isolation and structure of an epidermal mitosis inhibiting pentapeptide

A mitosis inhibiting peptide pyroGlu-Glu-Asp-Ser-GlyOH has been isolated from mouse skin extracts. Both the biological and a synthetic peptide with the same structure reversibly inhibit epidermal mitoses in a curvilinear fashion after intraperitoneal injection. The two compounds are chromatographically identical.

Amplification of T-cell response to PPD by epidermal cell suspensions containing HLA-DR-expressing keratinocytes

The biological importance of the presence of class II transplantation antigens on highly differentiated epithelial cells such as keratinocytes in certain conditions, is still unknown. We have therefore investigated the antigen-presenting capacity of separated human epidermal cells obtained from tuberculin-reactive skin 6 days after intradermal injection of purified protein derivative (PPD). Earlier studies have shown a high percentage of HLA-DR-expressing keratinocytes at this time. Peripheral adherent blood cells were used as control stimulator cells and highly purified peripheral blood T lymphocytes as responder cells. The T-cell proliferation in response to PPD in the presence of autologous epidermal cells from normal and tuberculin-reactive skin was measured by [3H]thymidine incorporation on day 6. The latter cell population, 76-86% of which consisted of HLA-DR-expressing cells as judged by immunocytochemistry, induced a greater T-cell response to PPD than do normal epidermal cells. This discrepancy in the T-cell proliferation could not be explained by a difference in the numbers of anti-Leu 6 or anti-HLA-DQ-reactive Langerhans cells. The present data indicate that epidermal cell suspensions containing HLA-DR-expressing keratinocytes induce a greater T-cell response to PPD than do normal epidermal cells.

Epidermal class II human lymphocyte antigen expression in atopic dermatitis: a comparison with experimental allergic contact dermatitis

Epidermal patterns of class II human lymphocyte antigen (HLA) expression in atopic and allergic contact dermatitis have been compared, using monoclonal antibodies recognizing each subregion. Expression of class II human lymphocyte antigens on keratinocytes has been confirmed in allergic contact dermatitis, while we have found them to be absent in atopic dermatitis. This finding argues that cell-mediated immune responses, possibly to epicutaneous contact with allergen, are not implicated in the pathogenesis of atopic dermatitis.

Monoclonal antibody analysis of skin in chronic murine graft vs host disease produced across minor histocompatibility barriers

Chronic graft vs host disease (GVHD) across minor histocompatibility barriers was produced in BALB/c mice by the injection of spleen cells from B10.D2 mice. Changes in the skin were analyzed in frozen sections using a panel of monoclonal antibodies detected by immunoperoxidase methods. Compared to control animals, a number of changes occurred in the skin of animals with chronic GVHD. In the epidermis, there were increased numbers of Thy-1-positive dendritic cells; keratinocytes expressed Thy-1 and Ia antigens. T lymphocytes appeared in both dermis and epidermis. In the early stages, cells with "helper" and "suppressor" phenotypes were present, while at later times "helper" cells remained in the epidermis and "suppressor" cells remained in the dermis. Cells bearing markers of macrophages were prominent in both dermis and epidermis after the second week. Of great interest was the appearance of spindle-shaped cells in the dermis which expressed Thy-1 and Ia. These cells resembled fibroblasts which may be activated to produce the excess collagen seen in the skin of chronic GVHD.

Kinetics of mast cell, fibroblast, and epidermal cell proliferation during acute graft-versus-host disease in the neonatal rat

Acute graft-versus-host disease (GVHD) was induced in newborn Brown-Norway (BN) and DA rats by i.v. injection of 3 X 10(7) Lewis (L) lymph node cells. Control BN and DA rats received syngeneic cells. Rats were injected i.v. with [methyl-3H]thymidine for 1 h before being killed at 1, 2, 4, 5, 6, 8, 10, 11, 12, 13, and 14 days after the cellular inoculum. A piece of ventral abdominal skin was removed. Autoradiography was used to determine cell proliferative activity (labeling index, LI) in mast cells and fibroblasts of the dermis and basal cells of the epidermis. In addition, the number of mast cells per high-power field was determined for all 4 groups of rats: control DA, GVHD-DA, control BN, and GVHD-BN. Only GVHD-BN rats demonstrated extensive dermatitis. The LI of mast cells, fibroblasts, and basal cells decreased in control rats with increasing age. Although there were differences between DA and BN rats, there was a general pattern of increased proliferation of mast cells at early time points of GVHD followed by a decrease to or below control levels. The number of mast cells per high-power field also increased at early time intervals in both the DA and BN GVHD rats, but decreased significantly at later time points. These data confirm previous studies on chronic GVHD which demonstrated a decrease in the number of mast cells in the skin. Fibroblast LI was decreased at day 1 in both DA and BN GVHD rats. In GVHD-DA, fibroblast LI remained depressed while GVHD-BN demonstrated a second peak in LI at day 10 before declining below control levels. The most prominent basal cell response occurred in GVHD-BN between days 6-14 and is probably indicative of an attempted reparative response associated with GVHD dermatitis in this species. These data demonstrate that the activation of mast cells (proliferation and subsequent degranulation) correlates temporally with cell kinetic alterations occurring in the dermis and epidermis during acute GVHD.

Keratinocyte expression of MHC class II antigens in allergic sensitization and challenge reactions and in irritant contact dermatitis

Keratinocytes expressed major histocompatibility complex class II antigens during the development of irritant contact dermatitis, and during the induction of contact hypersensitivity, as well as in established allergic contact dermatitis. A battery of anti-class II monoclonal antibodies, some of which are specific for class II subregion products (DP, DQ, DR), was used in an immunohistochemical study of the sequential changes in the allergic challenge reactions to dinitrochlorobenzene (DNCB) and nickel, the irritant response to anthralin, and the induction of sensitization to DNCB. The induction of keratinocyte class II expression paralleled the influx of Leu-3a+ T cells into the skin and had occurred by 24 or 48 h in each type of reaction. Differential expression of class II subregion products on keratinocytes was noted: DR was the most frequently expressed molecule, followed by DP and DQ, although in the irritant response, DP expression was not observed. The importance of these observations can be decided only by functional studies.

Development and characterization of trinitrophenyl-specific L3T4+ T-cell clones

Two antigen-specific, L3T4+, Lyt-2- T-cell clones have been developed from (C57BL/6 x C3H/HeN) F1 mice epicutaneously sensitized to trinitrochlorobenzene. Genetic mapping and antibody blocking studies demonstrated that both of these clones have specificity for trinitrophenyl in association with Ek beta:Ek alpha or Eb beta:Ek alpha Ia molecules. One of the clones (D-8) also recognizes nonhaptenated cells expressing Es beta:Ek alpha. These clones should provide useful tools for the assessment of the signals required for triggering immune responses to haptenated self antigens.