Balance of Treg vs. T‐helper cells in the transition from symptomless to lesional psoriatic skin

Background In the pathogenesis of psoriasis, proinflammatory T cells are strongly involved in the inflammatory process, where regulatory T‐cell (Treg) function is impaired. Objectives As effective Treg function is associated with a numerical balance between Treg and effector T cells, we wondered whether Treg/T‐helper cell ratios may be associated with certain stages of the inflammatory process. We opted for the margin zone model as a dynamic approach. Methods From nine patients with chronic plaque psoriasis, 3‐mm punch biopsies were obtained from the centre and margin of the lesion, perilesional skin and distant uninvolved skin. Skin biopsies of 10 healthy volunteers were included as a control. Samples were analysed using immunohistochemistry and immunofluorescence. Results In the transition from symptomless to lesional skin, a significant increase of CD3+, CD4+ and Foxp3+ cells was found. In seven of nine patients the ratio of Treg (Foxp3+) vs. CD4+ T cells was higher in the distant uninvolved skin than in the perilesional and lesional skin. Interestingly, the Foxp3/CD4 ratio in the distant uninvolved skin was even higher than in the skin of healthy controls. Notably, we found that most of the interleukin (IL)‐17 expression was not related to CD4+ cells, but to mast cells. Conclusions The relatively high Foxp3/CD4 ratio in symptomless skin of patients with psoriasis suggests an active immune controlling mechanism distant from the psoriatic plaque. In the margin and centre of the plaque the ratio appears skewed towards effector cells associated with inflammation. IL‐17, an important driver of the psoriatic process, is mostly related to mast cells, and only sporadically to T cells.     

Primary cutaneous T cell lymphomas: photochemotherapy immunomodulation with analysis of the inflammatory‐expansive cellular dynamic

Primary cutaneous T cell lymphomas (CTCLs) are characterized by hyperproliferation of malignant CD4+ T cells with primary localization on the skin. The common characteristics are the migration of the malignant mature T‐lymphocytes into the epidermis, with hyperproliferation of malignant CD4+ T cells and epidermotropism. Sézary syndrome (SS) is the leukemic variant. It was established that CTCLs arise from a clonal expansion of CD4+ T cells with an identical rearrangement of the T cell receptor. The purpose of this study was to evaluate the immunomodulation effect of photochemotherapy‐A (psoralen plus ultraviolet A (PUVA)). Pre‐ and post‐PUVA punch skin biopsies of nine patients were stained immunohistochemically for CD34+, CD8+, CD7+, CD16+, CD56+, CD1a+, Bcl2+, p53+, CD45RA+, and CD45RO+ cells. The results showed a pre‐PUVA cells/mm² without significant difference among expansive or reactive cells. Post‐PUVA analysis showed a significant decrease in the mean of expansive‐reactive cells. PUVA immunomodulated decreasing cellular infiltrate. These findings could contribute to the comprehension of how PUVA acts. We achieved ectoscopic clearance of the lesions, although post‐PUVA, there still was a mononuclear pathological infiltrate. This result demonstrates that the PUVA treatment should only be withheld when the histological analysis is normal.     

Differential expression of cytokines in UV-B-exposed skin of patients with polymorphous light eruption: correlation with Langerhans cell migration and immunosuppression

BACKGROUND: Disturbances in UV-induced Langerhans cell migration and T helper (T(H)) 2 cell responses could be early steps in the pathogenesis of PLE. OBJECTIVE: To establish whether UV-B exposure induces aberrant cytokine expression in the uninvolved skin of patients with polymorphous light eruption (PLE). DESIGN: Immunohistochemical staining and comparison of microscopic sections of skin irradiated with 6 times the minimal dose of UV-B causing erythema and the unirradiated skin of patients with PLE and of healthy individuals. SETTING: University Medical Center (Dutch National Center for Photodermatoses).Patients Patients with PLE (n = 6) with clinically proven pathological responses to UV-B exposure and normal erythemal sensitivity. Healthy volunteers (n = 5) were recruited among students and hospital staff. MAIN OUTCOME MEASURES: Expression of cytokines related to Langerhans cell migration (interleukin [IL] 1, IL-18,and tumor necrosis factor [TNF] alpha); T(H)2 responses (IL-4 and IL-10); and T(H)1 responses (IL-6, IL-12, and interferon gamma). Double staining was performed for elastase (neutrophils), tryptase (mast cells), and CD36 (macrophages). RESULTS: The number of cells expressing IL-1beta and TNF-alpha was reduced in the UV-B-exposed skin of patients with PLE compared with the skin of healthy individuals (P<.05 for TNF-alpha). No differences were observed in the expression of T(H)1-related cytokines but fewer cells expressing IL-4 infiltrated the epidermis of patients with PLE 24 hours after irradiation (P =.03). After UV exposure TNF-alpha, IL-4, and, to a lesser extent, IL-10 were predominantly expressed by neutrophils. CONCLUSIONS: The reduced expression of TNF-alpha, IL-4, and IL-10 in the UV-B-irradiated skin of patients with PLE appears largely attributable to a lack of neutrophils, and is indicative of reduced Langerhans cell migration and reduced T(H)2 skewing. An impairment of these mechanisms underlying UV-B-induced immunosuppression may be important in the pathogenesis of PLE.     

Leu-8/CD7 antigen expression by CD3+ T cells: comparative analysis of skin and blood in mycosis fungoides/Sézary syndrome relative to normal blood values.

Deficiencies of Leu-8 and CD7 antigens are exhibited by CD3+ T cells in the skin lesions of most patients with mycosis fungoides/Sézary syndrome. To determine whether these antigenic abnormalities are limited to involved skin, we studied Leu-8/CD7 expression in 21 skin lesions of mycosis fungoides/Sézary syndrome obtained from 16 patients and compared them with their peripheral blood leukocytes obtained concurrently. There was no correlation between Leu-8/CD7 values in skin lesions versus blood. Blood values were relatively uniform; most patients had 50% or greater of CD3+, Leu-8+ T cells and CD3+, CD7+ T cells. In contrast, skin values were highly heterogeneous; most patients lacked expression of Leu-8 or CD7 by the majority of lesional CD3+ T cells. Furthermore, Leu-8/CD7 antigen deficiency was present in lesional skin in one patient with mycosis fungoides but not in her concurrently sampled pityriasis lichenoides chronica or blood. These findings suggest that Leu-8/CD7 antigen deficiencies in skin lesions of mycosis fungoides/Sézary syndrome do not represent generalized antigenic abnormalities of CD3+ T cells in other body compartments and that within the skin, these deficiencies are disease specific within individual patients with more than one dermatosis. Comparative peripheral blood immunophenotyping of the patients with mycosis fungoides/Sézary syndrome and of the control subjects indicated that the control ranges of CD3+/Leu-8+ and CD3+/CD7+ T cells (33% or greater) extend lower than reported previously (60% or greater) and suggested that leukemic involvement in patients with mycosis fungoides/Sézary syndrome may correlate with percentages of CD3+, Leu8+ and/or CD3+, CD7+ T cells that fall below the revised control range.     

T-cell receptor-gamma/delta bearing lymphocytes in normal and inflammatory human skin

Murine dendritic epidermal T cells (DETC) were recently reported to express T-cell receptor (TCR)-gamma/delta chains. In a search for the human equivalent of these cells, we tested normal and lesional skin with MoAb which react with the TCR-gamma/delta heterodimer. We performed indirect immunofluorescence (IF) on epidermal sheets, and alkaline-phosphatase-anti-alkaline-phosphatase complex (APAAP) on epidermal cell smears. Frozen skin sections from normal skin and various cutaneous lymphocyte infiltrates were also studied. A few CD3+ T lymphocytes were consistently found in normal epidermis. Most of these cells appeared to be TCR-alpha/beta +, and some CD4+ or CD8+. On epidermal sheets and cell smears, only a very small TCR-gamma/delta + cell population was visualized (less than 0.1% of the total). On normal skin sections, we observed 0 to 3 gamma/delta + cells per section. When present, they were often located in the epidermal basal layer, and were round or dendritic. Double immunolabeling revealed that gamma/delta + cells differed from CD1+ Langerhans cells, and that they had a similar phenotypic pattern as gamma/delta + peripheral lymphocytes (PBL): CD2+, CD3+, CD4-, and CD8-. Immunostaining from various inflammatory skin lesions showed that the dermal infiltrates included CD3+ T lymphocytes but virtually no gamma/delta + cells. Only a few gamma/delta + cells were found in some end-evolutive infiltrates. Taken together, these results strongly suggest that normal human epidermis occasionally harbors TCR-gamma/delta complex bearing lymphocytes, which constitute a small fraction of the CD3+ cutaneous T lymphocytes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Local involvement of antigen-presenting cells and activated T cells in perilesional and clinically uninvolved skin in pemphigus vulgaris

Biopsies obtained from both the perilesional areas and clinically uninvolved skin of patients with pemphigus vulgaris (PV) were studied for antigen-presenting cell and lymphocyte phenotype and/or activation phenotype using monoclonal antibodies in avidin-biotin-peroxidase complex staining. Perilesional PV skin contained CD4+ and CD8+ T lymphocytes as the predominant cell type, but cells with a potential antigen-presenting function displaying CD11b phenotype of monocyte/macrophages and, in particular, CD1 phenotype of Langerhans cells were also present. The number of mononuclear inflammatory cells was greater in perilesional than in clinically uninvolved PV skin, and so were the proportions of CD4+, CD8+, CD25+, Ia+ cells (p less than 0.01), and CD1+ Langerhans cells and transferrin receptor positive cells (p less than 0.05). These findings confirm and extend earlier observations on local involvement of immunocompetent cells in PV.     

Plasmacytoid dendritic cells are absent in skin lesions of polymorphic light eruption

BACKGROUND/PURPOSE: Polymorphic light eruption (PLE) is a common photodermatosis of potential autoimmune origin, and an overlap with lupus erythematosus (LE) has been described. Plasmacytoid dendritic cell (PDC)-induced expression of interferon (IFN)-alpha has been found to be present in LE skin lesions and plays a pivotal role in the pathogenesis of LE by promoting autoimmunity. We therefore asked whether PDCs may also be involved in the pathogenesis of PLE and searched for those cells [which can be identified by their high levels of interleukin (IL)-3 receptor alpha chain (CD123), combined with other cell markers such as CD68] in skin lesions. METHODS: Paraffin-embedded biopsy specimens from a total of 27 patients with clinically and histologically confirmed PLE (nine women, mean age 32.7 years, age range 18-43), LE (seven women, four men, CCLE: n=4, SCLE: n=2, lupus tumidus: n=5, mean age 48.5 years, age range 41-65) or psoriasis (four women, three men, mean age 43.3 years, age range 19-54) (as control group) were analyzed by immunohistochemical CD68/CD123 double staining. Quantification of the immunohistochemical staining was performed by visual cell counting of CD68-/CD123+, CD68+/123-, and CD68+/CD123+ cells separately in the epidermis and dermis of the samples in at least 10 random fields per sample at x 400 microscopic magnification by two of the investigators in a blinded fashion. RESULTS: Microscopic examination of the immunohistochemically stained sections revealed that CD68+/CD123+ cells were present in most specimens obtained from LE [10/11 (91%)] and psoriasis [6/7 (86%)] patients but not at all in those obtained from PLE patients. Quantification and statistical analysis of the dermal infiltrate revealed that CD68+/CD123+ cells were present at a mean+/-SEM field density of 5.6+/-1.3 in LE, 1.6+/-0.6 in psoriasis but totally absent in PLE (P=0.0010 vs. LE, P=0.0135 vs. psoriasis by an unpaired Student's t-test). CONCLUSION: The results confirm the potential significance of PDCs in LE and psoriasis, however the absence of PDCs in PLE contradicts the hypothesis that these cells might play a role in the latter disease.     

Identification of lesional CD4+ CD25+ Foxp3+ regulatory T cells in Psoriasis

BACKGROUND: Depletion of CD4+ CD25+ Foxp3+ naturally occurring regulatory T cells (T(reg)) induces autoimmune phenomena. These cells have not yet been fully characterized in the skin of psoriatic patients. OBJECTIVES: To prove that the Zenon immunofluorescent labeling technique is suitable for the demonstration of co-localization of T-cell markers and in particular to show the distribution of T(reg) in psoriatic skin. METHODS: In biopsies derived from normal and psoriatic skin, CD4+ CD25+, CD4+ CD45RO+, CD8+ CD25+, CD8+ CD45RO+ and CD4+ CD25+ Foxp3+ cells in the dermis and in the epidermis were immunophenotyped, using a quantitative immunofluorescent labeling technique (Zenon), analyzed and compared using image analysis. RESULTS: The immunofluorescent labeling technique was shown to be an easy and reliable tool to demonstrate co-localization of T-cell markers. In psoriasis, all pathogenic T-cell subsets (CD4+ CD25+, CD4+ CD45RO+, CD8+ CD25+ and CD8+ CD45RO+ cells) were significantly increased in the dermis and in the epidermis, as compared to normal skin (all p < 0.05). Using this labeling technique we were able to reveal CD4+ CD25+ Foxp3+ T(reg) in psoriatic dermis, but not in the dermis of normal skin (p < 0.0001). CONCLUSIONS: The Zenon immunofluorescence technique in combination with image analysis is suitable for the demonstration of co-localization of T-cell markers in tissue. Increased numbers of pathogenic T cells (CD4+ CD25+, CD4+ CD45RO+, CD8+ CD25+ and CD8+ CD45RO+) were shown in the dermis and epidermis, whereas CD4+ CD25+ Foxp3+ T(reg) were identified in psoriatic skin with a predilection for the upper dermis.     

Novel findings of Langerhans cells and interleukin‐17 expression in relation to the acrosyringium and pustule in palmoplantar pustulosis

Backgound Palmoplantar pustulosis (PPP) is a chronic and intensely inflammatory skin disease with pustules, erythema and scaling localized to the palms and soles. To date, no specific treatment is known. Earlier findings indicate the acrosyringium as the target for the inflammation. Objectives To identify specific features of the PPP inflammatory cell infiltrate and mediators of inflammation, which might provide insight into the pathogenesis and possible future treatment of the disease. Methods Skin biopsies were taken from 23 patients with typical PPP (23 from involved skin and seven from noninvolved skin) and from 18 healthy controls (10 nonsmokers, eight smokers). Cell infiltrates and inflammation mediators were studied with immunohistochemistry. Results A strong inflammation was observed in lesional skin of PPP. Our main findings of Langerhans cells and interleukin‐17 close to or in the acrosyringium differs from findings in psoriasis vulgaris. Other inflammatory cells such as CD4+, CD8+, regulatory T cells and CD11a+ cells were also accumulated close to the sweat duct in epidermis and papillary dermis. More CD4+, CD8+, Langerhans cells, plasmacytoid dendritic cells and a higher proportion of regulatory T cells/CD3+ cells were seen in noninvolved palmar skin from patients with PPP compared with healthy controls. Conclusions Our novel findings indicate that the inflammation in PPP is initiated by the ‘stand‐by’ innate immune system at the acrosyringium.     

Cutaneous T cell lymphoma with suppressor/cytotoxic (CD8) phenotype: identification of rapidly progressive and chronic subtypes

We identified nine patients with cutaneous T cell lymphoma in whom the neoplastic cells expressed the CD8 (T8) suppressor T cell phenotype instead of the more common CD4 (T4) helper T cell phenotype. Five had rapidly progressive disease characterized by distinctive papulonodular skin lesions (four patients), involvement of palms or soles (four patients) or oral cavity (two patients), and poor response to standard topical therapy (four patients). Histologic examination showed extensive epidermotropism often associated with pagetoid features. Immunoperoxidase studies revealed a novel aberrant T cell phenotype characterized by lack of expression of CD4 and CD2 (T11) but positive staining for CD3 (T3) and CD7 (3A1). In contrast, the neoplastic cells from four patients with clinically more chronic CD8+ cutaneous T cell lymphoma, although also commonly epidermotropic, had a different aberrant T cell phenotype similar to that often seen in CD4+ mycosis fungoides; that is, there was lack of expression of CD7 but a positive reaction to staining for CD2. In two cases the tumor cells acquired the CD7 antigen or lost the CD2 antigen with progression of the disease. Two cases were analyzed with Southern blotting and both showed rearranged DNA bands that confirmed the presence of clonal populations of T cells. Our findings suggest the following: (1) CD8+ cutaneous T cell lymphoma can be rapidly progressive or chronic. (2) These two types cannot be reliably distinguished by histologic features. (3) Rapid progression was associated with a CD2-, CD7+ phenotype whereas chronicity was associated with a CD2+, CD7- phenotype.     

Characterization of the dermal infiltrates in Jessner''s lymphocytic infiltrate of the skin, polymorphous light eruption and cutaneous lupus erythematosus: differential diagnostic and pathogenetic aspects

In the present study a comparative immunohistochemical study was performed on skin biopsies from of patients with Jessner's lymphocytic infiltration of the skin (LIS), polymorphous light eruption (PLE), discoid lupus erythematosus (DLE) and subacute cutaneous lupus erythematosus (SCLE) using a large panel of monoclonal antibodies against T cell differentiation antigens (CD3, CD4, CD8), immunoregulatory T cell subsets (CD7, 4B4, 2H4, Leu 8), B cells (CD22), activated cells CD25, OKT9, HLA-DR), Langerhans cells (CD1) and macrophages (Leu-M5). The results showed many similarities between LIS and PLE. The most important differences between these conditions and CDLE/SCLE were the high proportions of cells reactive with monoclonal antibody Leu-8 and the absence of T cells expressing HLA-DR antigens in LIS and PLE, suggesting absence of local T cell activation in these conditions. The differential diagnostic and pathogenetic aspects of these findings will be discussed.     

Epidermal Langerhans cells--a target for HTLV-III/LAV infection

Langerhans cells (LC) are bone marrow-derived, Ia+, CD1+, CD4+, ATPase+ dendritic antigen-presenting cells within the human epidermis. Since the CD4 molecule has been implicated as a receptor structure for HTLV-III/LAV (human T-cell leukemia virus/lymphadenopathy-associated virus), we asked whether LC from HTLV-III/LAV-seropositive individuals display signs of HTLV-III/LAV infection. In skin biopsies from 7/40 HTLV-III/LAV-infected persons (1 asymptomatic carrier, 2 patients with acquired immunodeficiency syndrome (AIDS)-related complex and 4 patients with AIDS), LC were the only epidermal cells to react with a monoclonal antibody specific for the HTLV-III core protein p17. A varying percentage of p17+ LC were morphologically altered with blunt dendrites and poorly demarcated cellular contours. In one of these biopsies, the presence of LC-associated viral particles characteristic of HTLV-III/LAV as well as cytopathic changes in approximately one-third of the LC population were demonstrated by electron microscopy. These results strongly suggest that LC may harbor HTLV-III/LAV. The infection of LC with this retrovirus may have deleterious consequences for the immunologic functions of this cell system and may thus contribute to both the acquisition of immunodeficiency and the infectious and neoplastic complications of AIDS.     

The skin immune system (SIS): distribution and immunophenotype of lymphocyte subpopulations in normal human skin

The complexity of immune response-associated cells present in normal human skin was recently redefined as the skin immune system (SIS). In the present study, the exact immunophenotypes of lymphocyte subpopulations with their localizations in normal human skin were determined quantitatively. B cells were not found to be present in normal human skin. Lymphocytes were always of T-cell type, and 90% of these T cells were clustered in 1-3 rows around postcapillary venules of the papillary vascular plexus or adjacent to cutaneous appendages. In such perivascular localizations, they were found to differ from their circulating counterparts in three ways. First, skin perivascular cells were found to be approximately evenly distributed over CD4+ inducer and CD8+ suppressor-cytotoxic T-cell subsets (mean CD4/CD8 ratio: papillary layer 0.96, reticular layer 0.99). Second, within the category of CD4+ inducer T cells, most were phenotyped as CD4+, 4B4+ helper inducer T lymphocytes, whereas CD4+, 2H4+ suppressor inducer T lymphocytes were found to be relatively rare (less than 5%). Third, the majority of skin perivascular T cells were activated as they expressed HLA-DR and interleukin 2 receptors. Intraepidermal, directly subepidermal, and other ("free") lymphocytes were mostly of the CD8+ suppressor-cytotoxic T-cell subset but accounted for less than 10% of the total number of lymphocytes. Intraepidermally localized T cells accounted for less than 2% of the total number of lymphocytes present in normal skin. Our results indicate that preferential perivascular localization of activated T lymphocytes is the characteristic of normal human skin. This might be a reflection of continuous antigen recognition upon endothelial cell presentation and/or continuous T cell-mediated endothelial cell activation thereby inducing enhanced antigen clearing by the skin's endothelium.     

Peripheral blood mononuclear cell subsets in patients with severe inherited forms of epidermolysis bullosa.

BACKGROUND AND DESIGN--Epidermolysis bullosa (EB) is a group of inherited disorders in which slight trauma to the skin results in blister formation. Patients with severe types of EB suffer cutaneous infections that sometimes progress to septicemia and cutaneous and gastrointestinal carcinomas that are locally aggressive and frequently metastasize. Previous studies have shown deficits in natural killer (NK) cell activity as well as in lymphokine and monokine production in patients with severe forms of EB. Alterations in peripheral blood mononuclear cells, however, which may reflect on immune functions in patients with EB, have received little attention. A prospective study was designed to ascertain if differences existed between subsets of peripheral blood mononuclear cells in patients with severe forms of EB vs healthy control subjects. Thirty patients with clinical and histologic diagnoses of EB and 30 healthy volunteers were studied. Flow cytometric analysis of labeled cells was performed. RESULTS--Absolute numbers of CD3+, CD2+, CD4+, CD19+, NK+, CD29+, and CD45R+ cells were lower in patients with severe types of EB in comparison with controls. The T cells showed decreased numbers of interleukin 2 receptors. An increase in numbers of CD20+, CD4+ CD8+, and CD4-CD8- cells was also observed in patients with severe types of EB. CONCLUSION--Alterations in monocyte and lymphocyte subsets known to affect host immune response were observed in patients with severe forms of EB. Quantitative changes relative to controls included decreased total numbers of T cells with greater decreases in helper cells, decreased NK cells, and a diminished number of interleukin 2 receptors. Such changes have been associated previously with a lower resistance to infections and to neoplasia. The changes in subsets correlated with the severity of the cutaneous and extracutaneous disease in the patients with EB.     

Epithelioid cell histiocytoma--histogenetic and kinetics analysis of dermal microvascular unit dendritic cell subpopulations

BACKGROUND: Epithelioid cell histiocytoma (ECH), also known as epithelioid fibrous histiocytoma, is a peculiar dermal tumor, which can mimic melanocytic, vascular, epithelial, or other histiocytic lesions. Thought to arise from dermal dendrocytes, most ECH contain approximately 50% FXIIIa+ histiocytic dendrocytes, but not all lesional cells express FXIIIa. A putative fibroblastic component has not been characterized. METHODS: We analyzed the differentiation and cell kinetics of dermal microvascular unit cells in 12 previously reported ECH using antibodies to FXIIIa, CD68 (KP1), CD34, CD117, CD31, smooth muscle actin, collagen type 1 aminopropeptide, and MIB-1, using single and double immunostains. RESULTS: In ECH, many variably sized CD34/CD31+ tumor vessels with actin+ myopericytes were surrounded by epithelioid-to-dendritic cells of three types. About 5-80% were dendritic histiocytes that expressed FXIIIa but not CD31 or KP1. Fibroblasts, in some cases showing mild nuclear pleomorphism, were usually collagen type 1+, but CD34 and actin- in 11/12 cases. One 'early' ECH had 40% CD34+ epithelioid cells, admixed with 50% FXIIIa+ histiocytes. Most ECH had about 2-20% KP1+, CD117+ mast cells. Mast cell numbers increased with FXIIIa+ histiocyte numbers and the intensity of FXIIIa expression. MIB-1/FXIIIa double-labeling showed only rare cycling histiocytes, with numerous cycling fibroblasts and endothelial cells. CONCLUSIONS: Our findings support the impression that ECH is a vascular fibrous histiocytoma. The constituent cells appear to arise from the activation of resident microvascular CD34+ dermal fibroblasts and the accumulation of FXIIIa+ dendritic stromal assembly histiocytes. The CD34+ cells appear to differentiate toward collagenous fibrocytes in association with histiocytes and mast cells in forming collagenous stroma and vessels. ECH is a tumor composed of all requisite cell types consistent with the origin from the dermal microvascular unit.     

Regulatory T cells in atopic dermatitis: epidermal dendritic cell clusters may contribute to their local expansion

Background  Regulatory T cells (Tregs) have an essential role in tolerance and immune regulation. However, few and controversial data have been published to date on the role and number of these cells in atopic dermatitis (AD).
Objectives  To investigate the number of CD4+CD25+FOXP3+ Tregs and interleukin 10-producing T regulatory type 1 (Tr1) cells in patients with AD.
Methods  Peripheral blood and skin biopsy samples from atopy patch test (APT)-positive patients with acute- and chronic-phase AD were investigated. Immunohistochemistry was applied to identify CD4+CD25+FOXP3+ Tregs in the skin, while flow cytometry was used to detect CD4+CD25highFOXP3+ Tregs and Tr1 cells in the peripheral blood.
Results  In the peripheral blood samples of patients with AD significantly elevated numbers of Tr1 cells were found. Although neither the absolute number nor the percentage of CD4+CD25highFOXP3+ Tregs showed significant alteration in the peripheral blood of patients, increased numbers of FOXP3+ Tregs were detected in skin biopsy specimens. All of the APT-positive skin samples showed epidermal dendritic cell aggregates, morphologically consistent with so-called Langerhans cell microgranulomas, which also contained intermingled FOXP3+ Tregs.
Conclusions  Tr1 cell numbers were elevated in the peripheral blood and increased numbers of CD4+CD25highFOXP3+ Tregs were detected in the skin of patients with AD. The epidermal dendritic cell clusters in APT-positive lesional skin showed a close connection to the FOXP3+ Tregs.     

Distinctive dendritic cell subsets expressing factor XIIIa, CD1a, CD1b and CD1c in mycosis fungoides and psoriasis

The papillary dermis of psoriasis and mycosis fungoides (MF) lesions is characterized by prominent collections of cells with dendritic morphology. Immunophenotypically distinct populations of cutaneous dendritic cells have been identified as CD1a+, FXIIIa-Langerhans cells (LC) and CD1a-, FXIIIa+ dermal dendritic cells (DDC). In this study, antibodies against the human GDI cluster of antigens (i.e. CD1a, CD1b and CD1c) and the DDC) marker (FXIIIa) were used to further characterize the subsets of dendritic cells in normal skin as compared to neonatal foreskin, psoriasis and MF by both immunoperoxidase and double immunofluorescence techniques. Normal skin and foreskin epidermis and dermis contained few CD1b+ or CD1c+ cells along with normal numbers of CD1a+ LC and FXIIIa+ DDC. Both MF and psoriasis were characterized by CD1a+ cells in the epidermis and dermis. FXIIIa+ cells were greatly expanded in the upper dermis of MF lesions and to a lesser degree in psoriasis as has been previously described by our group. MF contained significantly increased epidermal and dermal CD1b+ (15.7/5 high power fields [HPF] and 59.7/5 HPF respectively) and CD1c+ dendritic cells (33.8/5 HPF and 95.9/5 HPF respectively), while in psoriasis these cells were not statistically different from normal skin. Double immunofluorescence studies revealed that some (<25%) FXIIIa+ cells co-expressed CD1b and CD1c in MF>psoriasis> foreskin, while FXIIIa+ DDC never co-expressed CD1a. Thus, in contrast to normal skin in which epidermal or dermal dendritic cells rarely express CD1b and CD1c antigens, these members of the CD1 family are upregulated on both LC and DDC in benign and malignant inflammatory states. Upregulation of CD1b and CD1c on MF epidermal and dermal dendritic cells, as compared to psoriasis, foreskin and normal skin, may be useful in the immunophenotypic recognition of MF, as well as in helping to understand its immunobiology.     

特应性皮炎患者外周血表达不同细胞因子T细胞亚群的检测

目的 探讨特应性皮炎患者外周血表达不同细胞因子T细胞群的频数及其与疾病严重程度的相关性。方法 采用流式细胞仪，检测外周血表达不同胞质内细胞因子（包括IL-4、IL-5、IFN-γ、TNF-α）的CD4+ T、CD8+ T、CLA+ T细胞亚群的频数。利用特应性皮炎皮损面积严重度指数积分法方法，获取特应性皮炎患者病情严重程度积分，分析其与表达不同细胞因子的T细胞频数的相关性。结果 特应性皮炎患者外周血中，胞质内表达IL-4和IL-5的CD4+ T、CD8+ T、CLA+ T细胞频数均高于对照组，胞质内表达IFN-γ的CD4+ T、CLA+ T细胞频数低于对照组；差异均有统计学意义。患者组与正常人对照组中，TNF-α在不同T细胞亚群中表达差异无统计学意义。疾病严重程度与IL-4+CD4+ T细胞和IL-5+CLA+ T细胞群的表达频数相关。结论 患者外周血T细胞存在免疫偏移，表达某些细胞因子的T细胞亚群水平可能作为检测疾病严重程度的指标。     

The human hair follicle immune system: cellular composition and immune privilege

The immunology of the hair follicle, its relationship with the 'skin immune system' and its role in hair diseases remain biologically intriguing and clinically important. In this study, we analysed the immunoreactivity patterns of 15 immunodermatological markers to determine the cellular composition and immune privilege of the human hair follicle immune system in anagen VI (growth phase). The most prominent cells located in or around the hair follicle were Langerhans cells, CD4+ or CD8+ T cells, macrophages and mast cells, whereas B cells, natural killer cells and gammadelta T cells were found very rarely. Langerhans cells (CD1a+, major histocompatibility complex, MHC class II+), and T cells (CD4+ or CD8+) were predominantly distributed in the distal hair follicle epithelium, whereas macrophages (CD68+, MHC class II+) and mast cells (Giemsa+) were located in the perifollicular connective tissue sheath. Transmission electron microscopy confirmed low numbers of immune cells in the proximal hair follicle epithelium, and very few macrophages and Langerhans cells were seen in the dermal papilla. Melanophages were observed in the connective tissue sheath and dermal papilla. MHC class I (HLA-A, -B, -C) and beta2-microglobulin immunoreactivity was found on most skin cells, but was substantially reduced on isthmus keratinocytes and virtually absent in the proximal hair follicle epithelium. Apart from the absence of Fas ligand immunoreactivity, the sharply reduced numbers of T cells and Langerhans cells, and the virtual absence of MHC class I expression all suggest that the anagen proximal hair follicle constitutes an area of immune privilege within the hair follicle immune system, whose collapse may be crucial for the pathogenesis of alopecia areata.     

Profiles of Foxp3+ regulatory T cells in eczematous dermatitis, psoriasis vulgaris and mycosis fungoides

Background It is well known that regulatory T cells (Tregs), identified by their expression of CD4, CD25 and Foxp3, play a crucial role in maintaining peripheral tolerance. Recently, it has been demonstrated that a Treg population resides in normal human skin. However, only a few studies have demonstrated the presence of Foxp3+ Tregs in inflammatory skin disorders. Objectives In this study, we immunohistologically examined the presence of CD4+ CD25+ Foxp3+ Tregs in the lesional skin of psoriasis vulgaris, mycosis fungoides and eczematous dermatitis. Methods We used immunohistochemistry to examine the presence of Foxp3+ Tregs in fixed sections of the lesional skin from 16 patients with psoriasis vulgaris, 17 patients with mycosis fungides and 18 patients with eczematous dermatitis in addition to 10 normal skin samples. Results In normal skin, epidermal and dermal Foxp3+ cells were rare. The psoriasis vulgaris, mycosis fungoides and eczematous dermatitis samples contained substantial numbers of epidermal and dermal CD3+, CD4+ and CD25+ Foxp3+ Tregs. The epidermis contained a higher percentage of CD3+, CD4+ and CD25+ Foxp3+ cells than the dermis. The percentage of Foxp3+ cells among CD3+ or CD4+ cells was significantly lower in eczematous dermatitis than in psoriasis vulgaris or mycosis fungoides, and that of dermal Foxp3+ cells was significantly lower in psoriasis vulgaris than in eczematous dermatitis or mycosis fungoides. Conclusions The lower percentage of epidermal or dermal Foxp3+ cells in eczematous dermatitis or psoriasis vulgaris, respectively, might contribute to their pathogenesis.