Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06126 (CD1a)
 2,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In a recent series of experiments, we observed that epidermal Langerhans cells (LC) of healthy, non-atopic individuals have the capacity of specifically binding monomeric serum or myeloma IgE. IgE-binding to LC could neither be prevented by pre-incubation of the cryostat sections with monoclonal antibodies (MoAb) against either Fc epsilon RII/CD23 or Fc gamma RII/CD32 nor by the addition of excess amounts of lactose, but could be entirely abrogated by pre-incubation with the anti-Fc epsilon RI MoAb 15-1. A direct testing of the anti-Fc epsilon RI MoAb 15-1 and 19-1 on cryostat sections in an indirect immuno-double-labeling technique showed that, in contrast to eight different anti-Fc epsilon RII/CD23 MoAb, these MoAb react with the majority of CD1a-bearing epidermal cells. At an ultrastructural level, 15-1 immunogold-labeling in the epidermis was confined to the surface of cells exhibiting Birbeck granules. In further experiments, we were able to amplify by polymerase chain reaction (PCR) technology transcripts for the alpha, beta, and gamma chains of Fc epsilon RI from LC-enriched epidermal cells and dermal cells, but not from LC-depleted epidermal cells. Transcripts for the mast cell enzyme tryptase were exclusively found in dermal cell-derived RNA preparations, thus excluding a contamination of the LC-enriched epidermal cell preparations by dermal mast cells. Collectively, these data show that epidermal LC, but not other epidermal cells, express Fc epsilon RI molecules.
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PMID:Fc epsilon RI mediates IgE binding to human epidermal Langerhans cells. 143 Dec 5

Receptors for the Fc fragment of immunoglobulins (Fc R) exhibit specificities for a wide variety of immunoglobulin classes and subclasses. In humans, at least three distinct classes of receptors for the Fc fragments of IgG (Fc gamma RI, II, III) and two classes of receptors for the Fc fragments of IgE (Fc epsilon RI, II) have been characterized. These classes were largely defined on the basis of their affinities for different immunoglobulin subclasses and their reactivities with monoclonal anti-receptor antibodies. Among these FcR, in healthy individuals, epidermal Langerhans cells (LC) express only the Fc gamma RII/CDw32. This FcR--a member of the immunoglobulin superfamily--is only present on about 50% of freshly isolated CD1a positive cells, as determined by rosette assays. It has a Mr of 40 kDa, is trypsin resistant, binds polymeric human IgG and murine IgG1-coated erythrocytes, and reacts with anti-CDw32 monoclonal antibodies (MoAb). LC internalize Fc gamma RII by receptor-mediated endocytosis. After 48 h of culture, human LC loose their Fc gamma RII, as revealed by flow cytometry. While the function(s) of the Fc gamma RII on human LC remain(s) unknown, this receptor may be primarily involved, like the Fc gamma RII present on mouse macrophages, in the clearance of extra-cellular immune complexes. In patients with atopic dermatitis having an elevated IgE serum level, beside an increased expression of the Fc gamma RII by LC located on lesional skin, IgE-bearing epidermal and dermal LC are present, again essentially on lesional skin. Double immunolabeling on cryosections reveals that on lesional skin only about 50% of the epidermal CD1a positive cells bear IgE. This capacity of LC to bind IgE molecules appears to be due to the presence of a specific Fc epsilon R. While the class of this Fc epsilon R still remains unclear, it appears to have some particularities: i) an associated expression with the CD1a antigen, ii) an affinity for IgG, and iii) a trypsin resistance. In vitro, human recombinant interleukin (IL)-4 and/or interferon (IFN)-gamma are able to induce the synthesis and expression of Fc epsilon RII/CD23 on a percentage of normal human epidermal LC. This Fc epsilon RII seems to be functional since it binds IgE molecules, this binding being prevented by preincubation with anti-CD23 MoAb.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Fc receptors of human Langerhans cells. 219 Oct 49

INTRODUCTION. Atopic dermatitis (AD), allergic rhino-conjunctivities and allergic asthma constitute the classical triad of atopic diathesis attended, in many cases, by high serum IgE levels. While the pathophysiology of IgE-mediated allergic respiratory diseases is now better understood, the pathophysiological significance of atopic phenomena in the genesis and control of AD is still far from being clear. Numerous clinical and laboratory data point to a pathophysiological relation between IgE-mediated reactions and AD, but no one yet knows by which mechanism this interaction takes place. Some recent studies suggest that Langerhans cells might well be the missing link. THE LANGERHANS CELLS. Langerhans cells (LC) are dendritic epidermal cells originating in the bone marrow and supposedly belonging to the monocyte lineage. Their circulating precursors, the mechanism of their migration into the epidermis and their relationship with other dendritic cells, such as the interdigitating follicular cells, are controverted. LC express numerous surface markers, such as class I and II HLA, CD1a, CD4 and receptors for complement and IgE Fc fragments. Under normal conditions, LC do not express IgE receptors. Ultrastructurally, LC are characterized by the presence of Birbeck granules in their cytoplasm. Among the presumed functions of LC in the skin, the best documented is the presentation of antigens to T lymphocytes in allergic contact dermatitis. LANGERHANS CELLS IN ATOPIC DERMATITIS. Quantitative studies. Modern immunohistological methods based on the reactivity of monoclonal anti-CD1a antibodies have given results that are sometimes conflicting due to differences in the quantification techniques utilized. However, morphometric enumeration of LC on cryostat sections have shown that their number is about the same in AD and in normal skin. PRESENCE OF IgE BEARING LANGERHANS CELLS IN ATOPIC DERMATITIS. The presence of IgE molecules on the LC surface has been demonstrated in subjects with AD. It must be noted that in atopic subjects IgE bearing Lc are only found in patients with high serum IgE levels. They are absent in asthma patients without eczema, irrespective of their serum IgE levels. Daily applications of corticosteroids on AD lesions result in a decrease of anti-IgE markers on LC after one week and in their complete disappearance after 2 weeks. IN ATOPIC DERMATITIS LANGERHANS CELLS EXPRESS A RECEPTOR SPECIFIC TO Fc FRAGMENTS OF IgE. The exact nature of the receptor for IgE expressed in situ in AD patients is still conjectural. Some authors have been able to demonstrate that the binding of IgE molecules by LC isolated from the skin of atopic patients is inhibited by a monoclonal antibody directed against the low affinity receptor (Fc epsilon R2) of eosinophils and macrophages. This strongly suggests that certain factors induce the expression by LC of an Fc epsilon R2 receptor. IN VITRO INDUCTION OF IgE RECEPTORS ON NORMAL LANGERHANS CELLS...
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PMID:[Langerhans cells in the physiopathology of atopic dermatitis]. 219 89

Apparently normal, and lesional skin from patients with atopic eczema were investigated immunohistochemically with anti-HLA-DR, -CD1a and -IgE antisera. A CD1a+ intercellular pattern was observed in uninvolved skin in the majority of the patients whereas an HLA-DR+/CD1a+ network, mostly localized in basal and supra-basal areas, was shown in lesional skin of virtually all of them. Moreover, an HLA-DR+/CD1a+IgE+ intercellular pattern was observed in some of the patients only and was predominantly localized in those areas characterized by lymphocyte exocytosis, spongiosis or vesicle formation. Whether keratinocytes are able to synthesize CD1a antigen and Fc epsilon R or if these molecules are only produced and shed by CD1a+/IgE+ epidermal dendritic cells remains unclear.
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PMID:Keratinocytes in lesional skin of atopic eczema bear HLA-DR, CD1a and IgE molecules. 247 18

Recently we reported that the high-affinity receptor for IgE, Fc epsilon RI, is constitutively expressed on normal epidermal Langerhans cells (LC) and on certain cells within the dermis. To study the nature of these cells we performed immunofluorescence double-labeling experiments using an anti-Fc epsilon RI reagent (MoAb 15-1) as well as monoclonal antibodies (MoAb) against leukocyte differentiation antigens expressed on LC, interdigitating cells and macrophages. Avidin-fluorescein isothiocyanate was used to distinguish mast cells. We found that dermal Fc epsilon RI+ cells are bone marrow derived (CD45+). Further, we found that a subset of 15-1+ dermal cells coexpresses antigens present on certain members of the LC/DC family: the majority of Fc epsilon RI+ cells reacted with MoAb anti-HLA-DR and RFD1, the latter recognizes an antigenic moiety on interdigitating cells, and a small subpopulation coexpressed CD1a. In reverse fashion, virtually all CD1a+ cells and most RFD1+ cells reacted with the anti-Fc epsilon RI reagent. Approximately one third of 15-1+ cells represented avidin-FITC+ mast cells whereas Fc epsilon RI expression was not detected on FXIIIa+ dermal dendrocytes or CD3+ lymphocytes. By immunoelectronmicroscopy, we found that perivascularly located 15-1-reactive cells exhibited pronounced dendrites, an indented nucleus, numerous mitochondria, and abundant endo-/lysosomal structures. However, Birbeck granules or granules specific for basophils or eosinophils were never detected in these cells. Collectively, our data suggest that the pool of dermal Fc epsilon RI+ cells consists mainly of cells of the LC (CD1a+)/DC(RFD1+) lineage and mast cells but does not include FXIIIa+ dermal macrophages.
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PMID:Immunomorphologic characterization of Fc epsilon RI-bearing cells within the human dermis. 812 Apr 15

A better understanding of the pathophysiological role of Langerhans cells (LC) in atopic diseases is dictated by the characterization of the structures involved in immunoglobulin (IgE)-binding on their cell surface. We previously reported that human LC express the high affinity receptor for IgE (Fc epsilon RI), as well as the low affinity receptor for IgE (Fc epsilon RII/CD23). In the present study, we document the presence of a third IgE-binding structure on human LC, the IgE-binding protein (epsilon BP), an endogenous soluble beta-galactoside binding lectin. Immunohistochemical studies performed on normal human skin revealed an anti-epsilon BP reactivity in the cytoplasm of keratinocytes and in that of acinous cells of eccrine sweat glands. epsilon BP was also found on the cell surface of LC, as shown by anti-epsilon BP/anti-CD1a double labeling and flow cytometric analysis. Anti-epsilon BP binding to the surface of LC was completely abolished by preincubation with lactose and restored by addition of recombinant human epsilon BP, indicating that epsilon BP binds to LC surface by virtue of its lectin property. Immunoblot analysis of anti-epsilon BP-reactive material in keratinocytes and purified LC disclosed a protein with an apparent molecular weight of 33,000 consistent with epsilon BP. Interestingly, mRNA transcripts for epsilon BP were detected only in keratinocytes but not in purified LC isolated from normal skin. epsilon BP was found to be released in culture supernatants of keratinocytes. Incubation of LC with these supernatants resulted in epsilon BP-binding to LC surface via protein-carbohydrate interaction. Most importantly, we could show that binding of human myeloma IgE to LC was inhibited by epsilon BP. In contrast, neuraminidase-treated human myeloma IgE binds to LC only in the presence of epsilon BP. In situ binding studies revealed that keratinocytes, although containing epsilon BP intracytoplasmatically, failed to exhibit any IgE-binding properties. Collectively, our results suggest that human keratinocytes produce the beta-galactoside-binding lectin epsilon BP, which subsequently binds to the surface of LC where it is functional in modulating their binding capacity for IgE glycoforms.
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PMID:Human keratinocytes release the endogenous beta-galactoside-binding soluble lectin immunoglobulin E (IgE-binding protein) which binds to Langerhans cells where it modulates their binding capacity for IgE glycoforms. 835 53

We investigated epidermal cell suspensions prepared from lesional and nonlesional atopic eczema skin, other inflammatory skin conditions, and normal human skin for high-affinity IgE receptor (Fc epsilon RI) expression on dendritic CD1a cells by quantitative flow cytometric analysis. A single CD1a bright/CD1b neg/Fc epsilon RI dim/CD23 neg/CD32 dim/HLA-DR bright/CD36 neg population was found in normal skin. In contrast, lesional skin of atopic eczema and other inflammatory skin diseases harbored variable proportions of two distinct CD1a populations. Both populations exhibited typical ultrastructural features of Langerhans cells, but the second one lacked Birbeck granules and was unreactive to the Birbeck granule-specific LAG antibody. Both populations differed phenotypically: classical Langerhans cells were CD1a bright/CD1b neg/Fc epsilon RI dim/CD23 neg/CD32 dim/HLA-DR bright/CD36 dim, while the second population was CD1a dim/CD1b dim/Fc epsilon RI bright/CD23 dim/CD32 dim/HLA-DR bright/CD36 bright. The highest Fc epsilon RI expression was found on the second CD1a population in lesional atopic eczema skin. Furthermore, Fc epsilon RI expression on CD1a cells correlated significantly with the serum IgE level of the patients. Thus, a distinct population of CD1a inflammatory dendritic epidermal cells different from classical Langerhans cells appears in the epidermis of lesional skin and is subjected to specific signals leading to the upregulation of Fc epsilon RI in atopic eczema skin.
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PMID:Immunomorphological and ultrastructural characterization of Langerhans cells and a novel, inflammatory dendritic epidermal cell (IDEC) population in lesional skin of atopic eczema. 864 75

Limbal conjunctival biopsies from 8 patients with atopic dermatitis and from 5 age-matched healthy individuals undergoing cataract or retinal detachment surgery were analyzed by light microscopy and immunological techniques. They were immuno-double labelled with anti-CD1a and anti-IgE or anti-CD23 (IgE receptor). In the specimens from atopic dermatitis 24 approximately 75% of positive anti-CD1a staining cells were double-stained by anti-IgE. Weak positive immuno-double stained cells with anti-CD23 were also observed, but less than with anti-IgE. The ratio of positive anti-IgE double-stained cells to positive anti-CD1a stained cells seemed to be parallel to serum IgE level, but not significant. The presence of IgE and CD23 (IgE receptor) on conjunctival Langerhans cells seems to have a positive effect on IgE-dependent antigen presentation.
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PMID:[The presence of IgE on limbal Langerhans cells in patients with atopicdermatitis]. 865 Oct 58

Langerhans cells appear to be critical for IgE-mediated allergen capture and presentation in human atopic dermatitis. The present study sought to determine whether epidermal (i.e Langerhans cells) and dermal dendritic cells in the skin of dogs with atopic dermatitis are hyperplastic and expressed surface IgE. Frozen sections of lesional or non-lesional atopic and normal control canine skin were immunostained with CD1a-, CD1c-, and IgE-specific monoclonal antibodies. The enumeration of cells was performed by morphometry in both the epidermis and the dermis. Cell counts were compared with each individual's total serum IgE levels. Higher numbers of epidermal and dermal dendritic cells were present in atopic dogs than in normal control animals. Epidermal Langerhans cell counts were significantly higher in lesional than in non-lesional atopic specimens. IgE+ dendritic cells were observed in lesional atopic epidermis and dermis, and non-lesional atopic dermis, but not in normal control skin specimens. The percentages of IgE+ dendritic cells were correlated with each patient's total serum IgE levels. These results demonstrate dendritic cell hyperplasia and IgE expression in canine atopic dermatitis. Increased epidermal Langerhans cell counts in lesional specimens suggest an epidermal allergen contact in canine atopic dermatitis.
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PMID:Langerhans cell hyperplasia and IgE expression in canine atopic dermatitis. 891 40

Little is known about the cellular infiltrates in the nasal mucosa of children. This study was set up to compare the nasal cellular infiltrates in biopsy specimens from allergic children and controls. Atopic children were distinguished from controls on the basis of symptoms of allergic rhinitis and/or asthma, total serum immunoglobulin (Ig)E, family history and specific serum IgE to food and aeroallergens. Fifteen allergic patients (median age 4.3 yrs) and 15 age-matched nonallergic control subjects were evaluated. The number of cells positive for CD1a, CD4, CD8, CD19, CD68, chymase, tryptase, IgE and major basic protein was determined in the mucosa of the inferior turbinate. A significantly higher number of IgE-positive cells and mast cells was found in the epithelia of the allergic group. In the lamina propria, higher numbers of IgE-positive cells and eosinophils were found. Langerhans' cells positive for IgE were only seen in allergic children with specific serum IgE against aeroallergens. These children also had a higher number of IgE-positive mast cells compared to controls and atopic children without specific serum IgE. These results show that the nasal cellular infiltrates of allergic children differ from nonallergic control subjects. Prior to the detection of specific serum immunoglobulin E, cellular changes can be found in the nasal mucosa of atopic children.
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PMID:Differences in nasal cellular infiltrates between allergic children and age-matched controls. 1036 43


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