Mast cell distribution and neutral protease expression in acute and chronic allergic conjunctivitis

Allergic eye disease has a variety of clinical manifestations including seasonal atopic conjunctivitis (SAC), perennial atopic conjunctivitis (PAC), atopic keratoconjunctivitis (AKC). and atopic blepharoconjunctivitis (ABC). We have investigated the number, distribution and protease expression of mast cells in normal and diseased conjunctiva with the use of immunohistochemistry in water-miscible resin sections. The median mast cell densities in normal subjects were 17mm ^-2 in the bulbar substantia propria and 9mm^-2 in tarsal substantia propria. Mast cells were absent from the normal conjunctival epithelium at both sites. Mast cell densities were increased in the bulbar substantia propria in SAC, AKC and ABC. Tarsal substantia propria showed a significant increase in mast cells in ABC and AKC disease states. Mast cells express a range of proteases which varies according to their anatomic site. Mast cells in connective tissue are described to contain tryptase, chymase. cathepsin-G and carboxypeptidase-A, whereas mucosal mast cells contain only tryptase. In the diseased conjunctiva there was a marked reduction in proteases other than tryptase in the intraepithelial mast cells. There were also significant reductions in protease expression other than tryplase in the bulbar substantia propria in AKC and ABC. There appear to be specific alterations in the distribution of mast cells in the sub-categories of allergic eye disease. The distinction between mucosal and connective tissue mast cell pheno-types is not clear-cut and may depend on the functional state of the mast cells in relation to the microenvironment.     

Ocular allergic disease

PURPOSE OF REVIEW: This review will focus on recent advances in our understanding of the pathogenesis of allergic eye diseases. Common findings in acute allergic conjunctivitis (seasonal and perennial) and chronic allergic conjunctivitis (vernal keratoconjunctivitis, atopic keratoconjunctivitis, and giant papillary conjunctivitis) include evidence of mast cell activation and eosinophil attraction and activation. Cytokine levels found in tears, conjunctival impression cytology and biopsy specimens, and serum have been evaluated as markers of disease, and as targets of therapeutic intervention. RECENT FINDINGS: Human conjunctival epithelial cells respond to tumor necrosis factor alpha, interleukin-1 beta, and interferon-gamma individually and in combination. Intracellular adhesion molecule-1 expression is upregulated by interleukin-1 beta and tumor necrosis factor alpha. Conjunctival epithelial cells release interleukin-8 in response to interleukin-1 beta and tumor necrosis factor alpha but not interferon-gamma. Supernatants from activated mast cells cause increased adhesion of eosinophils to conjunctival epithelium. Tear levels of tumor necrosis factor alpha were elevated in vernal keratoconjunctivitis patients compared with normal controls. T cell lines from chronic allergic eye disease patients showed inconsistent production of cytokines in atopic and vernal keratoconjunctivitis and low levels in giant papillary conjunctivitis. Vernal keratoconjunctivitis patients have differing levels of eosinophil cationic protein in their serum if they were serum specific immunoglobulin E positive compared to serum specific immunoglobulin E negative patients. SUMMARY: Recent findings continue to expand our basic knowledge of mechanisms and differences between seasonal and perennial allergic conjunctivitis and atopic and vernal keratoconjunctivitis. Understanding the complex interactions and cross talk between cells, cytokines and other mediators is relevant for new therapeutic approaches directed at specific disease entities.     

The Pathophysiology of Ocular Allergy: Current Thinking

Seasonal allergic conjunctivitis is the only ocular disease to involve solely Type-1 hypersensitivity, the other main forms of ocular allergy - perennial allergic conjunctivitis, vernal and atopic keratoconjunctivitis and giant papillary conjunctivitis - each having a more complex immunological basis and a chronic inflammatory component. Involvement of secondary inflammatory cells, particularly eosinophils, in addition to the mast cells resident in the conjunctival substantia propria, can lead to more serious corneal damage with vision-threatening potential. Thoughtful management of allergic conjunctivitis is needed in order to control the ocular inflammation without incurring steroid-induced side-effects, and patient education is also an important factor in maintaining optimal allergen avoidance, especially in the more severe and chronic cases. Laboratory models can be helpful in assessing the potential of new drugs, and SWR mice (topically sensitised and challenged with short ragweed) show clinical signs of allergic conjunctivitis, together with mast cell and eosinophil involvement, remarkably similar to the human pathophysiology. The antiinflammatory activity of both steroids and nedocromil sodium observed in this animal model supports therapeutic evidence of the usefulness of second-generation mast cell stabilising drugs in the treatment of ocular allergy.     

Atopic and non‐atopic eosinophilic oesophagitis are distinguished by immunoglobulin E‐bearing intraepithelial mast cells

Mulder D J, Mak N, Hurlbut D J & Justinich C J
(2012) Histopathology  61, 810–822 Atopic and non‐atopic eosinophilic oesophagitis are distinguished by immunoglobulin E‐bearing intraepithelial mast cells Aims: Eosinophilic oesophagitis (EoE) occurs in atopic individuals and features eosinophils and mast cells, but differences in the inflammatory cell density between the epithelium and lamina propria (LP) are not fully understood. The aim of this study was to determine if numbers of eosinophils, B lymphocytes and immunoglobulin E (IgE)‐bearing mast cells are increased in the mucosa of EoE patients with and without concurrent atopy. Methods and results: Oesophageal biopsies containing ≥4 high‐power fields (HPF) of epithelium and LP were identified for normal (n = 9), gastroesophageal reflux disease (GERD) (n = 5) and EoE (n = 25) patients. Patients were classified as atopic or not by clinical history. Immunohistochemistry identified mast cells, B lymphocytes and eosinophils. Eosinophil density was increased in the LP in EoE. Intraepithelial eosinophil density correlated with eosinophils/HPF, CD20⁺ B lymphocyte density and tryptase⁺ IgE⁺ mast cell density. Increased intraepithelial IgE⁺ cell density in EoE was associated with mast cells and not B lymphocytes. Intraepithelial IgE⁺ mast cell densities were significantly higher in biopsies from the subgroup of EoE patients with atopy. Conclusions: EoE diagnosis using maximal eosinophil count/HPF correlates with average counts/mm², and intraepithelial eosinophil densities are higher in children than adults with EoE. In EoE, numbers of eosinophils and mast cells are increased in the LP. IgE‐bearing mast cells are increased in atopic EoE patients but not in non‐atopic EoE patients.     

Allergic eye disease – a clinical challenge

Currently, six basic allergic eye diseases are recognized. In seasonal (SAC) and perennial allergic conjunctivitis (PAC), the allergic response is mediated predominantly by mast cells, whereas the more severe conditions, vernal (VKC) and atopic keratoconjunctivitis (AKC) and giant papillary conjunctivitis (GPC), are associated with a preponderance of T cells. Acute allergic conjunctivitis (AAC) occurs when a large quantity of allergen inoculates the eye and is usually self-limiting. SAC, the most common ocular allergy, is the ocular component of hayfever. PAC in the UK is most commonly caused by the house-dust mite (HDM); diagnosis is confirmed by skin-prick tests, eosinophils in the conjunctival smear, and raised tear or serum total IgE. SAC and PAC can usually be managed with chromone eyedrops and antihistamines. VKC usually presents in children under 10 years of age and mainly affects boys. Sufferers frequently have a personal or family history of atopy. Corneal involvement can occur in VKC, making it potentially sight-threatening. AKC occurs in atopic adults, and like VKC it affects the cornea. VKC and AKC require steroid treatment under specialist supervision; minimization of the steroid dose can often be achieved with use of a chromone. GPC occurs due to repeated contact of the conjunctival surface with a foreign surface, such as contact lenses. Attention to lens hygiene or switching to different lenses and treatment with a chromone are frequently effective. In all allergic eye diseases contact with the precipitating allergen should be avoided as far as possible.     

Basophil and eosinophil accumulation and mast cell degranulation in the nasal mucosa of patients with hay fever after local allergen provocation

BACKGROUND: Basophils and mast cells have certain similarities and are believed to be important in upper and lower respiratory allergy. OBJECTIVE: We sought to apply immunohistology to investigate the distribution and numbers of mast cells and basophils in the nasal mucosa after allergen provocation. METHODS: Allergen challenge with grass pollen was performed in 9 patients with seasonal allergic rhinitis out of the hay fever season. Nasal biopsy specimens were taken before and approximately 1 hour, 24 hours, and 1 week after intranasal allergen provocation. We determined relative numbers and their phenotypic characteristics by using mAbs specific for tryptase, chymase, IgE, eosinophils (BMK-13), and a new mAb against basophils (BB1) by using immunohistochemistry in frozen sections. RESULTS: In the nasal mucosa at baseline, practically no basophils were found in the epithelium. A significant increase in numbers was found in the epithelium and lamina propria of the nasal mucosa in the early phase as early as 1 hour after allergen provocation. At 24 hours and 1 week after allergen provocation, a significant increase in basophil numbers was found in the lamina propria only. The proportion of mast cells staining for chymase in the lamina propria decreased from a median of 38% (range, 0%-82%) to 14% (range, 0%-78%) within 1 hour of allergen provocation. The proportion of mast cells staining for chymase increased from 1% (range, 0%-86%) at baseline to 21% (range, 3%-85%) within 1 hour of allergen provocation. One week after provocation, mast cells returned to baseline numbers. A definite tissue eosinophilia was observed after allergen provocation. CONCLUSION: Basophil numbers are increased in the epithelium and lamina propria of the nasal mucosa of subjects with rhinitis after allergen challenge, with influx already apparent at 1 hour. Moreover, changes in mast cell percentages and numbers were observed within 1 hour of allergen provocation.     

Proliferative activity of mast cells in allergic nasal mucosa

The proliferative activity of mast cells in the nasal mucosae of allergic (n= 14) and non-allergic (n= 18) rhinopathic patients was studied by a sequential double immuno-histochemistry using anti-proliferating cell nuclear antigen (PCNA) and anti-tryptase antibodies. Two hundred to 300 tryptase-positive cells (mast cells) were studied in each allergic nasal epithelium. In case of non-allergic nasal mucosa, only a few mast cells existed in the epithelial layer. The total number of mast cells which we could detect in all patients was 168 cells. One of these cells contained PCNA. Three hundred to 500 mast cells were studied in each subepithelial layer and deep layer of lamina propria of both diseases. PCNA-positive mast cells were observed in the nasal epithelia of 10 allergic patients. In the subepithelial layer, PCNA-positive mast cells were observed eight allergic patients and four non-allergic patients, respectively, In the deep lamina propria, PCNA-positive mast cells were observed in a few patients with both diseases. The percentage of PCNA-positive mast cells of all mast cells each area ranged from 0 to 1.7%. The incidence of PCNA-positive mast cells was statistically higher in the allergic epithelium and subepithelial layer than in the deep layer of lamina propria. Moreover, that of PCNA-positive mast cells in the subepithelial layer was higher in allergic than in non-allergic nasal mucosa. Our results suggest that mast cell proliferation may contribute to the number of mast cells in the nasal epithelium and subepithelial layer of allergic patients.     

Fluticasone propionate aqueous nasal spray reduces inflammatory cells in unchallenged allergic nasal mucosa: effects of single allergen challenge

BACKGROUND: Topical corticosteroid therapy reduces symptoms and nasal mucosal inflammatory cells in patients with allergic rhinitis. Usually patients are advised to start their medication (1 week) before the beginning of the pollen season. The effect of pretreatment with a topical corticosteroid on unchallenged nasal mucosa is not well documented. OBJECTIVES: The purpose of this study was to investigate, in a double-blind, placebo-controlled study, the effect of 6 weeks' pretreatment with 200 microg twice daily fluticasone propionate on nasal symptoms and inflammatory cell numbers after nasal allergen provocation in patients with seasonal allergic rhinitis. METHODS: Nineteen patients with grass pollen-induced allergic rhinitis were treated for a 6-week period out of the grass pollen season. After completing the treatment period, patients were challenged with grass pollen. Nasal mucosal biopsy specimens were taken 5 times in every patient. In nasal mucosa changes in numbers of T cells, B cells, mast cells, eosinophils, macrophages, and Langerhans' cells were investigated. RESULTS: After 4 weeks of treatment but before allergen provocation, significantly fewer epithelial Langerhans' cells, macrophages, mast cells, T cells, and eosinophils were found in the fluticasone propionate group compared with those found in the placebo group. In the lamina propria significantly fewer Langerhans' cells and eosinophils were found in the fluticasone propionate group. Cell influx in nasal mucosa after allergen provocation was significantly inhibited in the fluticasone propionate group compared with that in the placebo group for epithelial Langerhans' cells, mast cells, macrophages, and T cells and for lamina propria eosinophils, mast cells, Langerhans' cells, macrophages, and T cells. CONCLUSIONS: Fluticasone propionate is effective in reducing early- and late-phase nasal symptoms. Topical corticosteroid treatment reduces inflammatory cells in unchallenged nasal mucosa.     

Immunolocalization of cytokines to mast cells in normal and allergic conjunctiva

Background Recently, the potential role of mast cells in allergic reactions has been extended by the discovery that these cells synthesize, store and secrete multifunctional cytokines. Seasonal allergic conjunctivitis is characterized as an immediate hypersensitivity reaction, in which allergen binds to specitic IgE on mast cells, leading to release of preformed and newly synthesized inflammatory mediators. Objective In this study we aimed to localize the cytokines IL-4, IL-5, IL-6, IL-8 and TNFα to conjunctival mast cells and lo examine the relationship between mast cell-associated ctokines and allergic conjunctivitis. Methods Immunobistochemistry was perfonned on serial sections of conjunctival biopsies from patients with seasonal allergic conjunctivitis, in and out of tbe hay fever season, as well as from non-allergic volunteers. Results IL-4, IL-5, IL-6 and TNFα were localized to mast cells in normal and allergic conjunctiva. IL-8 was localized to mast cells in two patients with seasonal allergic conjunctivitis, one during and the other outside the pollen season. Using the monoclonal antibody 3H4, which identifies the secreted form of IL-4, biopsies frotn patients with active seasonal allergic conjunctivitis contained a significantly bigher proportion of mast cells positive for IL-4. than those from out-of-season patients (P= < 0.016). There was no difference between the two groups in the number of mast cells immunostained by the antibody 4D9 which identifies the stored form of IL-4. Conclusions These results suggest that conjunctival mast cells can store a range of multifunctional cytokines and release IL-4 during active disease, which may give them an important role in upregulating allergic inflamtnation in the conjunctiva.     

The extracellular deposition of mast cell products is increased in hypertrophic airways smooth muscles in allergic asthma but not in nonallergic asthma

BACKGROUND: Bronchial asthma is characterized by airways smooth muscle hypertrophy and infiltration of mast cells in the bronchial mucosa. The aim of this investigation was to study the distribution of mast cells in different compartments in the bronchial mucosa of allergic and nonallergic asthma in relation to airways remodeling. METHODS: Bronchial biopsies were obtained from 29 subjects with allergic and nonallergic asthma and healthy controls. The biopsies were stained for mast cells by means of the tryptase specific antibody AA1. Extracellular deposition of mast cell products were judged on a semi-quantitative scale. Mast cells per mm(2) were counted in epithelium, lamina propria and the smooth muscle compartment. Smooth muscle was visualized by actin antibodies and the proportion of staining of the biopsy estimated. Laminin and tenascin layers were visualized by their respective antibodies. RESULTS: Airways smooth muscle thickness was greater in allergic vs nonallergic asthma (P < 0.001). Mast cells were increased in all three compartments in both allergic and nonallergic asthma, with significantly higher numbers in smooth muscles in allergic asthma (P < 0.03). The extracellular deposition of mast cell products was more common in allergic than nonallergic asthma in lamina propria and smooth muscles (P = 0.025; P = 0.002, respectively). In patients with allergic asthma the numbers of mast cells with extracellular deposition of mast cell products were significantly correlated to the thickness of the laminin and tenascin layers. CONCLUSION: Our results suggest that there are large differences between allergic and nonallergic asthmatics as to mast cell activation and airways smooth muscle thickness. Our data implies that mast cells are causally involved in structural alterations in allergic asthma.     

Dynamics of mast cells in the nasal mucosa of patients with allergic rhinitis and non-allergic controls: a biopsy study

Mast cell degranulation is thought to be an important component of the pathogenesis of allergic rhinitis. Quantitative studies on mast cells in nasal mucosa after allergen exposure have given widely divergent results, ranging from an overall decrease via redistribution to an overall increase. We investigated this problem by employing a combination of anti-IgE and toluidine blue staining of biopsy specimens. In allergic patients anti-IgE was found to identify all mast cells and toluidine blue to detect mast cells that were not (totally) degranulated. The study was composed of two parts done in different patient groups. In the first part of the study biopsies were performed in 23 patients with isolated grass-pollen allergy, once during natural provocation in the summer and once in the winter. Biopsies were also performed in 12 controls. Non-allergic controls were found to have the same number of mast cells in the lamina propria as asymptomatic allergic patients. The controls seldom have mast cells in the epithelium. The patients with isolated grass-pollen allergy showed an increase in the numbers of mast cells in the lamina propria during natural provocation and the same seemed to occur in the epithelium as well. During natural provocation almost all of the mast cells in the epithelium and half of those in the lamina propria were degranulated. In the second part of the study 17 patients with isolated grass-pollen allergy and four controls were challenged daily with allergen extract during a 2-week period in the winter. During this period biopsies were performed at eight different occasions, i.e. once before, six occasions during and once after the provocation period. The results of this part of the study showed that during provocation mast cells migrate to the surface of the nasal mucosa, where they become degranulated, and that the pool of mast cells in the lamina propria was apparently replenished by migration of mast cells from the vessels in the lamina propria. The total number of mast cells in the lamina propria remained approximately the same while the mast cells residing in an increasingly thick layer measured from the basal membrane into the lamina propria became degranulated. After 2 weeks, 82% of the mast cells in the lamina propria was degranulated and it was only in the deepest layers that some toluidine blue positive cells were found.(ABSTRACT TRUNCATED AT 400 WORDS)     

Eosinophilic oesophagitis: relevance of mast cell infiltration

Aims

Eosinophilic oesophagitis (EoE) is a chronic inflammatory disease characterised clinically by symptoms of oesophageal dysfunction and histopathologically by a prominent eosinophilic inflammation. Despite eosinophils having a histologically predominant position, their role in the immunopathogenesis of the disease is still questionable. Several other inflammatory cells are involved and may also play a critical role. The purpose of this study was to characterise the mast cell infiltration, and to correlate it with the clinical state of EoE.

Methods and results

Using immunohistochemistry and quantitative morphometry, we investigated eosinophils and mast cells extensively in oesophageal biopsies from patients with active EoE and from patients with EoE in remission, and compared the findings with healthy individuals. In EoE, epithelium and lamina propria were similarly infiltrated with eosinophils. In contrast, mast cells infiltration was limited to the epithelium, displaying a localised immune response. Interestingly, whereas epithelial mast cells and eosinophils were high in active EoE, some patients in remission, e.g. normalised epithelial eosinophils, showed remaining high numbers of mast cells. Patient clustering supported two groups of patients in clinical remission, differentiating based on presence or absence of epithelial mast cells.

Conclusions

Active EoE is characterised in addition to the well‐known tissue eosinophilia by a marked epithelium‐restricted mast cell infiltration. Of interest, in a subgroup of patients, mast cell infiltration persisted despite clinical remission. To elucidate the clinical consequence of persistent epithelial mast cells infiltration further studies are required following patients in clinical remission longitudinally.     

Grass pollen immunotherapy inhibits seasonal increases in basophils and eosinophils in the nasal epithelium

BACKGROUND: Symptoms of allergic rhinitis are accompanied by infiltration of the nasal mucosa with inflammatory cells, predominantly eosinophils and metachromatic cells (basophils and mast cells). Specific immunotherapy (IT) reduces mucosal eosinophilia and numbers of metachromatic cells in the epithelium. A specific marker distinguishing basophils from mast cells was recently developed. OBJECTIVES: The basophil-specific monoclonal antibody 2D7 was used to determine the influence of subcutaneous IT on numbers of nasal mucosal basophils compared with the effects of IT on neutrophils, eosinophils and mast cells. METHOD: During a randomized, placebo-controlled trial of grass pollen IT in 44 adults with severe summer hay fever, nasal biopsies were taken at baseline, out of the pollen season, and at the peak of the pollen season following 2 years treatment. Biopsies were processed for immunohistochemistry for basophils (2D7+), mast cells (AA1+), eosinophils (MBP+) and neutrophils (neutrophil elastase+). RESULTS: In placebo-treated (PL) patients there were significant seasonal increases in basophils (P < 0.01), mast cells (P < 0.05) and eosinophils (P = 0.002) in the nasal submucosa. In IT-treated patients significant increases in 2D7+ cells (P < 0.01) and eosinophils (P = 0.01) but not AA1+ cells (P = 0.9) were observed. These differences were significant between groups for eosinophils (P < 0.05). In the epithelium there were seasonal increases in AA1+ cells and eosinophils in both groups (PL: P < 0.01, IT: P < 0.05 for both). The between-group difference was significant for eosinophils (P = 0.05). Basophils were observed in the epithelium of six out of 17 in the placebo group and one out of 20 in the IT group (P = 0.03). Neutrophil numbers remained constant in both epithelium and submucosa. CONCLUSION: Successful grass pollen immunotherapy was associated with inhibition of seasonal increases in basophils and eosinophils, but not mast cells or neutrophils within the nasal epithelium. Immunotherapy may act, at least in part, by reducing seasonal recruitment of basophils and eosinophils into the epithelium.     

Therapeutic Considerations: Symptoms, Cells and Mediators

Immuno-histopathological studies of conjunctival tissue biopsied from patients with non-sight-threatening allergic conjunctivitis or with sight-threatening allergic keratoconjunctivitis should lead to more effective management of these eye conditions, based on the specific cellular involvement. The major difference between these two categories of eye disease was the occurrence of T-lymphocytes, which were absent in the former but prominent in the sight-threatening disorders. Seasonal and perennial allergic conjunctivitis both showed a heavy mast cell increase, due to infiltration of mucosal type mast cells, and allergen challenge studies linked mast cell histamine release to the early phase reaction occurring within 20 minutes. A second histamine peak at six hours after challenge might implicate basophils (or refractory mast cells) and was accompanied by a rise in eosinophil cationic protein. In sight-threatening, chronic allergic keratoconjunctivitis the responses were clearly directed by T-cells, themselves the primary effector cell in atopic keratoconjunctivitis, whereas vernal keratoconjunctivitis displayed a T-cell driven eosinophilia, with increased expression of the adhesion molecules involved in tissue invasion by these cells. Appropriate therapies for each different category of conjunctivitis should be based on the specific immunopathology, and directed at the activated cell types that are primarily responsible for the disease process.     

Human mast cells express stem cell factor

Stem cell factor (SCF) is a major cytokine regulator of mast cell growth and function. The present study demonstrates that human mast cells are able to produce SCF. Constitutive synthesis of SCF mRNA was seen in the mast cells isolated from human lung and skin by RT-PCR. This was confirmed by in situ hybridization in conjunctival mast cells of both tryptase-only (MC_T) and tryptase/chymase (MC_TC) subsets. SCF protein product was found in conjunctival MC_T and MC_TC mast cells by immunohistochemistry. Soluble SCF protein was detected in the culture supernatant of isolated lung mast cells by ELISA, and cross-linkage of IgE receptor (Fcε–RI) on the lung mast cells in culture did not alter SCF mRNA expression, or the secreted soluble SCF protein. This was consistent with the finding that levels of SCF mRNA expression in conjunctival mast cells were similar between normal subjects and patients with seasonal allergic conjunctivitis (SAC). This study shows that human mast cells themselves are a cellular source of SCF, as well as being target cells for this growth factor. SCF may regulate mast cell growth and function via both paracrine and autocrine mechanisms. The production of SCF by mast cells may be regulated via mechanisms other than IgE receptor-mediated pathways. © 1998 John Wiley & Sons, Ltd.     

Reduced structural proteins in the conjunctival epithelium in allergic eye disease

AIMS: Allergic eye disease affects up to 20% of the population with varying severity. The conjunctival epithelium plays a key role in allergic eye disease. The purpose of this study was to determine whether the conjunctival epithelium is abnormal in allergic eye disease. METHODS: Conjunctival biopsy samples were taken from patients with seasonal allergic conjunctivitis (SAC) 'in' and 'out of season' and nonatopic control subjects. Specimens were fixed in glycol methacrylate, 2 microm serial sections cut and Image-J used to assess the sites and areas of immuno-staining. RESULTS: E-cadherin, CD44, keratins K5/6, K8, K13, K14, K18 and pan-keratin immuno-staining were all significantly lower in patients 'out of season' compared with normal controls. No structural differences in the epithelium were observed between the two groups. The epithelium of patients 'in season' was thicker and immuno-staining of the above markers similar to controls. CONCLUSIONS: The expression of a wide spectrum of epithelial cell adhesion proteins and cytoskeletal elements is downregulated in the conjunctiva of SAC patients 'out of season' compared with normal controls. We suggest that this could have an important impact on the ability of the epithelium to protect itself against allergen penetration, potentially influencing the development and course of allergic eye disease and offering a novel area for therapeutic control.     

Expression of ICAM-1 on conjunctival epithelium and ECP in tears and serum from children with allergic conjunctivitis.

BACKGROUND: Conjunctival eosinophilia may be considered to be an indicator of conjunctival allergic disease. The absence of eosinophils on conjunctival scraping, however, cannot rule out the diagnosis of allergic conjunctivitis because eosinophil infiltration may be deeper in conjunctival tissue. Eosinophil cationic protein (ECP) is a toxic product secreted by activated eosinophil as a marker of eosinophil activation. Eosinophil cationic protein concentrations in body fluids correlate with the severity of some allergic diseases. ICAM-1 promotes adhesion of leukocytes to epithelium, endothelium, and upregulates inflammation. Expression of adhesion can be modified by many extracellular and intracellular variables such as proinflammatory cytokines, extracellular matrix proteins, and viral infection. OBJECTIVE: We investigated whether local eosinophils are only activated in conjunctival epithelium or circulating activated eosinophils are involved in peripheral blood during allergic reaction of the eye. We also demonstrated the possible expression of ICAM-1 on epithelial cells from conjunctival scraping and compared them with soluble ICAM-1 values of serum and tears in children with allergic conjunctivitis and healthy children. METHODS: Seventeen subjects were selected on the basis of clinical manifestations, history, skin prick test, and total serum IgE. A microcapillary tube was used to collect the tears from the inner canthus. Conjunctival epithelia were obtained by scraping the upper tarsal conjunctiva. The level of ECP was measured by the CAP system, soluble ICAM-1 was measured by ELISA, and ICAM-1 on conjunctival epithelial cells were expressed by the avidine-biotin peroxide complex procedure. RESULTS: Serum IgE and the eosinophil count were increased in 10 out of 17 patients, positive skin prick tests were positive in 11 patients (Dermatophagoides pternyssinus; 9, Dermatophagoides farinae: 8), and eosinophilia in conjunctival epithelium was in 11 patients (4 patients: >3/HPF, 7 patients: 1-3/HPF). The ECP levels in tears were significantly increased in the patient group (12.0+/-8.0 versus 3.9+/-3.8 microg/mL, P = .01), but not in serum (52.5+/-43.1 versus 28.3+/-25.9 microg/mL). There is significant correlation between the eosinophil count in peripheral blood and on conjunctival epithelium (P = .007, r = .62; n = 25). The ICAM-1 expression score on conjunctival epithelial cells was significantly different between the patient group and controls (patient group: 1.77+/-1.25 versus control: 0.13+/-0.35 ng/mL, P = .002). There was a significant correlation between ICAM-1 expression on conjunctival epithelial cells and the ECP levels of tears (P = .01, r = .58; n = 25). Soluble ICAM-1 levels in serum and tears showed no significant difference between the patient group and controls, and also, there was no correlation between sICAM-1 levels in the serum and tears. CONCLUSION: Eosinophil cationic protein in tears and ICAM-1 expression scores on conjunctival epithelium showed a significant difference between children with allergic conjunctivitis and the healthy controls, but circulating ECP and sICAM-1 in serum were not significantly different between the two groups. These results may suggest that ICAM-1 is locally upregulated in inflammation, mediating eosinophil activation and migration to conjunctival epithelium, but is not involved as inflammatory mediators in peripheral blood during allergic response in children with allergic conjunctivitis.     

Nasal mast cells in experimentally induced allergic rhinitis in guinea-pigs

The kinetics of mast cell accumulation in the nasal mucosa during allergen exposure were investigated in animal model of experimentally induced allergic rhinitis. Guinea-pigs were divided into an unsensitized control group and five sensitized groups each containing live animals. Five sensitized groups were immunized intraperitoneally with ovalbumin, followed by intranasal administration of ovalbumin in each of four groups for 1. 2, 3 and 4 weeks, respectively. There were significant increases in the number of mast cells in the epithelium after 2 and 3 weeks in the groups receiving intranasal ovalbumin. No significant changes were detected in the lamina propria and the total number of mast cells. In the lamina propria, the distance between a mast cell and the basement membrane was significantly decreased in the groups after 2, 3 and 4 weeks of intranasal administration. These findings suggest that an infiltration of mast cells from the lamina propria to the epithelium occurred after 2 weeks of intranasal administration of allergen. An electron microscopic study showed no mast cells at the luminal surface of the epithelium and the majority of mast cells lying around the basal cells. This finding suggests that the allergen must penetrate into the epithelium in order to interact with mast cells in guinea-pig nose.     

Long-term effects of corticosteroid nasal spray on nasal inflammatory cells in patients with perennial allergic rhinitis

BACKGROUND: The effect of long-term topical nasal corticosteroid therapy on nasal inflammatory cells is unclear. OBJECTIVES: To investigate the long-term effect of fluticasone propionate aqueous nasal spray (FPANS) on nasal mucosal inflammatory cells and efficacy in a 1-year study in patients with perennial allergic rhinitis. METHODS: In a 1-year, double-blind, placebo-controlled study of duration we investigated the influence of a topical corticosteroid (FPANS), on Langerhans' cells (CD1a+ cells), T cells, mast cells, eosinophils and macrophages in nasal mucosa in 42 patients with perennial allergic rhinitis. Efficacy was evaluated by nasal symptom score. RESULTS: The FPANS group experienced significantly less sneezing and nasal itching compared with the placebo group. The total symptom score in the FPANS group declined significantly in comparison with baseline (P = 0.007) and placebo group (P = 0.009). After 1 year of active treatment, a significant decrease was seen in the epithelium in numbers of Langerhans' cells, CD3+, CD4+, CD8+ cells, mast cells and eosinophils. In the lamina propria, there was a significant decrease in eosinophils. CONCLUSION: These findings show that FPANS treatment results in a decrease of nasal inflammatory cells. Furthermore, the efficacy of FPANS improves after prolonged treatment.