Carolyn von Allmen

In vivo antigen-induced cutaneous mediator release: simultaneous comparisons of histamine, tryptase, and prostaglandin D2 release and the effect of oral corticosteroid administration.

To determine if basophils were responsible for the persistent release of histamine during continuous antigen (Ag) administration in the skin, we compared the release of histamine, tryptase, and prostaglandin D2 (PGD2) at sites of continuous (5 hours) and intermittent Ag and codeine skin-chamber challenge in the skin of 16 atopic and four nonatopic subjects. In addition, we compared the release of these three mediators at sites of continuous Ag challenge in five subjects during oral administration of 1 mg/kg of methylprednisolone. Continuous Ag challenge induced an initial (first hour) peak of histamine release followed by a lower level plateau of histamine release during the next 4 hours. The level of histamine release during the second to fifth hours was significantly higher at these sites of continuous Ag challenge than at the codeine- or intermittent Ag-challenge sites. Levels of both tryptase and PGD2 were increased after the first hour of Ag or codeine challenge, and tryptase decreased progressively thereafter at all sites. In corticosteroid-treated subjects, the persistent histamine release during the second to fifth hours of Ag challenge was significantly reduced. In contrast, corticosteroid therapy did not affect histamine release during the first hour of Ag challenge nor the release of PGD2 or tryptase at any time period. These findings suggest that basophils are the source of the persistent histamine release at sites of continuous in vivo Ag challenge, since such release (1) was unaccompanied by release of tryptase or PGD2 (released from mast cells but not basophils), (2) did not occur after codeine challenge that activates mast cells but not basophils, and (3) was inhibited by steroids that inhibit the accumulation and release of histamine from basophils but not mast cells.

Cellular inflammatory responses during immediate, developing, and established late-phase allergic cutaneous reactions: Effects of cetirizine

BACKGROUND In some previous studies, the antihistamine cetirizine has inhibited both developing (at 6 hours) and established (at 24 hours) gross late-phase skin reactions (LPR) to pollen antigens, possibly relevant to clinical drug effects. However, the effects of cetirizine at the histologic level require further definition. OBJECTIVE To characterize cetirizine effects on gross and histologic inflammatory events from 20 minutes to 24 hours after intradermal antigen challenge in sensitive patients. METHODS Gross and histologic responses to intradermal pollen antigen, codeine, histamine, and buffer diluent were assessed during randomized 7-day treatments with cetirizine and placebo. Accumulated neutrophils, eosinophils, activated (EG2+) eosinophils, and T lymphocytes were quantitated. The degrees of extracellular deposition of lactoferrin from neutrophils and eosinophilic cationic protein (ECP) from eosinophils were also assessed. RESULTS During placebo treatment, wheal-and-flare responses were significantly greater to antigen at 20 minutes (p < 0.01) and induration at 6 hours (p < 0.01) at antigen challenge sites than at buffer diluent sites. During cetirizine treatment, these wheal-and-flare responses to antigen were inhibited significantly (p < 0.01) but gross LPRs were not affected. During placebo treatment, significantly more cells per high-power field were found in antigen sites than in buffer sites of neutrophils at 20 minutes (p < 0.01) and 24 hours; than in eosinophils at 20 minutes, 6 hours, and 24 hours (p < 0.01 for each); than in EG2+ cells at 20 minutes (p = 0.004), 6 hours (p = 0.001), and 24 hours (p = 0.02); and at T lymphocyte sites at 24 hours (p = 0.001). Extracellular deposition of lactoferrin and ECP was significantly greater at antigen sites than at buffer sites at 6 and 24 hours. Cetirizine treatment had no significant effect on these responses. CONCLUSION Neutrophils, eosinophils, and T lymphocytes were persistently more common at antigen sites than at buffer sites through 24 hours. Many of these neutrophils and eosinophils were activated, releasing more lactoferrin and ECP into the extracellular dermis for at least 24 hours after antigen challenge. Cetirizine inhibited gross immediate responses to antigen, but not the gross LPR nor the cellular inflammatory responses seen in such LPR sites.

Release of histamine and tryptase during continuous and interrupted cutaneous challenge with allergen in humans

To help in understanding the patterns of in vivo mediator release in human allergic skin reactions, we have used a skin chamber model to challenge the denuded bases of skin blisters of 11 sensitive subjects with pollen antigens (Ags) and codeine (C), a mast cell degranulator. Challenges were performed either (1) continuously for 6 hours or (2) in an intermittent fashion that is, Ag or C for the first hour, buffer for the next 4 hours, and then Ag or C during the sixth hour. Fluids in the overlying chamber were assayed for levels of the mast cell components, histamine and tryptase. There was peak release of both histamine and tryptase during the first hour of Ag incubation (89 +/- 11 ng/ml and 1428 +/- 260 ng/ml, respectively). At continuous Ag-challenge sites, there was a plateau of histamine levels (8.0 to 9.5 ng/ml) during the next 4 hours, whereas tryptase levels decreased progressively to baseline levels. Challenge of continuous Ag-incubation sites with C, a mast cell activator, led to another peak release of both histamine and tryptase. At interrupted Ag-challenge sites, histamine levels decreased abruptly, and tryptase levels decreased progressively after the first hour. Rechallenge of such sites with Ag during the sixth hour induced a peak release of histamine but no increase in tryptase levels. Continuous challenge with C for up to 5 hours in other sites induced an initial peak histamine release without a subsequent plateau. However, such a plateau of histamine (but not tryptase) release occurred after an initial C challenge if Ag was subsequently incubated in a continuous fashion.(ABSTRACT TRUNCATED AT 250 WORDS)

Cellular inflammatory responses and mediator release during early developing late-phase allergic cutaneous inflammatory responses: Effects of cetirizine

BACKGROUND Events in developing cutaneous late-phase allergic reactions can be characterized by a combination of skin chamber and biopsy approaches. In some previous studies, cetirizine reportedly inhibited mediator release and/or inflammatory cell responses in late-phase reactions. OBJECTIVE This study was carried out to determine the effects of cetirizine on early late-phase reactions by using skin chamber and skin biopsy specimens. METHODS Skin chamber responses during a 6-hour challenge with pollen antigens were assessed in 15 sensitive subjects during randomized, crossover treatment with cetirizine (20 mg/day) or placebo for 7-day periods with measurements of humoral and cellular components. Biopsy specimens of the underlying dermis were obtained. RESULTS During cetirizine treatment, there was significant (p < 0.01) inhibition of immediate wheal and flare reactions to pollen antigens (34, 46%), codeine (41, 65%), and histamine (38, 68%). However, gross late-phase reactions at 6 hours were unaffected. During both cetirizine and placebo treatment, there was significantly greater accumulation at antigen sites in: (1) skin chamber levels of histamine, total cells, lactoferrin, and eosinophil cationic protein; (2) eosinophils (total and activated) on appended cover glasses; (3) deposition of lactoferrin and eosinophil cationic protein in the underlying dermis. However, these responses were not significantly different during cetirizine treatment compared with placebo treatment periods. CONCLUSION A persistent pattern of inflammatory cell accumulation with release of granule proteins during early late-phase reactions was unaffected by cetirizine treatment.

Determinants of in vivo histamine release in cutaneous allergic reactions in humans

To determine host factors influencing the magnitude of mediator release during ongoing cutaneous allergic reactions in humans, we compared, in 22 subjects, the first-hour, second- to fifth-hour, and total (0 to 5 hours) skin chamber histamine release to (1) the in vitro reactivity and sensitivity of basophils to antigen for histamine release and (2) skin test sensitivity and reactivity to antigen, histamine, and codeine. There was no significant correlation between the first-hour and second- to fifth-hour histamine release. With a combination of basophil, antigen, histamine, and codeine skin sensitivity and reactivity, 64% to 75% of the magnitude of the first-hour, second- to fifth-hour, and total (0 to 5 hours) skin chamber histamine release could be accounted for. We conclude that antigen-induced in vivo allergic responses are a complex phenomenon dependent, in part, on antigen sensitivity, basophil and mast cell reactivity, and end organ responsiveness to mediators.

Fibrin formation during ongoing cutaneous allergic reactions : comparison of responses to antigen and codeine

BACKGROUND Fibrin formation, assessed by fibrinopeptide A levels, was evaluated over a 5-hour period at skin chamber sites challenged continuously with pollen antigen or codeine in 10 reactive individuals. METHODS The levels of fibrinopeptide A at antigen sites were compared with those at sites challenged with buffer diluent alone or with codeine for the first 3 hours, followed by antigen challenge during the subsequent 2 hours. RESULTS Findings showed: (1) fibrinopeptide A levels were higher at antigen challenge sites than at codeine challenge sites by the third hour, with these levels at both sites greater than those at buffer sites; (2) antigen challenge of the previous codeine sites during the third to fifth hours led to a further increase in fibrinopeptide A levels; (3) fibrinopeptide A levels correlated with chamber fluid immunoglobulin G levels but not with chamber fluid histamine levels. CONCLUSIONS Because antigen and codeine both activate mast cells prominently, these findings suggest that other factors play a role in the persistent fibrin formation at allergic skin reaction sites. Because antigen activates both basophils and mast cells and codeine only activates mast cells, we conclude that both basophils and mast cells contribute to the persistent fibrin formation at sites of allergic reactions.

Platelet-activating factor- and leukotriene B4-induced release of lactoferrin from blood neutrophils of atopic and nonatopic individuals.

We found increased accumulation of neutrophils and their components, lactoferrin (Lf) and elastase, as well as platelet-activating factor (PAF) and leukotriene B4 (LTB4) at sites of ongoing human allergic reactions. To determine whether PAF or LTB4, could be the stimulus for in vivo Lf release, blood neutrophils of 17 subjects were incubated with PAF, LTB4, or the phorbol ester, phorbol myristate acetate (PMA), and the released Lf (ELISA assay) was compared with spontaneous release. Significantly increased Lf release was induced by PAF, 10(-5) to 10(-8) mol/L (p less than 0.002); LTB4, 10(-7) to 10(-8) mol/L (p less than 0.004); and PMA (0.05 micrograms/ml) in a dose-dependent reaction. Cytochalasin was not required for Lf secretion but did enhance such responses. PAF-induced Lf secretion was inhibited by the specific PAF antagonist, BN 52063. More Lf was released from neutrophils of atopic than from nonatopic subjects in response to PAF, 10(-6) mol/L (4.2 micrograms/ml +/- 0.2 versus 2.6 micrograms/ml +/- 0.2; p less than 0.001) but not to LTB4, PMA, or buffer (p, not significant). We conclude that (1) PAF and LTB4 released in vivo could stimulate local neutrophils to release Lf with possible pathogenic effects and (2) neutrophils of atopic subjects are more responsive to PAF than neutrophils of nonatopic subjects in this regard.

Cellular inflammatory responces in human allergic skin reactions

To define better the role of inflammation in the response to pollen antigens, we have used our skin chamber model to study inflammatory cells recovered from the sites of ongoing allergic reactions. In 15 atopic subjects, paired skin blister sites were simultaneously challenged with ragweed- or grass-pollen antigen or buffer for 5 hours. There were 10 times as many cells recovered at antigen (20.7 X 10(5)) than at buffer (2.0 X 10(5)) sites, p less than 0.005; greater than 97% of the cells recovered were neutrophils. The number of cells recovered at the antigen sites correlated with the total amount of histamine released (r = 0.57; p less than 0.05) but not with the extinction dilution skin test reactivity nor with the intensity of the late cutaneous allergic response measured 6 hours after the injection of antigen. Phase-contrast microscopic examination of the cells recovered from the antigen sites demonstrated that 82% to 95% were polarized compared to 0% to 1.5% of autologous blood neutrophils obtained simultaneously from the peripheral blood. Antigen site cells were as capable of serum-dependent phagocytosis as peripheral blood neutrophils. There was no significant difference in the migratory response to buffer, the chemoattractant N-formyl-methionyl-leucyl-phenylalanine, or leukotriene B4, but there was a significantly decreased response to platelet-activating factor when the cells recovered from antigen sites were compared to autologous blood neutrophils.(ABSTRACT TRUNCATED AT 250 WORDS)

Activation of the coagulation pathway during ongoing allergic cutaneous reactions in humans

The levels of histamine, fibrinopeptide A (FPA), and IgG were determined in chamber fluids overlying sites of antigen versus buffer incubation for up to 7 hours in seven atopic and four antigen-nonreactive subjects. Significant increases in histamine were observed at antigen versus buffer sites in the atopic subjects throughout the 7-hour period. FPA and IgG levels were higher in antigen than in buffer sites from 0 to 5 hours in the atopic subjects. Furthermore, FPA levels correlated with the magnitude of induration at 6 hours after antigen injection in atopic subjects. There were no differences in the levels of histamine, FPA, or IgG at antigen versus buffer sites in the skin test-negative subjects. We suggest that the combination of vascular leakage of proteins, induced by vasoactive mediator release, and activation of these proteins during ongoing cutaneous reactions is responsible for fibrin formation that contributes to the pathophysiology of late-phase allergic responses in the skin.

Comparison of inflammatory events in skin sites with and without cutaneous late-phase reactions after prominent immediate IgE-mediated responses.

BACKGROUND A number of inflammatory events have been detected in skin chambers overlying sites of developing late-phase reactions (LPR) to pollen antigens in sensitive subjects. However, the pathogenic significance of such events is still unclear. OBJECTIVE We sought to compare inflammatory responses and cytokine levels in skin chambers that overlie sites of antigen challenge in individuals with and individuals without LPRs after immediate wheal responses of similar intensity. RESULTS Early histamine releases at antigen sites were similar in eight subjects with LPR (+/+ group) and eight subjects without LPR (+/- group). However, histamine releases during hours 2 through 5 of antigen challenge were significantly greater in the +/+ subjects than in the +/- subjects. Total exuding leukocytes; percent eosinophils; and levels of eosinophil cationic protein, lactoferrin, and IL-8 were significantly greater at antigen versus buffer control challenge sites in both the +/+ and +/- groups, with no significant differences between the groups. IL-1 and IL-6 levels were not greater at antigen sites than at buffer sites. CONCLUSIONS The only significantly greater antigen-induced response detected in +/+ subjects than in +/- subjects was in later histamine release, which is possibly a marker of other inflammatory responses because histamine itself does not induce LPRs. Other inflammatory events assessed may be somewhat greater in +/+ subjects, but not significantly so.