C.Raymond Zeiss

Immunoglobulin E—mediated asthma and hypersensitivity pneumonitis with precipitating anti-hapten antibodies due to diphenylmethane diisocyanate (MDI) exposure

Two workers are presented who were exposed to diphenylmethane diisocyanate (MDI) while coating pipes with a polyurethane foam. After a latent period of exposure, worker A developed immediate-onset asthma and worker B developed a clinical picture of hypersensitivity pneumonitis for which he was hospitalized. The antibody response of these workers to a conjugate of MDI with human serum albumin (MDI-HSA) was measured by gel precipitation, total antibody binding of 125I MDI-HSA, and specific IgG and IgE antibody by polystyrene-tube radioimmunoassay (PTRAI). Worker B had precipitating antibody to MDI-HSA by double immunodiffusion in gel. Both workers had high levels of IgG antibody specific for MDI-HSA which had some cross-reactivity with a conjugate or toluene diisocyanate and HSA. Total serum antibody binding of 125I MDI-HSA was 15 microgram/ml in worker A and 900 microgram/ml in worker B. Both workers had serum IgE antibody specific for MDI-HSA as measured by two PTRIA techniques. These results indicate that a marked immunologic response to MDI is possible in exposed workers and that hypersensitivity pneumonitis can occur subsequent to the inhalation of a low-molecular-weight chemical in the industrail setting.

Refractory period to aspirin in a patient with aspirin-induced asthma

Oral aspirin challenge was used to detect unrecognized aspirin intolerance in a select group of 50 asthmatic patients who denied aspirin intolerance. A double-blind protocol was used to further study those patients who reacted to initial graded aspirin challenge. In one patient the use of a double-blind protocol led to the serendipitous discovery of a 72-hr refractory period to the adverse effects of aspirin, after initial ingestion of aspirin resulted in respiratory and systemic symptoms.

Occupational asthma secondary to inhalation of garlic dust

An atopic patient in whom the inhalation of occupationally encountered garlic dust precipitated asthma is reported. Studies revealed the presence of immediate skin-test reactivity to garlic extract, and specific IgE anti-garlic antibodies were detected in the patients serum by the polystyrene tube solid phase radioimmunoassay (PTRIA) technique. Bronchial challenge with garlic dust also resulted in an immediate asthmatic response typical for an IgE-induced mechanism.

Syndromes in Workers Exposed to Trimellitic Anhydride: A Longitudinal Clinical and Immunologic Study

A longitudinal study of workers involved in the manufacture of trimellitic anhydride has been in progress since 1977. Trimellitic anhydride is a low-molecular-weight, reactive chemical used in the manufacture of plastics. Initial studies done in 1976 defined three syndromes due to inhalation of trimellitic anhydride: asthma-rhinitis, a late respiratory systemic syndrome, and an irritant response. Also, serologic techniques were developed to measure total antibody and IgE antibody to trimellityl human serum albumin. From 1977 to 1981, 64 workers were assessed. Six workers presented with asthma-rhinitis, high levels of IgE antibody, and skin test reactivity to trimellityl human serum albumin; five workers developed the late respiratory systemic syndrome; and one worker had both immunologic syndromes. These serologic measurements detected or were predictive of an immunologic respiratory illness and were useful in monitoring workers involved in the manufacture of trimellitic anhydride.

Human Antihapten Antibodies in Trimellitic Anhydride Inhalation Reactions: IMMUNOGLOBULIN CLASSES OF ANTI-TRIMELLITIC ANHYDRIDE ANTIBODIES AND HAPTEN INHIBITION STUDIES

Inhalational exposure to trimellitic anhydride (TMA) produces an immediate-type asthmatic or a late respiratory systemic syndrome in certain workers after a latent period of work exposure. TMA has been found to react with proteins to produce a hapten-protein complex (trimellitate [TM] protein) or become hydrolyzed in aqueous, alkaline solutions to produce a salt, NaTM. Using a solid-phase radioimmunoassay technique, antibodies of different Ig classes were detected against TM-protein conjugates. IgE antibody was detected in three of five workers with asthma. IgG and IgA antibodies were detected in most exposed workers but higher levels of antibody were found in symptomatic workers even after long periods without direct TMA exposure. IgM antibody activity against TM-human serum albumin (TM-HSA) was detected but did not differentiate symptomatic from asymptomatic workers. NaTM served as a hapten for study because it does not react with proteins to form a hapten-protein complex as TMA does. The NaTM only partially inhibited IgG antibody activity against TM-HSA and much smaller amounts of TM-HSA than of NaTM were required to neutralize IgG antibody. A similar result was found with TM-ovalbumin. The latter results suggest that some IgG antibody is directed against a TM-protein moiety, probably a TM-amino acid determinant. In contrast to IgG, marked inhibition by NaTM of IgA and IgM antibody against TM-HSA was found in the sera studied.

Comparison of immune reactivity to polyvalent monomeric and polymeric ragweed antigens

The proteins of an aqueous extract of ragweed pollen (RW) were precipitated at 90% saturation with (NH4)2SO4, solubilized, and sieved through Sephadex G-15. The excluded fraction, termed the monomeric form (MRW), was cross-linked with glutaraldehyde to form polymerized ragweed (PRW). As compared with MRW, PRW is more immunogenic in rabbits in the production of antibody against RW antigen E (AgE). MRW and PRW resulted in equal peak reaginic responses in rabbits but the duration of reagin production was longer after immunization with MRW than with PRW. Both MRW and PRW have exposed antigenic determinants of AgE but PRW had approximately 1/3 the number as shown by neutralization of human antibody against RW AgE. PRW had 100-to 1,000-fold less human cutaneous reactivity than MRW. PRW may be a more easily effective therapeutic agent for human RW immunotherapy than currently used aqueous extracts and may be more readily obtainable than polymerized AgE.

A multi-institutional trial of polymerized whole ragweed for immunotherapy of ragweed allergy

Abstract Eighty ragweed-sensitive patients in four cities were recruited to study the safety and efficacy of partially purified, polymerized whole ragweed (PRW) as an improved form of immunotherapy. Groups of 20 patients in Chicago, Boston, Memphis, and St. Louis had blood drawn for immunologic studies before and after the 1978 and 1979 ragweed seasons and completed detailed daily symptom score sheets each day of the 1978 and 1979 ragweed pollen seasons. Beginning in March, 1979, all patients except one received 15 weekly injections of PRW totaling 50,000 protein nitrogen units (PNU) and containing about 500 μg ragweed AgE. One patient received 25,000 PNU. Symptom score indices of the posttreatment 1979 season were compared with those from the pretreatment 1978 season and also with the scores of similar groups of ragweed-sensitive patients in each city treated only with medication for symptomatic relief during the 1979 season. Local reactions to polymerized ragweed immunotherapy were minimal. No abnormalities in complete blood count, erythrocyte sedimentation rate, chest x-ray film, urinalysis, or rheumatoid factor occurred in the immunotherapy-treated groups. Total serum antibody binding of ragweed AgE increased 12-fold following immunotherapy. When compared either with their 1978 untreated group scores or when compared with scores from the untreated group in each city in 1979 (control group), the symptom score indices of the immunotherapy-treated groups in 1979 were significantly improved. PRW is efficacious in the treatment of ragweed hay fever and can be administered more safely and in higher doses with fewer injections than conventional extracts. It represents an improved form of immunotherapy.

Studies of perennial ragweed immunotherapy

Perennial ragweed immunotherapy was studied in 24 patients with ragweed pollenosis. Cellular responsiveness was determined by measuring the cellular reactivity and sensitivity to ragweed antigen E (RW-AgE) by RW-AgE-induced leukocyte histamine release. Serum blocking antibody content was determined by measuring the serum RW-AgE binding capacity by ammonium sulfate coprecipitation of bound RW-AgE. Specific IgE (anti-RW-AgE) concentration was determined by polystyrene tube radioimmunoassay. Cellular responsiveness decreased with continuing immunotherapy, as did the specific IgE concentrations. The serum RW-AgE binding capacity, in contrast, increased as treatment continued. The absence of demonstrable correlations between RW-AgE binding capacity and cellular reactivity, cellular sensitivity, and specific IgE concentrations contrasted impressively with the demonstration of multiple significant correlations between the change in the RW-AgE binding capacity and the other parameters studied. The degree of increase in RW-AgE binding capacity correlated significantly with the degree of decrease in both the specific IgE concentration (p is less than 0.04) and the cellular sensitivity to RW-AgE (p is less than 0.003). these findings suggest that the active process of blocking antibody production, rather than the passive presence of blocking antibody, is related to the process which decreases the specific IgE concentration and the degree of cellular responsiveness and therefore results in clinical improvement.

Polymerization of mixtures of grass allergens

Mixed grass pollen allergens were precipitated from crude grass extract by 90% saturation with ammonium sulfate. The precipitate was dissolved and polymerized with glutaraldehyde. Polymerized allergens with a molecular weight range of 200,000 to 4,000,000 were isolated. The resultant grass allergen polymers had reduced allergenicity but were capable of absorbing out IgG antibody from sera of 2 patients treated with crude grass allergens. This alteration of allergenicity was intended to reduce the ability of allergens to react with IgE-sensitized cells rather than to modify or destroy antigenic determinants. Prior exposure of allergens to phenol used as a preservative inhibited the polymerization process probably by blocking combining sites with which glutaraldehyde reacts.

Reduced allergenicity of high molecular weight ragweed polymers

Polymerized ragweed antigens of different molecular weight ranges were studied to determine if the degree of allergenicity was dependent on molecular size of the polymers. In this study, allergenicity is defined as the ability to elict IgE-mediated skin reactivity. Ragweed antigen treated with glutaraldehyde was fractionated into one preparation with a molecular weight range of 200,000 to 20,000,000 and another with molecular weights less than 200,000. Except for the difference in molecular sizes of the two molecular sizes of the two preparations, all ragweed polymers had been treated in an identical fashion. The low molecular weight fraction had cutaneous endpoint reactivity greater than 10(5) to 10(8) times that of the high molecular weight materials. In these and other studies, immunogenicity defined as the ability to induce an IgG antibody response was retained by the high molecular weight material. The results are consitent with the hypothesis that allergenicity decreases as the molecular weight of the polymerized allergen increases.