Allergen stabilities and compatibilities in mixtures of high-protease fungal and insect extracts.

BACKGROUND: Current practice guidelines state that protease-rich fungal and insect extracts can be combined when preparing immunotherapy vaccines, but data supporting the stability of allergens in these mixtures have not been reported. OBJECTIVE: To determine the stabilities and compatibilities of Alternaria alternata and German cockroach allergens in mixtures with other high-protease fungal and insect (cockroach, imported fire ant) extracts at final extract concentrations consistent with injection dose targets for maintenance immunotherapy. METHODS: Mixtures containing Alternaria, German cockroach, and other fungal and insect extracts frequently included in immunotherapy vaccines were analyzed by a combination of quantitative analyses (enzyme-linked immunosorbent assays for multiallergen immunoglobulin E [IgE]-binding potency, major Alternaria allergen Alt a 1, and major German cockroach allergens Bla g 1 and Bla g 2) and qualitative methods (immunoblotting). Mixtures and analogous single-extract controls containing 10 to 50% glycerin were evaluated after storage for up to 12 months at 2°C to 8°C. RESULTS: Mixtures of extracts within the same phylogenetic groups (fungal-fungal, insect-insect) retained favorable Alternaria and German cockroach allergen levels and activities under most conditions examined. For several cross-taxonomic (fungal-insect) extract combinations at 10 to 25% glycerin concentrations, different immunochemical test methods measuring single (major) or multiple allergens yielded threefold to 10-fold variations in allergen recoveries. CONCLUSION: Allergen compatibilities can be compromised in some fungal-insect extract mixtures, contrary to current immunotherapy practice parameter recommendations. Separation of these products into different treatment vials may be required to produce stable mixtures for subcutaneous immunotherapy. Data from assay methodologies with distinct binding specificities provide a critical assessment of allergen activities in high-protease extract mixtures.

Stability of standardized grass, dust mite, cat, and short ragweed allergens after mixing with mold or cockroach extracts.

BACKGROUND: Limited data are available on the immunochemical compatibilities of standardized and nonstandardized allergen extracts in immunotherapy vaccines. Extract combinations recommended in immunotherapy practice parameters are based primarily on theoretical considerations rather than on actual product compatibilities. OBJECTIVES: To determine the stabilities of standardized grass, short ragweed, dust mite, and cat extracts after mixing with fungal and cockroach extracts at final product concentrations similar to those recommended for maintenance immunotherapy injections. METHODS: Mixtures were prepared using individual products from multiple sources at variable glycerin concentrations and were analyzed after storage for up to 1 year at 2 degrees C to 8 degrees C. Quantitative analyses included radial immunodiffusion assays for cat Fel d 1 and short ragweed Amb a 1 and human IgE enzyme-linked immunosorbent assay inhibitions for meadow fescue grass and dust mite allergens. Immunoblot analyses provided qualitative patterns of IgE binding. RESULTS: Meadow fescue grass allergens were unstable after mixing with fungal or cockroach extracts but were highly compatible with dust mite extracts from numerous commercial sources. Fescue and dust mite allergen recoveries varied considerably when mixed with different mold extracts. The presence of cockroach extracts reduced dust mite allergen potencies but retained moderate levels of cat and short ragweed allergen activities. In all cases examined, glycerin provided concentration-dependent improvements in allergen recoveries. CONCLUSIONS: Several allergen extract combinations generally regarded as unstable by current practice parameters seem to possess considerable biochemical compatibilities. Use of these mixtures in immunotherapy vaccines is supported for practitioners seeking to optimize formulations, doses, and treatment regimens for their patients.