RESUMO
The major challenge of allergy diagnosis lies in the development of accessible and reliable diagnostics allowing correct prediction of the clinical outcome following exposure to the offending allergen(s) and cross-reactive structures. Since the late nineties, evidence has accumulated that flow-assisted analysis and quantification of ex vivo-activated basophils (according to the basophil activation test [BAT]) might meet this requirement for different IgE-dependent allergies and particular forms of autoimmune urticaria. Other so-called nondiagnostic applications of the BAT involve therapeutic monitoring, follow-up of natural histories, and identification of allergenic recognition sites. However, it has also become clear that appropriate use of the BAT necessitates knowledge about degranulation metrics and guidance to guarantee correct execution and interpretation of the results. Here, we have reviewed the most relevant applications and limitations of the BAT. Some personal statements and views about its perspectives are made.
Assuntos
Teste de Degranulação de Basófilos/métodos , Basófilos/imunologia , Urticária Crônica/diagnóstico , Citometria de Fluxo/métodos , Hipersensibilidade/diagnóstico , Alérgenos/imunologia , Animais , Reações Cruzadas , Humanos , Imunoglobulina E/metabolismoRESUMO
BACKGROUND: Stimulated human basophils exhibit different degranulation patterns with release of mediators and appearance of activation markers such as CD63 and CD203c. Traditionally, released mediators are quantified in the supernatant of activated cells, whereas the expression of activation markers by individual cells is analyzed by flow cytometry. Alternatively, intracellular histamine and its release by basophils and mast cells have been repeatedly studied applying an enzyme-affinity-gold method based on the affinity of the histaminase diamine oxidase for its substrate histamine. OBJECTIVE: To develop a flow cytometric technique enabling to study histamine release by individual basophils in combination with the expression of activation markers. To elucidate the principles of basophil degranulation on a single cell level. METHODS: Intracellular histamine and its release is analyzed flow cytometrically by an enzyme-affinity method using diamine oxidase conjugated to laser-excitable fluorochromes. Phenotyping of cells implied flow cytometric quantification of CD63 and CD203c. Stimuli such as allergen, anti-IgE, N-formyl-met-leu-phe (fMLP), phorbol 12-myristate 13-acetate (PMA), ionomycin and interleukin (IL-)3 are applied to obtain different degranulation profiles. RESULTS: Stimulation with anti-IgE, allergen, fMLP and PMA±ionomycin induces a rapid release of histamine that can be analyzed flow cytometrically. Analyses on a single cell level reveal that histamine release is not restricted to cells showing significant up-regulation of CD63. Alternatively, up-regulation of CD203c does not per se indicate histamine release. In some patients, priming of cells with IL-3 not only facilitates basophil responsiveness but also implies an increased ability of DAO to label the cells. CONCLUSION: This study provides the proof-of-concept that histamine and its release can be studied by multicolor flow cytometry on a single cell level (HistaFlow). Coupling the data to simultaneous phenotyping of activated basophils confirms that histamine release principally results from anaphylactic degranulation and in a lesser extent from piecemeal degranulation.