[Reactivity to antigens of the microbiome of the respiratory tract in patients with respiratory allergic diseases]. / Reactividad a antígenos del microbioma de vías respiratorias en pacientes con enfermedad alérgica respiratoria.

BACKGROUND: The prevalence of allergic diseases has increased worldwide. Recent studies have informed that the dysbiosis of some specific members of the human microbiota may enhance the allergic response of the respiratory tract. OBJECTIVE: To retrospectively explore the role of some microorganisms of the human microbiota on the skin reactivity and their effect on the chronicity of allergic respiratory diseases in humans. METHODS: A retrospective analysis of a 5-year database of patients with allergic respiratory tract disease. The frequency and magnitude of the reactivity to 38 different allergens was determined. RESULTS: Dermatophagoides pteronyssinus had the highest frequency of reactivity (93.7 %), followed by the bacterial allergen (a mixture of Staphylococcus aureus and Staphylococcus epidermidis) with a frequency of reactivity of 91.82 %; whereas Candida albicans had a frequency of reactivity of only 79.32 %. The frequency of reactivity to the pollen of native Mexican weeds was even lower ~79 %. CONCLUSION: The microorganisms of the microbiota that were analyzed in this study seem to have an influence on the development of respiratory allergic inflammation, associated with long-term colonization of the pharynx, nasal mucosa, and sinuses because of these microorganisms.

Antecedentes: La prevalencia de las enfermedades alérgicas ha aumentado en todo el mundo. En estudios recientes se ha informado que la disbiosis de algunos miembros específicos de la microbiota humana puede potenciar la respuesta alérgica de las vías respiratorias. Objetivo: Explorar retrospectivamente el papel de algunos microorganismos de la microbiota humana en la reactividad cutánea y su efecto sobre la cronicidad de las enfermedades alérgicas respiratorias en el humano. Métodos: Análisis retrospectivo de la base de datos de un periodo de cinco años de pacientes con enfermedad alérgica de las vías respiratorias. Se determinó la frecuencia y magnitud de la reactividad a 38 alérgenos diferentes. Resultados: La mayor frecuencia de reactividad la presentó Dermatophagoides pteronyssinus (93.7 %), al que le siguió una combinación bacteriana de Staphylococcus aureus-Staphylococcus epidermidis (91.82 %) y Candida albicans (79.32 %). La reactividad a alérgenos de polen de malezas nativas de México fue aun menor, aproximadamente de 79 %. Conclusión: Los microorganismos de la microbiota analizados en este estudio parecen tener una influencia en el desarrollo de la inflamación alérgica respiratoria, asociada a la colonización a largo plazo de la faringe, la mucosa nasal y los senos paranasales.

Caloric restriction modifies both innate and adaptive immunity in the mouse small intestine.

Although caloric restriction (CR) apparently has beneficial effects on the immune system, its effects on the immunological function of the intestinal mucosa are little known. The present study explored the effect of CR on the innate and adaptive intestinal immunity of mice. Balb/c mice were either fed ad libitum (control) or on alternate days fed ad libitum and fasted (caloric restriction). After 4 months, an evaluation was made of IgA levels in the ileum, the gene expression for IgA and its receptor (pIgR), as well as the expression of two antimicrobial enzymes (lysozyme and phospholipase A2) and several cytokines of the intestinal mucosa. CR increased the gene expression of lysozyme and phospholipase A2. The levels of IgA were diminished in the ileum, which apparently was a consequence of the reduced transport of IgA by pIgR. In ileum, CR increased the gene expression for most cytokines, both pro- and anti-inflammatory. Hence, CR differentially modified the expression of innate and adaptive immunity mediators in the intestine.