The role of intestinal bacteria in promoting tolerance to food.

The global prevalence of atopic diseases, including food allergy, is increasing and correlates with shifts in the commensal microbiota triggered by modern lifestyle factors. Current research focuses on the immunological mechanisms and microbial cues that regulate mucosal immunity and prevent allergic responses to food. We review the identification and characterization of novel antigen-presenting cell subsets that may be critical for the establishment and maintenance of tolerance to both food and intestinal bacteria.

Hit me baby one more time…with microbial IPA.

The immune system is imprinted by gut microbes in early life. In this issue of Immunity, Perdijk et al. show that dysregulation of airway epithelial function by neonatal antibiotic treatment can be reversed by supplementation with a depleted microbial metabolite.

A synbiotic of Anaerostipes caccae and lactulose prevents and treats food allergy in mice.

Depletion of beneficial microbes by modern lifestyle factors correlates with the rising prevalence of food allergies. Re-introduction of allergy-protective bacteria may be an effective treatment strategy. We characterized the fecal microbiota of healthy and food-allergic infants and found that the anaerobe Anaerostipes caccae (A.

Commensal bacteria signal through TLR5 and AhR to improve barrier integrity and prevent allergic responses to food.

The increasing prevalence of food allergies has been linked to reduced commensal microbial diversity. In this article, we describe two features of allergy-protective Clostridia that contribute to their beneficial effects. Some Clostridial taxa bear flagella (a ligand for TLR5) and produce indole (a ligand for the aryl hydrocarbon receptor [AhR]).

Rational affinity maturation of anti-amyloid antibodies with high conformational and sequence specificity.

The aggregation of amyloidogenic polypeptides is strongly linked to several neurodegenerative disorders, including Alzheimer's and Parkinson's diseases. Conformational antibodies that selectively recognize protein aggregates are leading therapeutic agents for selectively neutralizing toxic aggregates, diagnostic and imaging agents for detecting disease, and biomedical reagents for elucidating disease mechanisms. Despite their importance, it is challenging to generate high-quality conformational antibodies in a systematic and site-specific manner due to the properties of protein aggregates (hydrophobic, multivalent, and heterogeneous) and limitations of immunization (uncontrolled antigen presentation and immunodominant epitopes).