Coordination of Mucosal Immunity by Innate Lymphoid Cells.

Mucosal barrier surfaces of the mammalian body are frequent sites of pathogen colonization or entry and are also densely colonized with trillions of normally beneficial microbes, termed the microbiota. Therefore, it is paramount that the host immune system recognizes these microbes and is capable of differentiating between them. To this end, a multitude of mechanisms have evolved to carefully balance the need for immune activation in the face of infections while maintaining an appropriate level of tolerance to protect both the host and the beneficial microbes from hyperactivation. These mechanisms include the deployment of an emerging class of tissue-resident innate immune cells, innate lymphoid cells (ILCs), that are enriched at mucosal barriers such as the lungs and intestines, and are critical mediators of tissue homeostasis, tolerance, repair, and innate immunity. Recent findings have provided insight into the regulation of these cells and their interactions, not only with microbes, both commensal and foreign, but also with other systems of the body to prevent disease and promote tissue health. Here, we discuss recent findings in the regulation and function of ILCs, including a focus on their interactions with bodily systems, such as the nervous system, and how these interactions affect their functionality in states of health, infection, and disease.

Immunology of the Uterine and Vaginal Mucosae.

Along with the maintenance of symbiotic mutualism with commensal microbes and protection against invasive infections common to all mucosal barrier tissues, female reproductive tissues have additional, unique tasks that include dynamic cyclic cellular turnover in menstruation and immunological tolerance to genetically foreign fetal antigens in pregnancy. Here we review current knowledge on distinct features of the immune cells in female reproductive tissue with regard to antimicrobial host defense and adaptations to accommodate the fetus during pregnancy. Outstanding areas for future research to obtain new functional insights on this enigmatic mucosal barrier are also highlighted.

A Germinal Center Checkpoint of AIRE in B Cells Limits Antibody Diversification.

In response to antigens, B cells undergo affinity maturation and class switching mediated by activation-induced cytidine deaminase (AID) in germinal centers (GCs) of secondary lymphoid organs, but uncontrolled AID activity can precipitate autoimmunity and cancer. The regulation of GC antibody diversification is of fundamental importance but not well understood. We found that autoimmune regulator (AIRE), the molecule essential for T cell tolerance, is expressed in GC B cells in a CD40-dependent manner, interacts with AID and negatively regulates antibody affinity maturation and class switching by inhibiting AID function. AIRE deficiency in B cells caused altered antibody repertoire, increased somatic hypermutations, elevated autoantibodies to T helper 17 effector cytokines and defective control of skin Candida albicans. These results define a GC B cell checkpoint of humoral immunity and illuminate new approaches of generating high-affinity neutralizing antibodies for immunotherapy.