B cell depletion with anti-CD20 promotes neuroprotection in a BAFF-dependent manner in mice and humans.

Anti-CD20 therapy to deplete B cells is highly efficacious in preventing new white matter lesions in patients with relapsing-remitting multiple sclerosis (RRMS), but its protective capacity against gray matter injury and axonal damage is unclear. In a passive experimental autoimmune encephalomyelitis (EAE) model whereby TH17 cells promote brain leptomeningeal immune cell aggregates, we found that anti-CD20 treatment effectively spared myelin content and prevented myeloid cell activation, oxidative damage, and mitochondrial stress in the subpial gray matter. Anti-CD20 treatment increased B cell survival factor (BAFF) in the serum, cerebrospinal fluid, and leptomeninges of mice with EAE. Although anti-CD20 prevented gray matter demyelination, axonal loss, and neuronal atrophy, co-treatment with anti-BAFF abrogated these benefits. Consistent with the murine studies, we observed that elevated BAFF concentrations after anti-CD20 treatment in patients with RRMS were associated with better clinical outcomes. Moreover, BAFF promoted survival of human neurons in vitro. Together, our data demonstrate that BAFF exerts beneficial functions in MS and EAE in the context of anti-CD20 treatment.

Fantastic IgA plasma cells and where to find them.

IgA is produced in large quantities at mucosal surfaces by IgA+ plasma cells (PC), protecting the host from pathogens, and restricting commensal access to the subepithelium. It is becoming increasingly appreciated that IgA+ PC are not constrained to mucosal barrier sites. Rather, IgA+ PC may leave these sites where they provide both host defense and immunoregulatory function. In this review, we will outline how IgA+ PC are generated within the mucosae and how they subsequently migrate to their "classical" effector site, the gut lamina propria. From there we provide examples of IgA+ PC displacement from the gut to other parts of the body, referencing examples during homeostasis and inflammation. Lastly, we will speculate on mechanisms of IgA+ PC displacement to other tissues. Our aim is to provide a new perspective on how IgA+ PC are truly fantastic beasts of the immune system and identify new places to find them.

Stromal Cell-Mediated Coordination of Immune Cell Recruitment, Retention, and Function in Brain-Adjacent Regions.

The CNS is tightly regulated to maintain immune surveillance and efficiently respond to injury and infections. The current appreciation that specialized "brain-adjacent" regions in the CNS are in fact not immune privileged during the steady state, and that immune cells can take up residence in more immune-privileged areas of the CNS during inflammation with consequences on the adjacent brain parenchyma, beg the question of what cell types support CNS immunity. As they do in secondary lymphoid organs, we provide evidence in this review that stromal cells also underpin brain-resident immune cells. We review the organization and function of stromal cells in different anatomical compartments of the CNS and discuss their capacity to rapidly establish and elaborate an immune-competent niche that further sustains immune cells entering the CNS from the periphery. In summary, we argue that stromal cells are key cellular agents that support CNS-compartmentalized immunity.

Interrupting reactivation of immunologic memory diverts the allergic response and prevents anaphylaxis.

BACKGROUND: IgE production against innocuous food antigens can result in anaphylaxis, a severe life-threatening consequence of allergic reactions. The maintenance of IgE immunity is primarily facilitated by IgG+ memory B cells, as IgE+ memory B cells and IgE+ plasma cells are extremely scarce and short-lived, respectively. OBJECTIVE: Our aim was to investigate the critical requirements for an IgE recall response in peanut allergy. METHODS: We used a novel human PBMC culture platform, a mouse model of peanut allergy, and various experimental readouts to assess the IgE recall response in the presence and absence of IL-4Rα blockade. RESULTS: In human PBMCs, we have demonstrated that blockade of IL-4/IL-13 signaling aborted IgE production after activation of a recall response and skewed the cytokine response away from a dominant type 2 signature. TH2A cells, identified by single-cell RNA sequencing, expanded with peanut stimulation and maintained their pathogenic phenotype in spite of IL-4Rα blockade. In mice with allergy, anti-IL-4Rα provided long-lasting suppression of the IgE recall response beyond antibody treatment and fully protected against anaphylaxis. CONCLUSION: The findings reported here advance our understanding of events mediating the regeneration of IgE in food allergy.

Diabetes and technology: A pilot study on the management of patients with insulin pumps during the COVID-19 pandemic.

BACKGROUND: The recent COVID-19 pandemic has accelerated the treatment process through IT/technological supports, useful in the management of chronic patients such as those affected by type 1 Diabetes Mellitus (T1DM). Specific routes for fragile patients such as those with micro-infusers have been created thanks to the application of "Diabetes Technology," which allows patients to monitor blood glucose quickly and easily. The present pilot study aimed to assess the quality of care provided to patients with micro-infusers in a delicate phase such as a pandemic lockdown. MATERIALS AND METHODS: A mixed-methods approach was used. In the first part, with prior written consent, patients with insulin pumps enrolled voluntarily. In the second part, the focus group discussion (FGD) was carried out with the voluntarily enrolled participants. The FGD data were organized and analyzed by the thematic areas. RESULTS: The number of patients with afferent insulin pumps at the center was 50 individuals. Among them, 20 patients voluntarily joined the first part of the study by completing the PACIC questionnaire, which gave an average result of 3.34 (min. 2.2 and max. 4.2). In the second part, the application of the focus group technique demonstrated that technology is decisive in the management of diabetic pathology, not only in the emergency phase. CONCLUSIONS: At the time of public health crises, alternative strategies such as Tele-Nursing or Telemedicine could be crucial for the management of patients with micro-infuser not only in critical moments, such as lockdown, but also in ordinary health management.

CARD 2020: antibiotic resistome surveillance with the comprehensive antibiotic resistance database.

The Comprehensive Antibiotic Resistance Database (CARD; https://card.mcmaster.ca) is a curated resource providing reference DNA and protein sequences, detection models and bioinformatics tools on the molecular basis of bacterial antimicrobial resistance (AMR). CARD focuses on providing high-quality reference data and molecular sequences within a controlled vocabulary, the Antibiotic Resistance Ontology (ARO), designed by the CARD biocuration team to integrate with software development efforts for resistome analysis and prediction, such as CARD's Resistance Gene Identifier (RGI) software. Since 2017, CARD has expanded through extensive curation of reference sequences, revision of the ontological structure, curation of over 500 new AMR detection models, development of a new classification paradigm and expansion of analytical tools. Most notably, a new Resistomes & Variants module provides analysis and statistical summary of in silico predicted resistance variants from 82 pathogens and over 100 000 genomes. By adding these resistance variants to CARD, we are able to summarize predicted resistance using the information included in CARD, identify trends in AMR mobility and determine previously undescribed and novel resistance variants. Here, we describe updates and recent expansions to CARD and its biocuration process, including new resources for community biocuration of AMR molecular reference data.