High-dimensional flow cytometry reveals lymphocyte subset populations predictive of chronic lung allograft dysfunction.

Objectives: Despite cellular and antibody-mediated rejection being clinically relevant drivers of chronic lung allograft dysfunction (CLAD), there are few studies describing the T- and B-cell dynamics inherent to such alloreactive responses. We conducted a longitudinal immunophenotyping study of B- and T-cell subsets from pre- to 12 months post-lung transplant, focussing on patients who subsequently developed either donor specific antibodies to human leukocyte antigen class II (HLA-DSA) or CLAD within 3 years.

Methods: In a single centre, comparative study, we used high-dimensional flow cytometry clustering analysis to assess the B- and T-cell populations in blood from lung allograft recipients prior to transplantation and at 0.

Examining the conditions associated with establishing plasma cell persistence.

Plasma cells (PC) produce antigen-specific antibodies following vaccination or infection, playing a vital role in protective immunity. Not all PC have equal lifespans, yet how lifespans are determined remains unknown. Here, we describe a system for the generation of persistent PC in mice following B cell transfer after in vitro activation.

IL-21 contributes to type 2 memory B cell formation.

Type 2 memory B cells (mBC2), identified in mice as IgG1+CD23+IL-4Rα+CD38+ B cells, which require IL-4 for genesis, are precursors for IgE plasma cells (PC) and considered key in allergy. While IL-21 is critical for normal mBC differentiation, its involvement in mBC2 formation is unknown. Here, we show that although IL-21R-deficient (IL-21R-/-) mice immunized with ovalbumin generated ovalbumin-specific mBC2, their abundances were lower than in controls one-week post-immunization.

Antibody responses against bacterial glycans affinity mature and diversify in germinal centers.

Anti-carbohydrate antibodies (Abs) play crucial roles in pathogen control, but their generation remains poorly understood. By studying responses to in humans, we reveal that the glycan-targeted response shifts from IgM towards IgG and IgA memory with age and antigen exposure across blood, spleen, and tonsils. Both natural colonization and controlled human infection with increased class-switched B cells, with evidence of within-clone switching.

Syndecans and glycosaminoglycans influence B-cell development and activation.

Syndecans (SDCs) are glycosaminoglycan-containing cell surface proteins with diverse functions in the immune system with SDC1 (CD138) and SDC4 expressed in B-lineage cells. Here, we show that stem cells lacking either molecule generate fewer B-cell progenitors but give rise to mature B cells in vivo. Deletion of the plasma cell "marker" CD138 has no effect on homeostatic or antigen-induced plasma cell formation.

IL-21 promotes plasmablast differentiation independently of proliferation in vitro.

Antibodies of the IgE and IgG1 isotypes are relevant for type 2 immunity. In vivo, the production of both is elevated by IL-4, but differentially affected by IL-21, with IgE suppressed and IgG1 production enhanced by IL-21. However, whether the cytokines drive these outcomes primarily by impacting antibody-secreting, proliferating plasmablasts (PB), or their germinal center B cell precursors, is challenging to unravel.

Conversion of vaccines from low to high immunogenicity by antibodies with epitope complementarity.

Existing antibodies (Abs) have varied effects on humoral immunity during subsequent infections. Here, we leveraged in vivo systems that allow precise control of antigen-specific Abs and B cells to examine the impact of Ab dose, affinity, and specificity in directing B cell activation and differentiation. Abs competing with the B cell receptor (BCR) epitope showed affinity-dependent suppression.

Ki67 deficiency impedes chromatin accessibility and BCR gene rearrangement.

The proliferation marker Ki67 has been attributed critical functions in maintaining mitotic chromosome morphology and heterochromatin organization during the cell cycle, indicating a potential role in developmental processes requiring rigid cell-cycle control. Here, we discovered that despite normal fecundity and organogenesis, germline deficiency in Ki67 resulted in substantial defects specifically in peripheral B and T lymphocytes. This was not due to impaired cell proliferation but rather to early lymphopoiesis at specific stages where antigen-receptor gene rearrangements occurred.

Chimeric antigen receptor T cells in the fast lane among autoimmune disease therapies.

In this commentary, we highlight recent studies demonstrating the feasibility and promise of chimeric antigen receptor (CAR) T-cell therapy in treating a number of autoimmune disorders including systemic lupus erythematosus and compare CAR T cells to other therapies aimed at depleting B-lineage cells in treating such diseases.

Predicting plasma cell retention and loss over a lifetime.

Plasma cells (PCs) rely on external survival cues for persistence, which limits the size of the PC pool. How, then, are new specificities incorporated into a saturated system? In this issue of Immunity, Simons and Karin put forward a mathematical framework to explain PC retention that makes testable predictions about steady-state lifespan structure, withstands tests based on accrual and displaceability, and accounts for lifespan stratification with specificity.

Intrinsically determined turnover underlies broad heterogeneity in plasma-cell lifespan.

Antibodies produced by antibody-secreting plasma cells (ASCs) underlie multiple forms of long-lasting immunity. Here we examined the mechanisms regulating ASC turnover and persistence using a genetic reporter to time-stamp ASCs. This approach revealed ASC lifespans as heterogeneous and falling on a continuum, with only a small fraction surviving for >60 days.

Making sense of plasma cell heterogeneity.

Plasma cells (PCs) are essential for the quality and longevity of protective immunity. The canonical humoral response to vaccination involves induction of germinal centers in lymph nodes followed by maintenance by bone marrow-resident PCs, although there are many variations of this theme. Recent studies have highlighted the importance of PCs in nonlymphoid organs, including the gut, central nervous system, and skin.

B cell receptor ligation induces IgE plasma cell elimination.

The proper regulation of IgE production safeguards against allergic disease, highlighting the importance of mechanisms that restrict IgE plasma cell (PC) survival. IgE PCs have unusually high surface B cell receptor (BCR) expression, yet the functional consequences of ligating this receptor are unknown. Here, we found that BCR ligation induced BCR signaling in IgE PCs followed by their elimination.

Peripheral monocytes and soluble biomarkers in autoimmune encephalitis.

Background And Objectives: Autoimmune encephalitis (AE) is an inflammatory disease of the central nervous system which can result in long-term seizures and cognitive dysfunction despite treatment with immunotherapy. The role of the innate immune system in AE is not well established. To investigate the contribution of innate immunity to AE and its long-term outcomes we evaluated peripheral monocytes and serum cytokines in the periphery of patients with AE.

Long-lived plasma cells accumulate in the bone marrow at a constant rate from early in an immune response.

Vaccines work largely by generating long-lived plasma cells (LLPCs), but knowledge of how such cells are recruited is sparse. Although it is clear that LLPCs preferentially originate in germinal centers (GCs) and relocate to survival niches in bone marrow where they can persist for decades, the issues of the timing of LLPC recruitment and the basis of their retention remain uncertain. Here, using a genetic timestamping system in mice, we show that persistent PCs accrue in bone marrow at an approximately constant rate of one cell per hour over a period spanning several weeks after a single immunization with a model antigen.

Time is of the essence for vaccine success.

Effective vaccines elicit neutralizing antibodies and long-lasting memory, but this can be challenging with some pathogens, such as HIV. A new study shows how a slow-delivery protein immunization strategy administered in dose-escalation format over 12 days increased the durability of germinal centers and improved immunological outcomes.

Interleukin-21, acting beyond the immunological synapse, independently controls T follicular helper and germinal center B cells.

Germinal centers (GCs), transient structures within B cell follicles and central to affinity maturation, require the coordinated behavior of T and B cells. IL-21, a pleiotropic T cell-derived cytokine, is key to GC biology through incompletely understood mechanisms. By genetically restricting production and receipt of IL-21 in vivo, we reveal how its independent actions on T and B cells combine to regulate the GC.

IL-21 has a critical role in establishing germinal centers by amplifying early B cell proliferation.

The proliferation and differentiation of antigen-specific B cells, including the generation of germinal centers (GC), are prerequisites for long-lasting, antibody-mediated immune protection. Affinity for antigen determines B cell recruitment, proliferation, differentiation, and competitiveness in the response, largely through determining access to T cell help. However, how T cell-derived signals contribute to these outcomes is incompletely understood.

Prevalence, risk factors, and prognosis of drug-resistant epilepsy in autoimmune encephalitis.

Objective: To evaluate the prevalence and biomarkers of drug-resistant epilepsy (DRE) in patients with autoimmune encephalitis (AIE).

Methods: Sixty-nine patients with AIE were recruited retrospectively and electroencephalographies (EEGs) were reviewed using a standard reporting proforma. Associations between EEG biomarkers and DRE development at 12 months were examined using logistic regression modeling and were utilized to create a DRE risk score.

Electroclinical biomarkers of autoimmune encephalitis.

Objective: To evaluate the utility of electroencephalography (EEG) changes as diagnostic and prognostic biomarkers in acute autoimmune encephalitis (AIE).

Methods: One hundred and thirty-one patients with AIE were recruited retrospectively across 7 hospitals. Clinical data were collected during admission and at 12 months.

The concerted change in the distribution of cell cycle phases and zone composition in germinal centers is regulated by IL-21.

Humoral immune responses require germinal centres (GC) for antibody affinity maturation. Within GC, B cell proliferation and mutation are segregated from affinity-based positive selection in the dark zone (DZ) and light zone (LZ) substructures, respectively. While IL-21 is known to be important in affinity maturation and GC maintenance, here we show it is required for both establishing normal zone representation and preventing the accumulation of cells in the G1 cell cycle stage in the GC LZ.

Targeting BMI-1 in B cells restores effective humoral immune responses and controls chronic viral infection.

Ineffective antibody-mediated responses are a key characteristic of chronic viral infection. However, our understanding of the intrinsic mechanisms that drive this dysregulation are unclear. Here, we identify that targeting the epigenetic modifier BMI-1 in mice improves humoral responses to chronic lymphocytic choriomeningitis virus.

The ASCIZ-DYNLL1 Axis Is Essential for TLR4-Mediated Antibody Responses and NF-κB Pathway Activation.

Toll-like receptors (TLRs) and interleukin-1 (IL-1) receptors regulate immune and inflammatory responses by activating the NF-κB pathway. Here, we report that B-cell-specific loss of dynein light chain 1 (DYNLL1, LC8) or its designated transcription factor ASCIZ (ATMIN) leads to severely reduced antibody responses to TLR4-dependent but not T-cell-dependent antigens in mice. This defect was independent of DYNLL1's established roles in modulating BIM-dependent apoptosis and 53BP1-dependent antibody class-switch recombination.