A phase I trial of cyclosporine for hospitalized patients with COVID-19.

BACKGROUNDCOVID-19 remains a global health emergency with limited treatment options, lagging vaccine rates, and inadequate healthcare resources in the face of an ongoing calamity. The disease is characterized by immune dysregulation and cytokine storm. Cyclosporine A (CSA) is a calcineurin inhibitor that modulates cytokine production and may have direct antiviral properties against coronaviruses.

Equivalency of Protection From Natural Immunity in COVID-19 Recovered Versus Fully Vaccinated Persons: A Systematic Review and Pooled Analysis.

We present a systematic review and pooled analysis of clinical studies to date that (1) specifically compare the protection of natural immunity in the COVID-recovered versus the efficacy of complete vaccination in the COVID-naive, and (2) the added benefit of vaccination in the COVID-recovered, for prevention of subsequent SARS-CoV-2 infection. Using the PRISMA 2020 guidance, we first conducted a systematic review of available literature on PubMed, MedRxIV and FDA briefings to identify clinical studies either comparing COVID vaccination to natural immunity or delineating the benefit of vaccination in recovered individuals. After assessing eligibility, studies were qualitatively appraised and formally graded using the NOS system for observational, case-control and RCTs.

Interleukin 5 immunotherapy depletes alloreactive plasma cells.

Background: Long-lived plasma cells (PCs) that form after alloantigen sensitization produce donor-specific alloantibodies that generate a positive serum crossmatch and preclude transplantation. New approaches for desensitization, including PC depletion with proteasome inhibition, show promise but carry considerable toxicity. Recently, eosinophils have been shown to govern PC persistence.

Murine islet allograft tolerance upon blockade of the B-lymphocyte stimulator, BLyS/BAFF.

Background: Immunologic rejection is a major barrier to successful long-term outcomes in clinical transplantation. The importance of B lymphocytes-and their secretory products, alloantibodies-in the pathogenesis of allograft rejection is accepted. Furthermore, it is now clear that the dominant regulator of peripheral B-cell homeostasis and tolerance is the B-lymphocyte stimulator (BLyS), also referred to as the B-cell activating factor (BAFF).

Underutilization of A2 ABO incompatible kidney transplantation.

Background: ABO compatibility creates a disadvantage for O and B renal allograft candidates. A2 ABO incompatible transplant may decrease waiting times and generate equivalent graft survival to an ABO compatible transplant.

Methods: Death-censored graft survival was compared between A recipients and O, B, and AB recipients of an A2 allograft with multivariate Cox regression models utilizing data from the United Network of Organ Sharing (UNOS) between 1997 and 2007.

Essential role for B cells in transplantation tolerance.

T lymphocytes are the primary targets of immunotherapy in clinical transplantation. However, B lymphocytes are detrimental to graft survival by virtue of their capacity to present antigen to T cells via the indirect pathway of allorecognition and the generation of donor specific alloantibody. Furthermore, the long-term survival of organ allografts remains challenged by chronic rejection, a process in which activated B cells have been found to play a significant role.

Primary B cell repertoire remodeling to achieve humoral transplantation tolerance.

The current mainstay of immunotherapy in clinical transplantation is T lymphocyte directed. However, it has long been appreciated that the emergence of an alloimmune response mounted by the B lymphocyte compartment and detectable as donor-specific antibodies is a critical challenge to long-term graft survival. Thus, achieving robust transplantation tolerance will require induction of tolerance in both the T- and B-cell compartments.

Strategies for B-lymphocyte repertoire remodeling in transplantation tolerance.

Transplantation tolerance remains an elusive goal as B-cell-initiated chronic humoral rejection evades current immunosuppression. B-cell-directed therapy is thus emerging as a key component in achieving transplantation tolerance and long-term graft survival. Here, we propose strategies of B-cell repertoire remodeling to achieve humoral unresponsiveness to donor antigens with implementation of fundamental B-cell immunobiology and use of newly developed B-cell-directed agents.

Acquisition of humoral transplantation tolerance upon de novo emergence of B lymphocytes.

A major obstacle to transplantation tolerance is humoral immunity. In this paper, we demonstrate that the intrinsic developmental propensity of the B lymphocyte compartment for acquisition of self-tolerance can be harnessed to induce humoral unresponsiveness to transplanted alloantigens. In the current study, when transitional B cells developed in the presence of donor lymphoid cells, the mature B lymphocyte compartment failed to mount a donor-specific alloantibody response to an organ transplant--despite unrestrained acute T cell-mediated allograft rejection.

B-lymphocyte homeostasis and BLyS-directed immunotherapy in transplantation.

Current strategies for immunotherapy after transplantation are primarily T-lymphocyte directed and effectively abrogate acute rejection. However, the reality of chronic allograft rejection attests to the fact that transplantation tolerance remains an elusive goal. Donor-specific antibodies are considered the primary cause of chronic rejection.

A novel CD93 polymorphism in non-obese diabetic (NOD) and NZB/W F1 mice is linked to a CD4+ iNKT cell deficient state.

In the present study, we characterize a polymorphism in the CD93 molecule, originally identified as the receptor for the C1q complement component (i.e., C1qRp, or AA4.

B-cell tolerance in transplantation: is repertoire remodeling the answer?

T lymphocytes are the primary targets of immunotherapy in clinical transplantation; however, B lymphocytes and their secreted alloantibodies are also highly detrimental to the allograft. Therefore, the achievement of sustained organ transplant survival will likely require the induction of B-lymphocyte tolerance. During development, acquisition of B-cell tolerance to self-antigens relies on clonal deletion in the early stages of B-cell compartment ontogeny.

In vivo BLyS/BAFF neutralization ameliorates islet-directed autoimmunity in nonobese diabetic mice.

B lymphocytes are required for the pathogenesis of autoimmune diabetes in NOD mice. Previous studies established that a lymphopenic transitional (TR) B cell compartment reduces the competitive constraint on the entry of newly emerging TR B cells into the splenic follicle (FO), thereby disrupting a peripheral negative selection checkpoint in NOD mice. Thus, development of clinically feasible immunotherapeutic approaches for restoration of appropriate negative selection is essential for the prevention of anti-islet autoimmunity.

B lymphocyte-directed immunotherapy promotes long-term islet allograft survival in nonhuman primates.

We found that an induction immunotherapy regimen consisting of rabbit anti-thymocyte globulin (Thymoglobulin) and the monoclonal antibody to CD20 rituximab (Rituxan) promoted long-term islet allograft survival in cynomolgus macaques maintained on rapamycin monotherapy. B lymphocyte reconstitution after rituximab-mediated depletion was characterized by a preponderance of immature and transitional cells, whose persistence was associated with long-term islet allograft survival. Development of donor-specific alloantibodies was abrogated only in the setting of continued rapamycin monotherapy.

B cell-mediated antigen presentation is required for the pathogenesis of acute cardiac allograft rejection.

Acute allograft rejection requires the activation of alloreactive CD4 T cells. Despite the capacity of B cells to act as potent APCs capable of activating CD4 T cells in vivo, their role in the progression of acute allograft rejection was unclear. To determine the contribution of B cell APC function in alloimmunity, we engineered mice with a targeted deficiency of MHC class II-mediated Ag presentation confined to the B cell compartment.

Cutting edge: impaired transitional B cell production and selection in the nonobese diabetic mouse.

Developing B cells undergo selection at multiple checkpoints to eliminate autoreactive clones. We analyzed B cell kinetics in the NOD mouse to establish whether these checkpoints are intact. Our results show that although bone marrow production is normal in NOD mice, transitional (TR) B cell production collapses at 3 wk of age, reflecting a lack of successful immature B cell migration to the periphery.

The frequency of double-positive thymocytes expressing an alphabeta TCR clonotype regulates peripheral CD4 T cell compartment homeostasis.

The present study aimed to determine whether the frequency of double positive (DP) thymocytes expressing alphabeta T-cell receptor (TCR) clonotypes at the time of selection regulates peripheral CD4 T-cell compartment size. Scid recipients were inoculated with various ratios of TCR Calpha(0/0) and wild-type bone marrow (BM) stem cells. Increasing the frequency of TCR Calpha(0/0) thymocytes at steady-state introduced a graded decrease in the maturation probability of the total DP thymocyte pool.

NOD B-cells are insufficient to incite T-cell-mediated anti-islet autoimmunity.

Although it is well established that B-cells are required for the development of diabetes in the nonobese diabetic (NOD) mouse, the nature of their role remains unknown. Herein, we investigate the hypothesis that B-cells in this autoimmune background actively disrupt the tolerant state of those T-cells with which they interact. We demonstrate that NOD B-cells express elevated levels of crucial molecules involved in antigen presentation (including CD21/35, major histocompatibility complex class II, and CD40), alterations that invite the possibility of inappropriate T-cell activation.

Alloreactive CD4 T cell activation in vivo: an autonomous function of the indirect pathway of alloantigen presentation.

Activation of alloreactive CD4 T cells occurs via the direct and indirect pathways of alloantigen presentation. A novel TCR/alloantigen transgenic system was designed that permitted in vivo visualization of CD4 T cell priming through these pathways. When both pathways of alloantigen presentation were intact, CD4 T cell activation in response to cardiac allografts was rapid and systemic by day 4 after transplantation, in contrast to that seen in response to skin allografts, which was delayed until 10-12 days after transplantation.

Specialized CC-chemokine secretion by Th1 cells in destructive autoimmune myocarditis.

T helper (Th) 1-mediated immune responses are associated with adverse outcomes in a number of models of autoimmune disease. Previous work has focused on the role that cytokines secreted by Th1 cells play in mediating pathologic tissue injury. To evaluate other mechanisms by which Th1 cells may be specialized to coordinate the complex effector cell interactions of a destructive immune response, CD4+ T cells specific for influenza hemagglutinin (HA) were differentiated into Th1 or Th2 subsets and transferred into transgenic mice expressing HA under control of the beta myosin heavy chain promoter, which drives heart specific expression of HA.

The role of t/b lymphocyte collaboration in the regulation of autoimmune and alloimmune responses.

The present review highlights the two areas of research pursuit in our laboratory: (1). the regulation of the autoimmune T cell response to pancreatic islet beta cells using the nonobese diabetic (NOD) mouse model of type 1 diabetes and (2). the regulation the T cell response to alloantigens.

Elimination of maternally transmitted autoantibodies prevents diabetes in nonobese diabetic mice.

The influence of maternally transmitted immunoglobulins on the development of autoimmune diabetes mellitus in genetically susceptible human progeny remains unknown. Given the presence of islet beta cell-reactive autoantibodies in prediabetic nonobese diabetic (NOD) mice, we abrogated the maternal transmission of such antibodies in order to assess their influence on the susceptibility of progeny to diabetes. First, we used B cell-deficient NOD mothers to eliminate the transmission of maternal immunoglobulins.