R. John Looney

Efficacy and safety of rituximab in patients with active proliferative lupus nephritis: The lupus nephritis assessment with rituximab study

OBJECTIVE To evaluate the efficacy and safety of rituximab in a randomized, double-blind, placebo-controlled phase III trial in patients with lupus nephritis treated concomitantly with mycophenolate mofetil (MMF) and corticosteroids. METHODS Patients (n = 144) with class III or class IV lupus nephritis were randomized 1:1 to receive rituximab (1,000 mg) or placebo on days 1, 15, 168, and 182. The primary end point was renal response status at week 52. RESULTS Rituximab depleted peripheral CD19+ B cells in 71 of 72 patients. The overall (complete and partial) renal response rates were 45.8% among the 72 patients receiving placebo and 56.9% among the 72 patients receiving rituximab (P = 0.18); partial responses accounted for most of the difference. The primary end point (superior response rate with rituximab) was not achieved. Eight placebo-treated patients and no rituximab-treated patients required cyclophosphamide rescue therapy through week 52. Statistically significant improvements in serum complement C3, C4, and anti-double-stranded DNA (anti-dsDNA) levels were observed among patients treated with rituximab. In both treatment groups, a reduction in anti-dsDNA levels greater than the median reduction was associated with reduced proteinuria. The rates of serious adverse events, including infections, were similar in both groups. Neutropenia, leukopenia, and hypotension occurred more frequently in the rituximab group. CONCLUSION Although rituximab therapy led to more responders and greater reductions in anti-dsDNA and C3/C4 levels, it did not improve clinical outcomes after 1 year of treatment. The combination of rituximab with MMF and corticosteroids did not result in any new or unexpected safety signals.

Immunization responses in rheumatoid arthritis patients treated with rituximab: Results from a controlled clinical trial†

OBJECTIVE To examine immunization responses in patients with rheumatoid arthritis (RA) treated with rituximab and to investigate the effects of rituximab-induced CD20+ B cell depletion on immune responses to tetanus toxoid (T cell-dependent antigen), pneumococcal polysaccharide (T cell-independent antigen), and keyhole limpet hemocyanin (KLH) (neoantigen) and on delayed-type hypersensitivity (DTH). METHODS In a controlled trial, we enrolled 103 patients with active RA receiving a stable dose of methotrexate (MTX). Tetanus toxoid, pneumococcal polysaccharide, and KLH vaccines as well as a Candida albicans skin test were administered to 1 group of patients receiving rituximab plus MTX (called rituximab-treated patients) for 36 weeks and to 1 group of patients receiving MTX alone for 12 weeks. The primary end point was the proportion of patients with a >or=4-fold rise in antitetanus IgG levels. Antitetanus, antipneumococcal, and anti-KLH serum IgG levels were measured prior to and 4 weeks following vaccine administration. The DTH response to C albicans was measured 2-3 days following placement. RESULTS Responses to tetanus toxoid vaccine (>or=4-fold rise) were similar in both groups (39.1% of rituximab-treated patients and 42.3% of patients treated with MTX alone). The ability to maintain a positive DTH response to the C albicans skin test was comparable in both groups (77.4% of rituximab-treated patients and 70% of patients treated with MTX alone), showing no effect of rituximab treatment. Rituximab-treated patients had decreased responses to pneumococcal polysaccharide vaccine (57% of patients had a 2-fold rise in titer in response to >or=1 serotype, compared with 82% of patients treated with MTX alone) and to KLH vaccine (47% of patients had detectable anti-KLH IgG, compared with 93% of patients treated with MTX alone). CONCLUSION Recall responses to the T cell-dependent protein antigen tetanus toxoid as well as DTH responses were preserved in rituximab-treated RA patients 24 weeks after treatment. Responses to neoantigen (KLH) and T cell-independent responses to pneumococcal vaccine were decreased, but many patients were able to mount responses. These data suggest that polysaccharide and primary immunizations should be administered prior to rituximab infusions to maximize responses.

Novel Human Transitional B Cell Populations Revealed by B Cell Depletion Therapy

Transitional cells represent a crucial step in the differentiation and selection of the mature B cell compartment. Human transitional B cells have previously been variably identified based on the high level of expression of CD10, CD24, and CD38 relative to mature B cell populations and are expanded in the peripheral blood following rituximab-induced B cell-depletion at reconstitution. In this study, we take advantage of the gradual acquisition of the ABCB1 transporter during B cell maturation to delineate refined subsets of transitional B cells, including a late transitional B cell subset with a phenotype intermediate between T2 and mature naive. This late transitional subset appears temporally following the T1 and T2 populations in the peripheral compartment after rituximab-induced B cell reconstitution (and is thus termed T3) and is more abundant in normal peripheral blood than T1 and T2 cells. The identity of this subset as a developmental intermediate between early transitional and mature naive B cells was further supported by its ability to differentiate to naive during in vitro culture. Later transitional B cells, including T2 and T3, are found at comparatively increased frequencies in cord blood and spleen but were relatively rare in bone marrow. Additional studies demonstrate that transitional B cells mature across a developmental continuum with gradual up-regulation of mature markers, concomitant loss of immature markers, and increased responsiveness to BCR cross-linking in terms of proliferation, calcium flux, and survival. The characterization of multiple transitional B cell subpopulations provides important insights into human B cell development.

Beneficial effect of novel proteasome inhibitors in murine lupus via dual inhibition of type I interferon and autoantibody-secreting cells

OBJECTIVE To investigate the hypothesis that proteasome inhibition may have potential in the treatment of SLE, by targeting plasmacytoid dendritic cells (PDCs) and plasma cells, both of which are critical in disease pathogenesis. METHODS Lupus-prone mice were treated with the nonselective proteasome inhibitors carfilzomib and bortezomib, the immunoproteasome inhibitor ONX 0914, or vehicle control. Tissue was harvested and analyzed by flow cytometry using standard markers. Nephritis was monitored by evaluation for proteinuria and by histologic analysis of kidneys. Serum anti-double-stranded DNA (anti-dsDNA) levels were measured by enzyme-linked immunosorbent assay (ELISA), and total IgG and dsDNA antibody-secreting cells (ASCs) by enzyme-linked immunospot assay. Human peripheral blood mononuclear cells or mouse bone marrow cells were incubated with Toll-like receptor (TLR) agonists and proteasome inhibitors, and interferon-α (IFNα) levels were measured by ELISA and flow cytometry. RESULTS Early treatment of lupus-prone mice with the dual-targeting proteasome inhibitors carfilzomib or bortezomib or the immunoproteasome-specific inhibitor ONX 0914 prevented disease progression, and treatment of mice with established disease dramatically abrogated nephritis. Treatment had profound effects on plasma cells, with greater reductions in autoreactive than in total IgG ASCs, an effect that became more pronounced with prolonged treatment and was reflected in decreasing serum autoantibody levels. Notably, proteasome inhibition efficiently suppressed production of IFNα by TLR-activated PDCs in vitro and in vivo, an effect mediated by inhibition of both PDC survival and PDC function. CONCLUSION Inhibition of the immunoproteasome is equally efficacious as dual targeting agents in preventing lupus disease progression by targeting 2 critical pathways in disease pathogenesis, type I IFN activation and autoantibody production by plasma cells.

B cells as therapeutic targets for rheumatic diseases.

Purpose of reviewTrials treating human rheumatic diseases with biologic agents and drugs that selectively affect B cells will be reviewed. Rituximab, an anti-CD20 monoclonal mouse/human antibody, will be the primary focus of the review because it has been widely used in several autoimmune and rheumatic conditions, but the limited studies on other reagents such as anti-BlyS, anti-CD154, and B cell tolerogens will also be covered. Recent findingsThe single most important recent development was the completion of a randomized, double-blind, placebo-controlled trial of rituximab in methotrexate-resistant rheumatoid arthritis. In this trial, B cell depletion with rituximab led to a sustained clinical response with an impressive improvement in America College of Rheumatology 50% response (ACR 50) at both 24 and 48 weeks. Additional open studies of rituximab showing clinical benefit in systemic lupus erythematosus, cryoglobulinemia, antineutrophil cytoplasmic antibodies+ vasculitis, and dermatomyositis are noteworthy but must be interpreted with caution until randomized control trials are available. Two well-designed studies of anti-CD154 antibodies in systemic lupus erythematosus were reported. Unfortunately, one was halted because of unexpected vascular complications, and the other failed to show any beneficial clinical effect. A phase I study using anti-BlyS in SLE demonstrated a selective effect on B cells and no overt toxicity, but in this very short-term study no effect on serology or clinical activity was seen. Two B cell tolerogens have been used in human trials. The first tolerogen, directed at anti-dsDNA responses in SLE, did significantly decrease titers of high-affinity anti-dsDNA antibodies but had no clinically beneficial effect overall. A phase I trial of a tolerogen directed at anti-β2-glycoprotein I antibodies demonstrated a decrease in antibody titers after a single injection. SummarySeveral therapeutic agents targeting B cells have now been tested or are being tested in human trials. The success of rituximab in a well-controlled trial confirms previous preliminary reports indicating that B cell depletion can treat established autoimmune disease.

Use of volumetric computerized tomography as a primary outcome measure to evaluate drug efficacy in the prevention of peri-prosthetic osteolysis: A 1-year clinical pilot of etanercept vs. placebo

Although total hip replacement (THR) is amongst the most successful and beneficial medical procedures to date, long‐term outcomes continue to suffer from aseptic loosening secondary to peri‐prosthetic osteolysis. Extensive research over the last two decades has elucidated a central mechanism for osteolysis in which wear debris generated from the implant stimulates inflammatory cells to promote osteoclastogenesis and bone resorption. The cytokine tumor necrosis factor alpha (TNFα) has been demonstrated to be central to this process and is considered to be a leading target for intervention. Unfortunately, even though FDA approved TNF antagonists are available (etanercept), currently there are no reliable outcome measures that can be used to evaluate the efficacy of a drug to prevent peri‐prosthetic osteolysis. To the end of developing an effective outcome measure, we evaluated the progression of lesion size in 20 patients with established peri‐acetabular osteolysis (mean = 29.99 cm3, range = 2.9–92.7 cm3) of an uncemented primary THR over 1‐year, using a novel volumetric computer tomography (3D‐CT) technique. We also evaluated polyethylene wear, urine N‐telopeptides and functional assessments (WOMAC, SF‐36 and Harris Hip Score) for comparison. At the time of entry into the study baseline CT scans were obtained and the patients were randomized to etanercept (25 mg s.q., twice/week) and placebo in a double‐blinded fashion. CT scans, urine and functional assessments were also obtained at 6 and 12 months. No serious adverse drug related events were reported, but one patient had to have revision surgery before completion of the study due to aseptic loosening. No remarkable differences between the groups were observed. However, the study was not powered to see significant drug effects. 3D‐CT data from the 19 patients was used to determine the mean increase in lesion size over 48 weeks, which was 3.19 cm3 (p < 0.0013). Analysis of the urine N‐telopeptides and functional assessment data failed to identify a significant correlation with wear or osteolysis. In conclusion, volumetric CT was able to measure progression of osteolysis over the course of a year, thus providing a technology that could be used in therapeutic trials. Using the data from this pilot we provide a model power calculation for such a trial.

The effects of rituximab on immunocompetency in patients with autoimmune disease

Advances made in the last several years have contributed to the rapid development of B cell–targeting therapies for autoimmune diseases. Rituximab, the first B cell–targeting therapeutic agent approved for use in humans, has played a major role in this progress, with studies, initially in oncology and hematology and more recently in rheumatology, demonstrating that B cell depletion is reasonably well tolerated. There have also been double-blind, placebo-controlled trials in which B cell depletion has been shown to be an effective treatment for at least one autoimmune disease, rheumatoid arthritis (RA) (1–5). In addition, recent double-blind, placebo-controlled trials have shown the efficacy of rituximab in relapsing-remitting multiple sclerosis (MS) and IgM paraprotein-associated neuropathy, and additional controlled trials are under way in antineutrophil cytoplasmic antibody–associated vasculitis (AAV), systemic lupus erythematosus (SLE), MS, dermatomyositis/ polymyositis, and type 1 diabetes mellitus. Furthermore, a large number of new B cell–targeting therapeutic agents are in clinical development. At this point, it seems clear that the use of therapies targeting B cells in autoimmune diseases will become an important part of the practice of rheumatology. Better understanding of the consequences of B cell–targeting therapies should therefore be a high priority. The effect of B cell–targeting therapies on immunocompetency is of particular importance, and is the present focus of this review. Rituximab is a chimeric monoclonal antibody (human constant regions and mouse variable regions) that recognizes human CD20, a cell-surface glycoprotein expressed on B cells from early development in the bone marrow until terminal differentiation into plasma cells (Figure 1). After a single course of rituximab, peripheral blood routinely remains depleted of B cells for 6–12 months. In addition, depletion of B cells occurs in the tissue, but may not be as dramatic. It is important to note that although treatment with rituximab depletes mature B cells from blood and tissue, it does not eliminate long-lived plasma cells, the major source of protective antibodies (1,2). In the present review, the concept of immunocompetency is understood to be the ability of integrated immune defenses to defend the host from infection. Guidelines for the evaluation of immunocompetency in patients receiving immunosuppressive agents for autoimmune disease have recently been developed by the Autoimmunity Centers of Excellence (6).

Insights into the heterogeneity of human B cells: diverse functions, roles in autoimmunity, and use as therapeutic targets.

B cells are critical players in the orchestration of properly regulated immune responses, providing protection against infectious agents without inflicting autoinflammatory damage. A balanced B cell compartment is also essential to create protective immunity in response to vaccines. This difficult compromise is achieved through the finely regulated participation of multiple B cell populations with different antibody-dependent and independent functions. Both types of functions allow B cells to powerfully modulate other components of the innate and adaptive immune system. For the most part, however, the necessary division of labor among different B cell populations is poorly understood. B cell dysfunction has been implicated in multiple autoimmune conditions. The physiological importance and complexity of B cell functions has been brought to the fore in recent years by the success of rituximab-based B cell depletion therapy (BCDT) in multiple autoimmune diseases including rheumatoid arthritis (RA) and multiple sclerosis (MS) which are conventionally viewed as T-cell mediated conditions. Given the widespread utilization of BCDT in malignant and autoimmune diseases and the key role of B cells in both protective immunity and pathogenic autoimmunity, a better understanding of B cell functions is of the essence and a focus of the research in our division. We are investigating these issues through a variety of approaches, including the study of the phenotype and function of human B cell populations in health, their perturbation in autoimmune disease states, the effects of targeted biologic therapies, and the study of relevant murine models.

Anti-TNF-α therapy as a clinical intervention for periprosthetic osteolysis

Aseptic loosening of total joint arthroplastics due to periprosthetic osteolysis is a frequent cause of implant failure. The absence of clinical interventions to arrest or prevent this complication limits the use of total joint replacement especially in younger patients. Here we review recent studies implicating tumor necrosis factor (TNF)-α in periprosthetic osteolysis and the rationale for clinical studies of anti-TNF therapy and other interventions for periprosthetic loosening.

B Cell-Targeted Therapies for Systemic Lupus Erythematosus: An Update on Clinical Trial Data

In the past year there has been remarkable activity and some important success in the development of B cell-targeted therapies for the treatment of systemic lupus erythematosus (SLE). The most promising studies were BLISS-52 and BLISS-76, large phase III studies that demonstrated measurable efficacy for belimumab, a monoclonal antibody against B cell-activating factor (BAFF). The moderate-sized phase II/III trials EXPLORER and LUNAR that tested rituximab, an anti-CD20 monoclonal antibody, for treatment of non-renal and renal lupus, disappointed many investigators with anecdotal success in refractory patients. These rituximab trials were intended to detect a large clinical effect in patients with very active disease and this was not found. Nevertheless, arguments can be made for additional studies in targeted populations or with a change in design to detect smaller or longer-term effects. Epratuzumab, a monoclonal antibody against the B cell surface antigen CD22, and atacicept, a chimeric molecule formed by a receptor for BAFF and a proliferation-inducing ligand (APRIL) with immunoglobulin (Ig)-G, have both been promising in initial small trials and now larger clinical trials are underway. Thus, recent clinical trial data show that B cell-targeting therapies are beginning to fulfil their promise as treatments for SLE and there are good reasons to hope for further progress in the near future.