Article Text
Abstract
Objective To evaluate the efficacy and safety of tabalumab, a monoclonal antibody that neutralises membrane-bound and soluble B-cell activating factor (BAFF), in patients with active rheumatoid arthritis (RA) who showed inadequate response to tumour necrosis factor (TNF) inhibitors.
Methods Patients on stable methotrexate and with inadequate response to one or more TNF inhibitors were randomised to placebo (n=35), 30 mg tabalumab (n=35) or 80 mg tabalumab (n=30) given intravenously at 0, 3 and 6 weeks. The primary outcome was the proportion of patients achieving an American College of Rheumatology 50% response (ACR50) at week 16 (all tabalumab-treated patients vs placebo).
Results At week 16, no significant differences were observed in the combined tabalumab group versus placebo in ACR50 (12.7% vs 2.9%, p=0.101) or ACR20 response rates (27.0% vs 17.1%, p=0.198). However, significant differences between the combined tabalumab group and placebo were observed at earlier time points for ACR20, ACR50 and Disease Activity Score in 28 joints (DAS28)-C-reactive protein (CRP) reduction. Treatment-emergent adverse events (AEs) were similar with 30 mg tabalumab (65.7%), 80 mg tabalumab (76.7%) and placebo (71.4%), although certain events occurred more often with tabalumab than placebo (eg, infection, anaemia and gastrointestinal events). Serious AEs occurred in two (6.7%) patients receiving 80 mg tabalumab and three (8.6%) receiving placebo, with one serious infection in the placebo group. Initial increases in total and mature B cells were followed by progressive decreases, despite declines in serum tabalumab.
Conclusions At week 16, the primary end point was not achieved, but an indication of efficacy was observed at earlier time points. Safety findings for tabalumab were consistent with other biological RA therapies.
Clinical trial registration number NCT00689728.
- Autoimmune Diseases
- Rheumatoid Arthritis
- TNF-alpha
- Methotrexate
- Treatment
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Introduction
Rheumatoid arthritis (RA) is a serious autoimmune disease, affecting ∼1% of the population.1 Biological therapies that selectively target key molecules associated with joint inflammation, such as tumour necrosis factor (TNF) inhibitors, are effective options for RA treatment.2 Many patients continue to have active disease despite treatment with biological disease-modifying antirheumatic drugs (bDMARDs), including TNF inhibitors, and are in need of new treatment options.3–6
B-cell activating factor (BAFF) is a ligand in the TNF family that exists in a membrane-bound and soluble form and is required for B-cell survival as they leave the bone marrow and enter the periphery.7 ,8 BAFF prevents apoptosis of B cells, regulates B-cell homoeostasis, and maintains peripheral tolerance.9 It also acts as a co-stimulatory cytokine (with a proliferation-inducing ligand (APRIL)) to promote class switching.10 In patients with RA, increased BAFF expression in the sera and synovial fluid may increase the likelihood of B-cell survival; thus, neutralising BAFF is an alternative therapeutic approach to targeting B cells.11 ,12
Tabalumab is a human anti-BAFF monoclonal antibody that neutralises both biologically active forms (membrane-bound and soluble) of BAFF.13 In an initial dose-ranging study, tabalumab reduced RA signs and symptoms in subjects naïve to bDMARDs, such as TNF inhibitors.14
The present study compared the efficacy and safety of tabalumab with placebo in patients with active RA who had an inadequate response or intolerance to TNF inhibitors (TNF-IR).
Patients and methods
Patients
Patients with active RA were recruited from 45 centres in Argentina, Austria, Belgium, Brazil, Canada, Germany, Mexico, Poland, Puerto Rico and the USA. All patients provided voluntary written informed consent. The study was approved by local institutional review boards in accordance with the Declaration of Helsinki, good clinical practice, and applicable laws and regulations.
Adult (18–75 years) men and non-pregnant women with an RA diagnosis defined by the American Rheumatism Association 1987 revised criteria15 and who had a history of inadequate response or intolerance to one or more TNF inhibitors were enrolled. Major inclusion criteria were active disease defined by ≥5/28 swollen and ≥5/28 tender joints, with a C-reactive protein (CRP) ≥ the upper limit of normal (ULN, 1.0 mg/dl) or an erythrocyte sedimentation rate (ESR) ≥28 mm/h. In addition, patients had been taking methotrexate (MTX) for ≥12 weeks (stable dose of 7.5–25 mg/week for ≥8 weeks before baseline), and had a positive rheumatoid factor (RF) and/or an anti-cyclic citrullinated peptide (anti-CCP) test.
Major exclusion criteria were: previous use of B-cell-targeted therapy; taking a live vaccine within 3 months of enrolment; serious bacterial infection within 6 months of enrolment; herpes zoster within 3 months of enrolment; evidence of HIV, or hepatitis B or C infection; active tuberculosis; serum IgG, IgM, or IgA concentration below the lower limit of normal (LLN); history of malignancy within 5 years; any unstable comorbidity; a recent or ongoing infection that posed an unacceptable risk according to the investigator; oral corticosteroid use of >10 mg/day prednisone or its equivalent within 4 weeks of enrolment; parenteral corticosteroid use within 4 weeks of baseline; use of oral DMARDs other than MTX, hydroxychloroquine or sulfasalazine at a stable dose for ≥8 week before baseline.
Study design
This was a 16-week, randomised, double-blind, placebo-controlled, phase 2, parallel-group study. Eligible patients were maintained on background MTX at their stable, pre-study dose and were randomly assigned by an interactive voice-response system to receive 30 min infusions of tabalumab 30 mg, tabalumab 80 mg, or placebo intravenously at weeks 0, 3 and 6. Doses were selected from an efficacious dose range previously demonstrated in TNF inhibitor-naïve patients.14
Efficacy and safety were evaluated at baseline, weeks 1, 3, 6, 9, 12 and 16. As an amendment to the study, non-responders (patients with <20% improvement in either their tender or swollen joint counts (28 count) by week 16) were given the opportunity to receive an open-label, 30 min infusion of 80 mg tabalumab as rescue therapy at week 16. This amendment changed the time of the primary end point from 24 to 16 weeks, as it was felt that the addition of rescue therapy would bias the analysis at 24 weeks.
End points
The primary efficacy end point was the proportion of patients who achieved an American College of Rheumatology 50% (ACR50) response at week 16.16 Key secondary efficacy measures included the proportion of patients achieving ACR20, ACR50 and ACR70, the mean percentage improvement in Disease Activity Score in 28 joints (DAS28)-C-reactive protein (CRP), and the percentage of patients achieving DAS28-CRP<3.2 and <2.6 at each visit, as well as the percentage of moderate or good responders based on the European League Against Rheumatism (EULAR) responder criteria.17 Additional study objectives were to evaluate pharmacodynamics of disease-related biomarkers after study drug administration, to explore potential associations between selected biomarkers and disease activity measures, and to further characterise tabalumab pharmacokinetics.
Blood samples for determination of serum tabalumab concentrations and pharmacodynamic measures (ie, B-cell counts, CRP, ESR and immunoglobulins) were collected at baseline and subsequent clinic visits and were assayed using validated methods.
Adverse events (AEs) and serious adverse events (SAEs) were recorded at each visit. To assess immunogenicity, blood samples were collected at the three infusion visits (weeks 0, 3 and 6) and, for late onset of immunogenicity, at weeks 24, 32 and 40. Vital signs and laboratory tests, including chemistry, haematology and urinalysis panels, were collected at each visit.
Statistical methods
Sample sizes were determined assuming a 23% absolute difference based on previous trial data14 to provide 83% statistical power to detect a significant difference in ACR50 responses between placebo and the combined tabalumab group (without continuity correction, one-sided hypothesis, 5% type I error rate). Assuming a 10% response rate in the placebo group and 33% in the treatment groups at week 16, it was calculated that approximately 33 patients were needed per arm (33, placebo; 66, combined tabalumab).
Efficacy analyses were performed using a modified intent-to-treat population (mITT) (all randomised patients who received ≥1 study-drug dose (tabalumab or placebo) and who have ≥1 post-baseline efficacy assessment). At the end of the study, data integrity issues were discovered at one study site with two patients in the 80 mg group; efficacy analyses were based on mITT population, excluding patients from this site. Safety analyses included all patients who received any study drug.
The primary efficacy analysis compared the percentage of patients achieving an ACR50 response in the combined 30 and 80 mg tabalumab groups versus placebo at week 16. A one-sided Fisher exact test was used for this analysis, as well as ACR20 and ACR70 analyses at each time point (α=0.05). For DAS28-CRP changes from baseline, one-sided comparisons of tabalumab (the two dose groups combined) versus placebo were performed using an analysis of covariance (ANCOVA) test, with treatment and baseline as fixed factors (α=0.05). The percentage of patients who achieved moderate or good EULAR response was analysed using a one-sided Fisher exact test of tabalumab (the two dose groups combined) versus placebo (α=0.05). Pharmacodynamic measures, including CRP, B cells, ESR and serum IgA, IgG and IgM, were analysed using two-sided, ranked ANCOVA, with treatment as the fixed factor and the standardised rank baseline value as a covariate (α=0.05). Non-responder imputation (NRI) and last-observation-carried-forward methods were used to impute missing data in ACR20/50/70 analyses and other analyses, respectively. Adverse events were summarised using percentages. Tabalumab pharmacokinetic parameters were analysed using a population approach implemented with NONMEM (ICON Development Solutions, Ellicott City, Maryland, USA).
Results
Patient disposition and characteristics
One hundred patients were randomised to receive treatment: 35 in the placebo group, 35 in the 30 mg tabalumab group, and 30 in the 80 mg tabalumab group. Of the 100 treated patients, 83 completed the study. Patient disposition, with reasons for discontinuation, is shown in table 1.
Baseline demographics and disease characteristics are also shown in table 1. Patients in the combined tabalumab group had significantly lower swollen joint counts (28 count) than the placebo group (combined tabalumab, 12.1; placebo, 14.5; p<0.05). All other baseline characteristics were comparable across groups.
Clinical response
The ACR50 response rate (NRI) in the combined tabalumab group at week 16 was not significantly different from the placebo group (12.7% vs 2.9%, p=0.101) (figure 1A, table 2), nor was the ACR20 response rate (27.0% vs 17.1%, p=0.198) (figure 1B, table 2). ACR20, ACR50 and ACR70 response rates over time are displayed in table 2 and figure 1A–C. ACR20 and ACR50 response rates (NRI) were significantly higher in the combined tabalumab group versus placebo at week 6 (ACR20, 38.1% vs 17.1%, p=0.025; ACR50, 11.1% vs 0.0%, p=0.040) and week 9 (ACR20, 41.3% vs 17.1%, p=0.012; ACR50, 22.2% vs 0.0%, p=0.001), but the differences were no longer significant by week 12 (ACR20, 42.9% vs 25.7%, p=0.070; ACR50, 14.3% vs 2.9%, p=0.068) (table 2 (week 6 data not shown in table), figure 1A,B). ACR70 response rates were not significantly different at any time point (table 2, figure 1C).
The reduction in DAS28-CRP from baseline was significantly greater for the combined tabalumab group than for the placebo group at weeks 6, 9, 12 and 16 (table 2 (week 6 data not shown in table), figure 1D). A higher percentage of patients in the combined tabalumab group versus placebo achieved DAS28-CRP<3.2 and <2.6; these differences were only significant for DAS28-CRP<3.2 at weeks 9 and 16 (table 2). There was a trend for patients in the combined tabalumab group to achieve a good to moderate EULAR during the 16-week, blinded treatment; this difference was only statistically significant at week 6 (50.8% vs 29.4%, p=0.036) and week 9 (68.4% vs 29.0%, p<0.001).
In a post hoc analysis, numerically more tabalumab-treated patients outside of the USA (OUS) than in the USA had an ACR20 response (table 2). However, owing to the small sample sizes, data from patients OUS were combined, and no statistical analyses were performed.
Pharmacokinetics
The tabalumab half-life after administration of the 30 and 80 mg doses was 14.9 and 16.5 days, respectively. Tabalumab concentrations had declined by 97% at the 16-week end point (10 weeks after the last dose was administered). Tabalumab concentrations, plotted simultaneously with the time course of ACR response rates, are illustrated in figure 2.
Biological activity
At week 16, the median percentage change in ESR from baseline for the placebo (−11.7%) and combined tabalumab group (−23.6%) did not differ significantly (p=0.660), nor did the median percentage change in CRP between placebo and the combined tabalumab group (−29.2% vs −12.6%, p=0.650). Some patients with elevated CRP at screening no longer had elevated CRP at baseline. In a post hoc analysis of patients with baseline CRP>ULN (1.0 mg/dl), the mean percentage change from baseline was 46.4% for the placebo group and −6.46% for the combined tabalumab group at week 16.
Transient increases in total CD20+ B cells were observed in the combined tabalumab group versus the placebo group at week 1 (p<0.05). At week 3, the CD20+ B-cell counts began to decrease back to baseline and continued to decline until the end of the observation period (figure 3A). Mature naïve cells (CD19+, CD27−, IgD+) showed a similar pattern; increases were observed with both 30 and 80 mg tabalumab at week 1, and, starting at week 3, these cell counts decreased to baseline or below through week 16 (figure 3B). An increase from baseline in memory cell counts (CD19+, CD27+, IgD−) was observed as early as week 1 and continued until week 12 for both 30 and 80 mg tabalumab versus placebo (figure 3C).
For IgM and IgA, statistically significant reductions from baseline were observed in the combined tabalumab group versus the placebo group at week 16 (p<0.05). For IgG, decreases from baseline for the combined tabalumab group were comparable to those for the placebo group at week 16. Three patients had reductions in serum IgM that fell below LLN: two patients in the 80 mg group (with no AEs reported) and one patient in the 30 mg group with an AE of sinusitis.
Safety
Table 3 summarises AEs during the 16-week treatment period. Two patients discontinued because of an AE (ovarian cyst (80 mg); arrhythmia (30 mg)). Five patients experienced an SAE: three in the placebo group (ST-segment depression, chest injury and gastroenteritis, one patient each) and two in the combined tabalumab group (RA worsening and newly diagnosed Crohn's disease, one patient each). No patients died during the study. Overall, the rate of AEs was similar across the groups; the majority of AEs were mild to moderate in severity. The most commonly reported AEs for the combined tabalumab group versus placebo were RA worsening (10.8% vs 25.7%), upper respiratory tract infection (7.7% vs 0%), headache (6.2% vs 5.7%) and upper abdominal pain (6.2% vs 0%). After the last dose of study drug in the combined tabalumab and placebo groups, RA worsening was reported within a similar time frame (25.3 and 27.4 days, respectively) and at a similar frequency (46% and 45%, respectively). There were more infections in the 30 mg (31.4%) and 80 mg (30.0%) groups than in the placebo group (20.0%). No tuberculosis, herpes zoster, fungal infections or opportunistic infections were observed in this small number of patients over a short time course. No relationship was observed between changes in serum Ig or B cells and AEs.
No clinically significant differences between treatment groups were observed in laboratory variables, vital sign measurements or ECGs.
Immunogenicity
No treatment-emergent anti-drug antibodies were detected in patients given tabalumab during the treatment period. One patient (30 mg group) had a transient titre detected (1:20) 42 weeks after the last dose of study drug, and the sample was negative for neutralising antibodies. No anti-drug antibodies were detected in the 80 mg group. Anti-tabalumab antibody status was not associated with AEs.
Discussion
This trial examined the efficacy and safety of tabalumab, an anti-BAFF monoclonal antibody, when added to a stable background dose of MTX in TNF-IR patients with active RA. The primary end point was not met, as tabalumab and placebo showed similar ACR50 response rates at week 16.
Although the primary end point was not met, clinical responses were observed early in the study and appeared to peak at week 9 as measured by ACR50 and ACR20 responses and decreases in DAS28-CRP. The reduction in efficacy after week 9 occurred after the last tabalumab infusion and coincided with a notable decline in tabalumab concentrations. This may suggest that the decline in efficacy resulted from the decline in circulating tabalumab concentrations.
A previous phase 2 tabalumab study, which used the same route of administration and dosing frequency, demonstrated that all tabalumab doses (30, 60 and 160 mg) were significantly more effective than placebo, with improvements maintained up through week 24.14 That study enrolled bDMARD-naïve patients, whereas the present study enrolled TNF-IR patients who had already failed one biological treatment and had relatively severe RA. In addition, the two studies differed regionally: the previous tabalumab trial was conducted in one Eastern European country (Romania), and the present study was conducted in 10 countries in North and South America and Europe. The regional data presented in table 2 show that fewer tabalumab-treated patients in the USA achieved ACR20. This may reflect regional differences; however, sample sizes are too small to draw any definitive conclusions. Importantly, the present study offered a one-time rescue dose at week 16. The addition of rescue altered the timing of the primary analysis from 24 to 16 weeks to avoid the possibility of major bias 8 weeks after a rescue dose. Rescue was not an option in the other tabalumab trial. It has been shown that the timing of the rescue dose may influence physicians and patients, and may affect disease activity assessments at the time at which eligibility for rescue is determined.18 Ultimately, it remains unclear which of these differences contributed to the disparate study outcomes in these small phase 2 studies.
Although there was an initial increase in total and mature B cells, this was followed by a progressive decrease until week 16 despite declines in serum tabalumab. Further work is needed to better understand why a clinical response was observed before significant reduction in B cells and why B-cell levels continued to decrease when clinical responses were no longer observed at week 16. Early increases in B cells with subsequent decreases have also been observed with other BAFF-targeted therapies, including briobacept,19 atacicept20 and belimumab.21 In the previous tabalumab trial,14 a transient increase in B-cell levels was followed by a sustained decrease until week 24, although, unlike the present trial, clinical efficacy was maintained until week 24.
The success of other biological RA therapies that target B cells has varied. Reductions in the clinical signs of RA, relative to placebo, have been observed with rituximab3 ,22 and ocrelizumab23 (anti-CD20 antibodies) and belimumab24 (a monoclonal antibody that neutralises soluble BAFF). Although statistically significant, improvement observed with belimumab was minimal,24 and, in a subgroup analysis of TNF inhibitor-experienced patients, no difference between belimumab and placebo was detected in ACR20 response rate.25 Another B-cell-targeted therapy, atacicept (a fusion protein targeting BAFF and APRIL), failed to achieve clinical benefits in two 26-week trials.26 ,27
A limitation of this trial is that tabalumab was only dosed three times, and it appears that the concentration may have been insufficient to sustain a response for 10 weeks after the last administered dose. This choice was based on data from a previous phase 1b study in TNF inhibitor-naïve patients with RA, which showed that maximal clinical efficacy was sustained until at least 18 weeks after the last infusion. This was considered consistent with the observed long-lasting reduction in circulating B-cell levels. Thus, the present trial intended to investigate the effects and duration of efficacy of a comparable treatment regimen in a different population (TNF-IR patients). Another limitation is that it was a small, short-term phase 2 trial limited to TNF-IR patients who were RF or anti-CCP positive.
The primary end point of this study was not met, as no clinical effect was detected at week 16. Clinical efficacy was observed during the peak of drug exposure, but disappeared after tabalumab withdrawal, despite the fact that B cells continued to decrease. Large, placebo-controlled, randomised, phase 3 clinical trials using tabalumab in both MTX-IR and TNF-IR patients from around the world, which are currently underway, should help us to better understand the use of tabalumab in patients with RA.
Acknowledgments
The authors would like to thank all of the participating investigators, and also Kelly Guerrettaz of PharmaNet/i3, an inVentiv Health Company (Blue Bell, PA) for writing assistance.
References
Footnotes
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Handling editor Tore K Kvien
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Contributors MCG contributed to the study design and analysis, and reviewed/edited the manuscript; RMF contributed to the study design and analysis, participated as an investigator, and reviewed/edited the manuscript; MG participated as an investigator and reviewed/edited the manuscript; JS, MV and LX contributed to the data analysis and reviewed/edited the manuscript; P-YB, SM and OB contributed to the study design, implementation, and analysis, and reviewed/edited the manuscript.
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Funding This study was sponsored by Eli Lilly and Company or Lilly USA, LLC.
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Competing interests MCG, RF and MG have received grants and consulting fees from Eli Lilly and Company. JS, MV, LX, P-YB, SM and OB are employees and stockholders of Eli Lilly and Company.
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Ethics approval The institutional review boards at each study site.
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Patient consent Obtained.
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Provenance and peer review Not commissioned; externally peer reviewed.
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