Transforming growth factor β 869C/T and interleukin 6 -174G/C polymorphisms relate to the severity and progression of bone-erosive damage detected by ultrasound in rheumatoid arthritis

Introduction: Single nucleotide polymorphisms (SNPs) of transforming growth factor β (TGF-β) and IL-6 genes (respectively, 869C/T and -174G/C) have been associated with radiographic severity of bone-erosive damage in patients with rheumatoid arthritis (RA). Musculoskeletal ultrasound (US) is more sensitive than radiography in detecting bone erosion. We analyzed the association between TGF-β 869C/T and IL-6 -174G/C SNPs and bone-erosive damage, evaluated by US, in a cohort of patients with severely active RA.Methods: Seventy-seven patients were enrolled before beginning anti-TNF treatment. Disease activity was measured using the disease activity score in 28 joints, and the clinical response was evaluated according to the European League Against Rheumatism response criteria. Rheumatoid factor (RF) and anticitrullinated protein/peptide antibodies (ACPAs) were detected. The 869C/T TGF-β and -174G/C IL-6 SNPs were analyzed by PCR amplification. US was performed to assess the bone surfaces of metacarpophalengeal (MCP), proximal interphalangeal (PIP) and metatarsophalangeal (MTP) joints by obtaining multiplanar scans. According to the number of erosions per joint, a semiquantitative score ranging from 0 to 3 was calculated in each anatomical site to obtain a MCP total erosion score (TES), a PIP TES and a MTP TES, all ranging from 0 to 30, and a global patient TES calculated as the sum of these scores (range, 0 to 90).Results: Patients carrying the TGF-β 869TT genotype showed a statistically significant lower MTP TES than those with the CC or CT genotype (mean MTP TES ± standard deviation for 869TT 6.3 ± 5.7 vs. 869CC/CT 11.7 ± 7.8; P = 0.011). Interestingly, patients with the TT genotype showed dichotomous behavior that was dependent on autoantibody status. In the presence of ACPAs and/or RF, the TT genotype was associated with lower erosion scores at all anatomical sites compared with the CC and CT genotypes. Conversely, the same 869TT patients showed higher erosion scores in the absence of ACPAs or RF.Conclusions: In RA patients, TGF-β 869C/T SNPs could influence the bone-erosive damage as evaluated by US. The serological autoantibody status (ACPAs and RF) can modulate this interaction. © 2011 Ceccarelli et al.; licensee BioMed Central Ltd

Composite of Relevant Endpoints for Sjogren's Syndrome (CRESS):development and validation of a novel outcome measure

Background Recent randomised controlled trials (RCTs) in primary Sjogren's syndrome used the European League Against Rheumatism (EULAR) Sjogren's Syndrome Disease Activity Index (ESSDAI) as their primary endpoint. Given the heterogeneous and complex nature of primary Sjogren's syndrome, it might be more appropriate to also assess other clinically relevant disease features. We aimed to develop a novel composite endpoint for assessing treatment efficacy in patients with primary Sjogren's syndrome: the Composite of Relevant Endpoints for Sjogren's Syndrome (CRESS). Methods A multidisciplinary expert team selected clinically relevant items and candidate measurements for inclusion in the composite score. For each measurement, cutoff points for response to treatment were chosen based on expert opinion, previously published data on minimal clinically important improvements, and trial data, primarily the week-24 data of the single-centre ASAP-III trial of abatacept versus placebo. CRESS was validated using data from three independent RCTs: one trial of rituximab (TRACTISS), one of abatacept (multinational trial), and one of tocilizumab (ETAP). We calculated the number and percentage of patients who were responders in the separate CRESS items, and the percentage of responders based on the total CRESS at the primary endpoint visits (week 48 for TRACTISS, week 24 for the other two trials). Patients with fewer than three items available for evaluating CRESS response were imputed as non-responders. Findings Based on expert opinion, five complementary items were selected to assess response: (1) systemic disease activity by Clinical ESSDAI (less than 5 points); (2) patient-reported symptoms by EULAR Sjogren's Syndrome Patient Reported Index, assessed by a decrease of at least 1 point or at least 15% from baseline; (3) tear gland item by Schirmer's test and ocular staining score, assessed by an increase of at least 5 mm or decrease of at least 2 points, respectively, in patients with abnormal Schirmer's test or ocular staining score findings at baseline, or, in patients with normal baseline values, assessed by no change to abnormal for both; (4) salivary gland item, assessed by unstimulated whole saliva secretion (increase of at least 25%) and salivary gland ultrasonography (decrease of at least 25%); and (5) serology, assessed by rheumatoid factor (decrease of at least 25%) and IgG (decrease of at least 10%). Total CRESS response is defined as response on at least three of five items. Post-hoc assessment of phase 3 trial data showed that CRESS response rates at the primary endpoint visits were 60% (24 of 40) for abatacept versus 18% (seven of 39) for placebo (p Interpretation The CRESS is a feasible, well-balanced, composite endpoint for use in trials of primary Sjogren's syndrome. As a next step, the CRESS will require validation in a prospective RCT. Copyright (C) 2021 Elsevier Ltd. All rights reserved

Circulating c-Met-Expressing Memory T Cells Define Cardiac Autoimmunity

BACKGROUND: Autoimmunity is increasingly recognized as a key contributing factor in heart muscle diseases. The functional features of cardiac autoimmunity in humans remain undefined because of the challenge of studying immune responses in situ. We previously described a subset of c-mesenchymal epithelial transition factor (c-Met)-expressing (c-Met+) memory T lymphocytes that preferentially migrate to cardiac tissue in mice and humans. METHODS: In-depth phenotyping of peripheral blood T cells, including c-Met+ T cells, was undertaken in groups of patients with inflammatory and noninflammatory cardiomyopathies, patients with noncardiac autoimmunity, and healthy controls. Validation studies were carried out using human cardiac tissue and in an experimental model of cardiac inflammation. RESULTS: We show that c-Met+ T cells are selectively increased in the circulation and in the myocardium of patients with inflammatory cardiomyopathies. The phenotype and function of c-Met+ T cells are distinct from those of c-Met-negative (c-Met-) T cells, including preferential proliferation to cardiac myosin and coproduction of multiple cytokines (interleukin-4, interleukin-17, and interleukin-22). Furthermore, circulating c-Met+ T cell subpopulations in different heart muscle diseases identify distinct and overlapping mechanisms of heart inflammation. In experimental autoimmune myocarditis, elevations in autoantigen-specific c-Met+ T cells in peripheral blood mark the loss of immune tolerance to the heart. Disease development can be halted by pharmacologic c-Met inhibition, indicating a causative role for c-Met+ T cells. CONCLUSIONS: Our study demonstrates that the detection of circulating c-Met+ T cells may have use in the diagnosis and monitoring of adaptive cardiac inflammation and definition of new targets for therapeutic intervention when cardiac autoimmunity causes or contributes to progressive cardiac injury

B cell depletion with rituximab in the treatment of primary Sjögren's syndrome: what have we learnt?

Despite the well-established role of B cells in the pathogenesis of primary Sjögren's syndrome (pSS), the beneficial role of B-cell depletion therapy with rituximab remains elusive in this condition, contrary to other autoimmune diseases. Although early, small-scale studies showed promising results, two recent large randomised controlled trials did not meet their primary end-points. It is evident from most trials that rituximab has a positive impact on B-cell numbers and activity, both in the peripheral blood and in salivary glands, but clinical outcomes vary among studies. We review here the evidence to date of B-cell depletion in pSS, analysing the underlying causes for the discrepancies in different studies and their limitations. We also discuss the potential use of peripheral and salivary gland biomarkers for patient stratification and targeted patient selection. Overall, rituximab remains a plausible treatment for pSS provided future studies address the shortfalls that emerged from our current knowledge of the use of B-cell depletion in this condition

B cell depletion with rituximab in the treatment of primary Sjögren's syndrome: what have we learnt?

Despite the well-established role of B cells in the pathogenesis of primary Sjögren's syndrome (pSS), the beneficial role of B-cell depletion therapy with rituximab remains elusive in this condition, contrary to other autoimmune diseases. Although early, small-scale studies showed promising results, two recent large randomised controlled trials did not meet their primary end-points. It is evident from most trials that rituximab has a positive impact on B-cell numbers and activity, both in the peripheral blood and in salivary glands, but clinical outcomes vary among studies. We review here the evidence to date of B-cell depletion in pSS, analysing the underlying causes for the discrepancies in different studies and their limitations. We also discuss the potential use of peripheral and salivary gland biomarkers for patient stratification and targeted patient selection. Overall, rituximab remains a plausible treatment for pSS provided future studies address the shortfalls that emerged from our current knowledge of the use of B-cell depletion in this condition

Performance of the Clinical Trials ESSDAI (ClinTrialsESSDAI), an Adjusted ESSDAI Score, in Two Randomised Clinical Trials in Patients with Primary Sjogren's Syndrome

Background/Purpose: Recent randomised controlled trials (RCTs) in primary Sjögren’s syndrome (pSS) failed to show clinical efficacy.1-3 Several RCTs used the EULAR Sjögren’s Syndrome Disease Activity Index (ESSDAI) as primary endpoint, showing large response rates in active treatment and placebo groups.1,3 The ESSDAI consists of some domains which are more sensitive to change and easy to score compared to other domains.4 The objective of this study was to develop the Clinical Trials ESSDAI (ClinTrialsESSDAI), an adjusted ESSDAI score consisting of frequently active and sensitive to change domains, and to compare the performance of the ClinTrialsESSDAI to the Clinical (Clin)ESSDAI and ESSDAI in two RCTs.Methods: The ASAP-III trial in abatacept (80 pSS patients)1 and TRACTISS trial in rituximab (133 pSS patients)2 were used for development and analyses of the ClinTrialsESSDAI. These trials were selected since ASAP-III included only patients with moderate to high disease activity according to ESSDAI, whereas TRACTISS did not apply this inclusion criterion, leading to higher baseline ESSDAI scores in ASAP-III than in TRACTISS (median 13 vs. 4). Activity of ESSDAI domains at baseline was analysed. The six most frequently active domains were selected for the ClinTrialsESSDAI, with exclusion of the biological domain. This is in line with the ClinESSDAI, which does not include the biological domain, to measure a ‘true’ clinical effect. The ClinTrialsESSDAI score was calculated using existing weights of the ClinESSDAI. Responsiveness of the ClinTrialsESSDAI, ClinESSDAI and ESSDAI was calculated using the standardised response mean (SRM) at the primary endpoint visits: week 24 for ASAP-III, week 48 for TRACTISS. Percentage of patients who reached the minimal clinically important improvement (MCII, decrease of ≥3 points) and low disease activity (LDA, score < 5) was analysed for all three scores.Results: Besides the biological domain, the six most frequently active domains at baseline in the ASAP-III and TRACTISS trial were the glandular (any activity: 91% and 21%, respectively), articular (58% and 44%), haematological (43% and 24%), constitutional (46% and 15%), lymphadenopathy (29% and 9%) and cutaneous (23% and 11%) domain (Figure 1). These domains were selected for the ClinTrialsESSDAI. Responsiveness was similar using any of the three scores at primary endpoint visits of the ASAP-III and TRACTISS trials (Table 1). Discrimination between active treatment and placebo groups based on MCII and LDA responders was also similar using any of the three scores (Figure 2).Conclusion: The ClinTrialsESSDAI, consisting of six frequently active and sensitive to change domains of the ESSDAI, shows similar responsiveness and discrimination between treatment groups compared to the ClinESSDAI and ESSDAI in the ASAP-III and TRACTISS RCT. Therefore, this ClinTrialsESSDAI will not solve the problem of discrimination and a composite endpoint combining response at multiple clinically relevant items seems more suitable as primary study endpoint

B cell depletion with rituximab in the treatment of primary Sjögren's syndrome: what have we learnt?

Despite the well-established role of B cells in the pathogenesis of primary Sjögren's syndrome (pSS), the beneficial role of B-cell depletion therapy with rituximab remains elusive in this condition, contrary to other autoimmune diseases. Although early, small-scale studies showed promising results, two recent large randomised controlled trials did not meet their primary end-points. It is evident from most trials that rituximab has a positive impact on B-cell numbers and activity, both in the peripheral blood and in salivary glands, but clinical outcomes vary among studies. We review here the evidence to date of B-cell depletion in pSS, analysing the underlying causes for the discrepancies in different studies and their limitations. We also discuss the potential use of peripheral and salivary gland biomarkers for patient stratification and targeted patient selection. Overall, rituximab remains a plausible treatment for pSS provided future studies address the shortfalls that emerged from our current knowledge of the use of B-cell depletion in this condition

B cell depletion with rituximab in the treatment of primary Sjögren's syndrome: what have we learnt?

Despite the well-established role of B cells in the pathogenesis of primary Sjögren's syndrome (pSS), the beneficial role of B-cell depletion therapy with rituximab remains elusive in this condition, contrary to other autoimmune diseases. Although early, small-scale studies showed promising results, two recent large randomised controlled trials did not meet their primary end-points. It is evident from most trials that rituximab has a positive impact on B-cell numbers and activity, both in the peripheral blood and in salivary glands, but clinical outcomes vary among studies. We review here the evidence to date of B-cell depletion in pSS, analysing the underlying causes for the discrepancies in different studies and their limitations. We also discuss the potential use of peripheral and salivary gland biomarkers for patient stratification and targeted patient selection. Overall, rituximab remains a plausible treatment for pSS provided future studies address the shortfalls that emerged from our current knowledge of the use of B-cell depletion in this condition