Article Text
Abstract
Objective: To investigate whether the cytokine-inducing properties of surface-bound collagen type II (CII)-containing immune complexes (IC), which were reported earlier, have any clinical impact.
Methods: Anti-CII serology was analysed in 274 patients with early rheumatoid arthritis (RA). Patients with increased levels of anti-CII were followed serially for 1–5 years with regard to anti-CII IC-induced levels of tumour necrosis factor (TNF)α, interleukin (IL)1β and IL8. Levels of antibodies and IC-induced cytokines were compared with clinical indices over 5 years of follow-up.
Results: 5/100 healthy controls and 24/274 (8.8%) patients with RA exhibited increased levels (>29 arbitrary units (AU)/ml) of anti-native CII antibodies, a non-significant difference. 9/274 (3.3%) patients with RA and no controls comprised a discrete group with high anti-CII levels >450 AU/ml. These high anti-CII level sera were associated with induction of pro-inflammatory cytokines by anti-CII-containing IC formed in vitro. 8/9 patients with high baseline anti-CII levels exhibited a parallel decline in antibody levels, IC-induced cytokines, C reactive protein (CRP) and erythrocyte sedimentation rate (ESR). Anti-CII-positive patients had significantly increased levels of CRP and ESR at baseline, but not later during the follow-up.
Conclusions: Anti-native CII-positive patients with RA have a distinct clinical phenotype characterised by an early acute phase response that might be driven by anti-CII-containing IC in joint cartilage.
- AU, arbitrary unit
- BSA, bovine serum albumin
- CII, collagen type II
- CRP, C reactive protein
- DAS, disease activity score
- DMARD, disease-modifying antirheumatic drug
- ESR, erythrocyte sedimentation rate
- IC, immune complex
- IL, interleukin
- OD, optical density
- PBMC, peripheral blood mononuclear cell
- PBS, phosphate-buffered saline
- RA, rheumatoid arthritis
- RF, rheumatoid factor
- TNF, tumour necrosis factor
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- AU, arbitrary unit
- BSA, bovine serum albumin
- CII, collagen type II
- CRP, C reactive protein
- DAS, disease activity score
- DMARD, disease-modifying antirheumatic drug
- ESR, erythrocyte sedimentation rate
- IC, immune complex
- IL, interleukin
- OD, optical density
- PBMC, peripheral blood mononuclear cell
- PBS, phosphate-buffered saline
- RA, rheumatoid arthritis
- RF, rheumatoid factor
- TNF, tumour necrosis factor
Collagen type II (CII) is the predominant hyaline cartilage collagen. Anti-native CII antibodies occur in between 3% and 27% of patients with RA.1–6 Clinical studies have demonstrated that anti-CII-positive patients with RA have increased disease activity, more severe symptoms,6 higher serum levels of C reactive protein (CRP), tumour necrosis factor (TNF)α and interleukin (IL)6, and also higher erythrocyte sedimentation rates (ESR).7
We have recently described how solid-phase immune complexes (IC) with human native CII and anti-CII antibodies from arthritis sera induced TNFα, IL1β and IL8 from monocytes via FcγRIIa, with a close correlation between anti-CII and cytokine levels.8 To determine the clinical significance of these findings, we have now investigated a clinically well-characterised early cohort of patients with RA with regard to anti-CII serology and CII-IC-induced cytokine responses.
PATIENTS AND METHODS
Patients and controls
Two hundred and seventy four patients with RA from a prospective early RA cohort described in Rönnelid et al,9 and diagnosed according to American College of Rheumatology were included. Baseline sera were no longer available for 5 of the initial 279 patients. Forty-six of the cases had been included in Mullazehi et al.8 Serum sampling was performed at baseline, after 3 months and after 1 year in all patients, and also after 2, 3 and 5 years for 74 patients. Clinical data were available from all patients at inclusion, 97.1% at 3 months, 87.5% at 1 year, 86.4% at 2 years, 83.2% at 3 years and 54.1% at 5 years. Table 1 presents the baseline data. One hundred blood donors constituted the control group. All participants gave informed consent to participate in the study that had been ethically approved.
Antibody and cytokine measurements, peripheral blood mononulcear cell preparation
Maxisorp plates were incubated at 4°C overnight with 100 μl of human native CII (ELISA grade, Chondrex, Redmond, Washington, DC, USA) diluted to 2.5 μg/ml in ice-cold phosphate-buffered saline (PBS) immediately before coating. Plates were blocked with 150 μl of 1% bovine serum albumin (BSA) in PBS and subsequently incubated with 100 μl of sera diluted 1:100. The calibration curve was constructed from an RA serum defined as containing 104 AU anti-CII/ml. The detection antibody against the IgG γ chain (Jackson, Cambridgeshire, UK) was diluted 1:10 000.
Anti-CII-positive samples were re-investigated with parallel control wells only blocked with PBS-bovine serum albumin. Anti-CII-reactive samples having higher optical density (OD) values in CII-coated wells were regarded as positive and the original anti-CII value was used, whereas samples with higher OD levels in control wells were regarded as negative. Among 100 normally distributed control sera, the upper 95th centile yielded a cut-off level of 29 AU/ml.
Methods for purification and culture of peripheral blood mononulcear cell (PBMC), cytokine stimulation by solid-phase IC and supernatant levels of IL1β, IL8 and TNFα have been described recently.8 For practical reasons, cell culture experiments were performed on different days with different PBMC responder cells.
Statistics
Differences between anti-CII-positive and anti-CI-negative patients were analysed using an unpaired t test, whereas differences between proportions were analysed using the χ2 test or Fisher’s exact test. For evaluation of changes with time in the group of nine patients with high anti-CII levels, the Wilcoxon signed rank test was performed. p Values <0.05 were regarded as significant.
RESULTS
Baseline levels of anti-CII antibodies among 274 patients with RA and 100 controls
In all, 24/274 (8.8 %) of the RA baseline sera were anti-CII antibody positive, a non-significant difference compared with the control group (p = 0.14). However, 9/274 (3.3%) of the RA sera had concentrations between 471 and 3521 AU/ml (hereafter denoted “very high anti-CII”). These patients constituted a discrete group of outliers, the next patient having 57 AU/ml. All of the initially anti-native CII-positive RA sera above 29 AU/ml were truly positive—that is, all 24 had higher OD values in CII-coated wells than in wells coated with BSA alone.
All nine patients with initially high anti-CII levels had strikingly diminished anti-CII antibody levels during the 1–5-year follow-up period, with 68–97% reduction compared with baseline (fig 1A). One patient had a late increase in anti-CII antibody levels between 3 and 5 years (patient 3, fig 1A).
Serial investigations of anti-CII and TNFα, IL1β and IL8 levels induced by anti-CII-containing IC
The borderline anti-CII value for cytokine induction by corresponding solid-phase IC containing CII and anti-CII was between 125 and 500 AU/ml (fig 4B–D in Mullazehi et al8)—that is, between the controls and most patients with RA on one hand and the nine very high anti-CII RA sera on the other. When the nine patients with very high baseline anti-CII antibody levels were followed serially with regard to anti-CII IC-induced cytokine responses in vitro, eight exhibited marked declines in the production of TNFα (fig 1B). Analysis of IL1β and IL8 revealed identical patterns (data not included). The patient exhibiting a bimodal appearance of anti-CII also had a parallel increase in the induction of all three cytokines after 5 years (fig 1B, data not included).
The patient with the second highest baseline anti-CII antibody level diverged from the other eight patients with low cytokine levels induced by anti-CII IC on all occasions (patient 2, fig 1A,B). No other RA sera induced significant cytokine production (data not included).
Correlation between clinical parameters and IC-induced cytokine production
All patients but one with very high baseline anti-CII had similar anti-CII levels, solid-phase anti-CII IC-induced cytokine production and clinical response, with falling values for CRP, ESR (fig 1C,D), swollen and tender joint counts, disease activity score using 28 joint counts (DAS)28 and physician’s assessment of disease activity (data not included). In patient 3, the biphasic appearance of anti-CII antibody and cytokine induction was accompanied by parallel late increases in CRP, ESR and rheumatoid factor (RF), as well as for DAS28. Patient 2, whose CII-IC did not induce appreciable cytokine levels, had consistently low levels of CRP and ESR (fig 1C,D). All nine patients with very high baseline anti-CII levels exhibited a good (n = 4) or moderate (n = 5) DAS28 response during the first year. The four patients with the highest anti-CII levels were RF negative and the remaining five were RF positive at baseline.
In all, 20 of 250 initially anti-CII-negative patients turned positive during the follow-up, mostly in the borderline region. Seven patients had sharp increases to >100 U/ml in anti-CII on one or two consecutive occasions. Of these, two showed modest corresponding increases and four decreases or no change in CRP (data not included).
No difference in treatment between anti-CII-positive and anti-CII-negative patients with RA
There was no difference between percentage of anti-CII-positive and anti-CII-negative patients starting with disease-modifying anti-rheumatic disease (DMARD) treatment at the time of diagnosis (table 1), or with regard to choice of DMARDs (data not included; for DMARD distribution, see Rönnelid et al9).
Anti-CII antibody-positive patients are characterised by high baseline inflammatory activity
Anti-CII positive patients had higher CRP and ESR than anti-CII-negative patients at baseline, but not later during follow-up (table 1, fig 2). Besides a few weakly significant differences (all with anti-CII positive patients having the lowest responses), anti-CII-positive and anti-CII-negative patients did not differ in other parameters (fig 2). Anti-CII-positive patients had shorter disease duration before diagnosis (table 1).
DISCUSSION
A minority of patients with RA have highly increased levels of anti-CII clearly distinguished from the otherwise normal distribution, thereby comprising a separate outlier subgroup. These patients have a distinct phenotype with significantly increased CRP and ESR values at baseline, paralleled by CII-IC-induced cytokine production in vitro. In parallel with declines in antibody levels with time, such patients exhibit reductions in CII-IC-induced production of pro-inflammatory cytokines, in parallel with reductions in laboratory and clinical disease activity. Collectively, these data suggest that high baseline anti-CII levels are associated with acute inflammation generated through IC-stimulated cytokine production. Anti-CII-positive patients have significantly decreased disease duration before diagnosis, probably due to this acute inflammation.
The fraction of high anti-CII antibody-positive patients with RA corresponds to the most conservative prevalence (3%) of anti-CII published.1 Both haemagglutination1 and our functional cell stimulation assays use techniques requiring cellular attachment via anti-CII, indicating that few patients have sera with such properties.
Anti-CII antibodies are produced in RA joints,10,11 but not in the periphery.11 The lower incidence of RF among anti-CII-positive RA in this and other6 studies might be caused by retention of RF in the joint space by binding to anti-CII-containing IC. The serum with the next highest baseline anti-CII level did not induce pro-inflammatory cytokines. This patient had low levels of CRP and ESR throughout the follow-up period. This might be due to differences in epitope specificities, hypotheses that we will study further. Patients with RA differ considerably with regard to anti-CII epitope specificities.5,12–15
Patients with and without anti-citrulline antibodies investigated in the same RA cohort did not differ with regard to clinical indices at baseline, but thereafter showed increasing differences relating to swollen joint count.9 It is intriguing that anti-CII and anti-citrulline associate with different clinical signs and symptoms at diverse time points after diagnosis, and also associate negatively with one another (table 1), thereby representing distinct clinical phenotypes.
In conclusion, our data support the hypothesis that patients with early RA with anti-native CII have a unique phenotype where the early inflammation might be driven by cartilage-bound IC.
Acknowledgments
We thank Professor Lars Klareskog for supplying serum samples and clinical information on patients with RA. We thank Associate Professor Robert A Harris for linguistic advice.
REFERENCES
Footnotes
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Published Online First 12 October 2006
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Funding: The Swedish Fund for Research Without Animal Experiments and The Swedish Rheumatism Association.
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Competing interests: None.