Radon-therapy in ankylosing spondylitis reduces auto-antibody titers ()
1. INTRODUCTION
Ankylosing spondylitis (AS) is a chronic inflammatory disorder, which is mainly characterized by tissue destruction in axial joints and bilateral sacroiliitis. Sometimes, peripheral joints and extra-articular organs such as lung and heart valves are also affected. Autoimmunity—the key feature of rheumatoid disorders including AS-manifests itself via production of antibodies against self` antigens. Among several environmental and genetic factors that seem to predispose for rheumatoid arthritis (RA), formation of neo-antigens via altered post-translational modifications is believed to be strongly associated with the onset of autoimmunity and, subsequently, the pathogenesis of rheumatoid disorders. In fact, genetic polymorphisms of peptidyl-arginine-deiminase type IV (PAD IV), the enzyme that mediates citrullination of proteins, has been associated with the susceptibility to RA [1]. Antibodies against cyclic citrullinated proteins (anti-CCP) target multiple citrullinated proteins and are highly specific for RA [2-4] . Thus, anti-CCPs have become a useful diagnostic marker and a predictive tool for the progression of RA [5,6] .
B cell depletion and, thus, reducing circulating autoantibodies, has proven successful in patients with RA [7] and, similarly, medication with TNF-α blocking agents reduced disease severity and auto-antibody levels [8-11] .
Combined low-dose radon/hyperthermia therapy (LDRnHT) has been reported to improve mobility and reduce pain in patients with AS [12]. However, the underlying mechanisms are still unclear. In a pilot study on 33 patients suffering from AS, we investigated the effect of LDRnHT on the level of circulating anti-CCPs.
2. PATIENTS AND METHODS
The study was designed as pilot study and was approved by the ethics committee of the state of Salzburg, Austria. Written informed consent was obtained from all patients. Inclusion criteria were age: age 20 - 75 years, diagnosed spondylitis ankylosans based on the modified New York Criteria for the Diagnosis of ankylosing spondylitis, physician prescribed LDRnHT and previously given written consent. Exclusion criteria were: therapy with either glucocorticoids, bisphosphonates, parathyroid hormone, vitamin-D or strontium renalate four weeks prior or during the study, treatment with TNF-α blockers or other biologicals eight weeks prior or during the study as well as hormone replacement therapy in post-menopausal women. A total of 33 patients (8 women, 25 men) median aged 53 (ranging from 21 - 74) years were enrolled without performing new radiographic examinations before enrolment. The median duration of disease was 28 years (ranging from 10 - 58). 14 patients received NSAIDs. LDRnHT was performed in the thermal tunnels of Boeckstein-Bad Gastein with a total administration of ten treatments during three weeks. Each treatment was 90 minutes at 37˚C - 40.5˚C ambient temperature, 70% - 95% air humidity and radon (222Rn) activity of ~4.5 nCi/L. For ethical reasons, which would have been either refusal of a physician prescribed therapy or an unreasonable radiation exposure of persons lacking a therapeutic indication, no control group was enrolled in this pilot study.
2.1. Blood Serum Preparation
Forearm venous blood samples were drawn immediately before the first and immediately after the last treatment. Blood was collected in monovettes (Becton Dickinson, NJ, USA), incubated for 15 min at room temperature and centrifuged for 15 min. Serum was stored in aliquots at –20°C prior to analysis.
2.2. Enzyme-Linked Immunosorbent Assay (ELISA)
ELISAs were performed according to the manufacturers instructions. Anti-CCP titer determination kit was purchased from Euroimmun (EuroimmunAG Lübeck, Germany). Values above upper limit of quantification were set as equal to maximum value of the standard-curve within linear range.
2.3. Statistical Analysis
Data were evaluated for normal distribution prior to statistical analysis. Data are expressed as mean ± SEM. Statistical analysis included descriptive statistic such as means, upper and lower quartile and standard error to the mean (SEM). Data were evaluated for normal distribution prior to statistical analysis using KolmogoroffSmirnov and Lilifors test. Statistical analysis was performed using a Wilcoxon signed rank test as a non-parametric method. A p-value less than 5% was considered to indicate a statistically significant effect. All analyses were done using StatXact 6.0 (Cytel Software Corporation, Cambridge MA 2002).
3. RESULTS
Decreased Titers of Circulating Anti-CCPs
Mean titers of anti-CCPs in peripheral blood signifycantly decreased by 12.2 ± 2.4% (p < 0.0001) from 100.3 ± 5.6 to 85.4 ± 4.0 pg/mL. Median decreased from 84.8 to 69.0 RU/mL (Figure 1). Individual concentrations ranged from 71.8 RU/mL to 200 RU/mL.
4. DISCUSSION
The clinical significance in terms of predictive as well as diagnostic value of autoantibodies, particularly those directed against cyclic citrullinated proteins, has been well documented.
Figure 1. Titers of anti-CCP antibodies before (left) and after (right) LDRnHT (median ± SEM).
Presence of anti-CCPs before onset as well as in established RA is associated with more severe radiological damage [13] and thus disease severity [14]. In a pilot study on 33 patients, we could clearly demonstrate a significant decrease of anti-CCPs in AS patients after receiving LDRnHT. Due to the pilot nature of our study we could not yet demonstrate the sustainability of the observed effect. Nevertheless our findings are encouraging since they are in agreement with those obtained in course of other treatment modalities for rheumatic disorders. Combating the chronic inflammation in RA with TNF-α blocking agents showed a significant decrease of anti-CCP levels in several studies [9-11] . Although, there are conflicting results derived from a few other studies, the majority observed a decrease in serum anti-CCP titer. Notably, Alessandri et al. reported a significant decrease in serum anti-CCPs in patients who benefitted from clinical improvement in contrast to those, who did not [8] . This suggests a causal correlation between alleviation in disease severity and a decrease in autoantibody levels.
From a pathophysiological point of view, the selfmaintenance of rheumatoid synovitis can be, at least partially, explained by continuous activation of antigenpresenting cells or phagocytes via antigen/autoantibody immune-complexes. Both, the predominant anti-CCP isotype IgG1 as well as the less frequently found IgG4 [2] can trigger the high affinity activating receptor FcγRIIIa found on phagocytes. In addition, IgG1 is a potent activator of the complement cascade leading to destruction of target cells and thereby further contribute to the inflammatory processes. Taken together, reducing the autoantibody level may dramatically interfere with several inflammatory pathways that probably synergize with others and cause tissue destruction, pain and progression of disease.
Our finding that LDRnHT leads to a reduction of anti-CCP levels in patients with AS further substantiates the already reported beneficial effects of this treatment [12] and will prompt us to verify these data in a placebocontrolled study and to further investigate the underlying biological mechanisms that are still poorly understood.
ABBREVIATIONS
Anti-CCP, antibodies against cyclic citrullinated proteins; AS, Ankylosing sponylitis; BASDAI, Bath ankylosing spondylitis disease activity index; BASFI, Bath ankylosing spondylitis functional index; BASMI, bath ankylosing spondylitis metrology index; Ig, Immunoglobuline; LDRnHT, low-dose radon and hyperthermia treatment; NSAID, non-steroid anti-inflammatory drug; RA, Rheumatoid arthritis; TNF-α, Tumor necrosis factor α.