Is the anti-centromere antibody a marker for a distinct subset of polyautoimmunity in Sjögren’s syndrome?

Article information

Korean J Intern Med. 2021;36(6):1323-1326
Publication date (electronic) : 2021 November 1
doi : https://doi.org/10.3904/kjim.2021.467
Division of Rheumatology, Department of Internal Medicine, Seoul National University Bundang Hospital, Seoul National University College of Medicine, Seongnam, Korea
Correspondence to Yun Jong Lee, M.D. Division of Rheumatology, Department of Internal Medicine, Seoul National University Bundang Hospital, 82 Gumi-ro 173beon-gil, Bundang-gu, Seongnam 13620, Korea Tel: +82-31-787-7049 Fax: +82-31-787-4050 E-mail: yn35@snu.ac.kr
Received 2021 October 8; Accepted 2021 October 18.

Sjögren’s syndrome (SS) is a systemic autoimmune disease characterized by sicca symptoms (a major clinical feature) and B cell dysregulation and hyperactivity (major pathogenic mechanisms); among autoimmune diseases, it has the highest risk of non-Hodgkin’s lymphoma (NHL). Unlike systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA), the clinical course of SS is not characterized by intermittent relapses; instead, it has a stable or very slowly progressive course. Therefore, the diagnosis of SS is often delayed for several years and many individuals remain undiagnosed [1].

Although subjective sicca is the symptom most likely to lead to a diagnosis of SS, SS can have a wide range of extra-glandular manifestations [2]. Moreover, SS patients frequently have polyautoimmunity (4% to 30%) overlapping with RA, SLE, systemic sclerosis (SSc), or primary biliary cholangitis (PBC) [3]. The term primary SS is typically applied to cases with SS alone, while secondary SS has been used to describe cases in which another well-defined rheumatic disease is also present. However, the concept of secondary SS may decrease awareness of the presence of SS, thus leading to its underestimation, and can result in an erroneous diagnosis of SLE or RA [1,4]. The nomenclature of primary and secondary SS is controversial and does not have significant clinical implications for SS management; therefore, the US Sjögren’s Foundation advises changing the terminology [4]. Consequently, the diagnosis of SS in routine practice is challenging in some cases.

Although it is still not known whether autoantibodies have a direct pathogenetic role or merely constitute an epiphenomenon, SS patients exhibit a broad range of organ-specific and -nonspecific autoantibodies secondary to polyclonal B cell activation. Organ-nonspecific anti-nuclear antibodies (ANAs), rheumatoid factor, anti-Ro/SSA, and anti-La/SSB were long considered diagnostic markers for SS. However, the presence of anti-Ro/SSA or focal lymphocytic sialadenitis with a focus score ≥ 1 is mandatory for diagnosing SS according to recent criteria [2]. Other autoantibodies tend to be associated with a clinical phenotype, including cryoglobulins, anti-cyclic citrullinated peptide antibodies, and anti-centromere antibodies (ACAs).

ACAs are a type of ANA; they are autoantibodies against centromere-associated proteins (CENPs). ACA positivity is usually determined by a discrete speckled pattern in HEp-2 cells in indirect immunofluorescent (IIF) assays. ACAs react with various components of the centromere-specific nucleosome, the kinetochore. Antigenic proteins include CENP-A, CENP-B, CENP-C, chromobox protein homolog 5 (CBX5), and MIS12 kinetochore complex component (MIS12C) [5]. Of these, anti-CENP-B is considered the main autoantigen because anti-CENP-B positivity in solid-phase assays is strongly associated with the presence of ACAs on IIF assays. ACA is an autoantibody found in SSc patients, especially in a limited cutaneous subset, and is also detected in the autoimmune diseases SS and PBC. According to several recent papers, the prevalence of ACA in East Asian SS patients ranges from 8.2% to 25.3% (Table 1) [5-11]. Since the rate of ACA positivity in SSc was 25.5% in a large Korean multicenter study [7], a considerable proportion of SS patients have ACAs. A retrospective Japanese study reported that 81 (37.9%) of 309 ACA-positive patients were ultimately diagnosed with SSc, and 50 (23.4%) with SS [12]. Furthermore, it was recently reported that ACA-secreting cells accumulate in the salivary glands of SS patients [13]. Therefore, researchers have been examining the clinical characteristics of ACA-positive SS.

Prevalence of anti-centromere antibody in East Asian patients with SS and SSc in the recent literature

ACA-positive SS patients have more severe symptoms and signs of exocrine dysfunction, and higher prevalences of Raynaud’s phenomenon and sclerodactyly [13]. Autoimmune responses with autoantibodies occur in genetically susceptible individuals, and the associated diseases evolve progressively in a multi-hit fashion. Raynaud’s phenomenon and ACA can predict the subsequent development of SSc. Valentini et al. [14] reported that SSc developed in 52.3% of subjects with serological (SSc-specific autoantibodies) and capillaroscopic markers, and in 66.6% of those with serological markers, when individuals with Raynaud’s phenomenon were followed for a median 3 years. Several studies have also revealed that ACA-positive SS patients can progress to overt SSc [15]. Therefore, ACA is a risk factor for the subsequent occurrence of overt SSc in SS patients. However, the progression rate ranged widely, from 0% to 40% [6], likely due to differences among studies in cohorts, sample sizes, and definitions of SS and SSc. Because many patients with ACA-positive SS do not progress to SSc, ACA appears to be a serological marker of a distinct intermediate condition between SS and SSc.

In this issue of the Korean Journal of Internal Medicine, Park et al. [16] report on the clinical features of Korean SS patients with ACA. In the Korean Initiative of primary Sjögren’s Syndrome (KISS), ACA was positive in 16.7% (53/318) of patients when assessed using a commercial enzyme-linked immunosorbent assay. This cross-sectional study is the largest to investigate the impact of ACA positivity on the manifestations of Korean SS patients. At the time of study enrollment, the ACA-positive group was older; it also had higher rates of Raynaud’s phenomenon (49.1% vs. 15.2%) and hepatic involvement (11.3% vs. 0.8%), and lower rates of articular involvement (32.1% vs. 47.7%), hypergammaglobulinemia (29.4% vs. 50.4%), and leukopenia (17.3% vs. 33.5%). However, ACA-positive and negative SS groups had comparable glandular dysfunction, disease activity, damage scores, and quality of life indices. Concerning symptoms associated with ACA, the results concur with those of previous studies, including another Korean study [6].

However, some points need to be addressed in Park et al. [16]. First, 32 (61.5%) of their 52 ACA-positive SS patients were positive for both ACA and anti-SSA/Ro. Unfortunately, the authors did not analyze the clinical features after further stratification based on the ACA and anti-Ro/SSA status. The double anti-Ro/SSA- and ACA-positive subgroup may dilute or alter some characteristics of the ACA-positive SS patients. Suzuki et al. [15] reported that anti-Ro/SSA and ACA double-positive SS is also different from anti-Ro/SSA and ACA single-positive SS. Second, Park et al. [16] did not specify the details of the immobilized antigen in the ELISA assay that they used. Several studies of epitope specificity have demonstrated that anti-CBX5 and anti-CENP-C are more common in SS than SSc patients [5]. However, a recent study of autoantigen profiling of ACA showed similar reactivities against centromere antigens in SS and SSc, unlike previous reports, and ACA-positive SS, SSc, and PBC patients had common clinical characteristics [13]. A further study should investigate if Korean SS patients with ACA have distinct epitopes from SSc and PBC patients with ACA. Third, Park et al. [16] did not examine the longterm outcome of the ACA-positive SS group; however, because their study was based on the KISS prospective cohort, it will be possible to determine how many subjects progress to SSc or develop NHL during follow-up.

In conclusion, this large, well-organized study has important implications for clinicians dealing with ACA-positive results. ACA-positive Korean patients should not automatically be interpreted considered a limited subtype of SSc, because ACA may also be detected in a subset of SS or PBC that shares some clinical features of SSc. In addition, a minor salivary gland biopsy is strongly recommended to facilitate the diagnosis of SS in ACA-positive and anti-Ro/SSA-negative cases suggestive of SS.

Notes

No potential conflict of interest relevant to this article was reported.

References

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Table 1.

Prevalence of anti-centromere antibody in East Asian patients with SS and SSc in the recent literature

Study Country Publication year SSc SS
Lee et al. [6] Korea 2015 13.4% (n = 82)
Moon et al. [7] Korea 2018 25.5% (n = 751)a
Tsukamoto et al. [8] Japan 2018 8.2% (n = 585)
Takeshita et al. [5] Japan 2020 34% (n = 35) 13% (n = 112)
Lin et al. [9] China 2021 13.5% (n = 333)
Lee et al. [10] Korea 2021 48.4% (n = 62) 13.6% (n = 59)
Nakamura et al. [11] Japan 2021 25.3% (n = 87)

SS, Sjögren’s syndrome; SSc, systemic sclerosis.

a

The number of study subjects.