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Abstract
This study aims to analyze clinical and pathological characteristics of ocular adnexal extranodal marginal zone B-cell lymphoma (EMZL) accompanying IgG4-positive cells. Fifty patients with a diagnosis of primary non-conjunctival ocular adnexal EMZL were enrolled in this study. The number of IgG4-positive cells and the ratio of IgG/IgG4 were evaluated by immunohistochemistry in the biopsy specimens. The patients were divided into two groups based on the absolute number and the ratio of IgG4-positive cells (IgG4-posivite vs IgG4-negative groups). The demographic data, clinical staging at diagnosis, histopathological characteristics, and response to initial treatment were comparatively analyzed between the 2 groups. Five (10%) of 50 patients were defined as IgG4-positive group, and all the cases showed characteristic histological features such as extensive plasma cell infiltration and dense fibrosis. Most of these patients (4 of 5 patients) had lymphoma of the lacrimal gland. The patients from the IgG4-positive group showed a lower response rate to initial treatment (87.5 vs 33%, p = 0.03) than IgG4-negative group with a median follow-up period of 38 months. A part of the ocular adnexal EMZLs were accompanied with IgG4-positive cells. Significantly, most IgG4-positive ocular adnexal EMZLs occurred in the lacrimal gland, and can be related with a more frequent treatment failure.
Citation: Lee MJ, Kim N, Choe J-Y, Khwarg SI, Jeon YK, Choung H-K, et al. (2015) Clinicopathological Analysis of Ocular Adnexal Extranodal Marginal Zone B-Cell Lymphoma with IgG4-Positive Cells. PLoS ONE 10(6): e0131458. https://doi.org/10.1371/journal.pone.0131458
Editor: Renato Franco, Istituto dei tumori Fondazione Pascale, ITALY
Received: November 16, 2014; Accepted: June 2, 2015; Published: June 25, 2015
Copyright: © 2015 Lee et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Data Availability: Institutional Review Board (IRB) restrictions make data unsuitable for public deposition because of the ethical concern. An anonymized data set will however be made available for researchers who meet the criteria for access to confidential data upon request to the corresponding author (hokyung214@gmail.com).
Funding: This study was supported by a grant no 04-2005-0270 from the Seoul National University Hospital Research Fund (SIK). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Competing interests: The authors have no proprietary or commercial interests in any materials discussed in this article.
Introduction
Recognition of IgG4-related sclerosing disease is clinically important because it can be mistaken for malignancy owing to its tumefactive nature. Essentially, it is non-neoplastic disease that is histologically characterized by dense sclerosis and by the presence of abundant IgG4-positive plasma cells [1–3]. Individual organs, including the pancreas, bile duct, retroperitoneal soft tissues, liver, thyroid, lung, and salivary glands can be involved, or it can present as a systemic condition [2]. Although the prototype of IgG4-related disease in the ophthalmologic field is bilateral dacryoadenitis accompanied by sialadenitis (formerly known as Mikulicz disease), involvement of other ocular adnexal tissues such as orbital fat, extraocular muscles, and the lacrimal sac has been reported [4–6].
Several studies have investigated a potential relationship between IgG4-related disease and extranodal marginal zone B-cell lymphoma (EMZL) [7–10]. Cheuk et al initially described 3 cases of ocular adnexal lymphoma in patients with chronic IgG4-related sclerosing dacryoadenitis, and 3 cases of ocular adnexal EMZL displaying histological background of sclerosing inflammation and the presence of IgG4-positive plasma cells [9]. More recently, Kubota et al reported 10 cases of ocular adnexal EMZL accompanied by a heavy infiltration of IgG4-positive plasma cells out of 114 cases [7]. These results suggest that IgG4-positive plasma cells might participate in the pathogenesis of EMZL in a subset of the cases. However, clinical implications of this finding had not been fully investigated and further studies are needed to support these studies.
Therefore, the present study was designed to establish clinical and pathological characteristics of ocular adnexal EMZL accompanying IgG4-positive cells.
Methods
Patients selection
We surveyed our database for patients with a diagnosis of ocular adnexal EMZL, confirmed by a surgical biopsy at the Department of Ophthalmology of Seoul National University, Seoul National University Boramae Hospital, and Seoul National University Bundang Hospital between 2000 and 2010. Patients with solely conjunctival lymphoma or secondary lymphoma were excluded from the study. Clinical data were obtained from medical records, and pretreatment biopsy specimens were collected from all patients. The written informed consent was waived due to the study’s retrospective nature. This study followed the tenets of Helsinki Declaration, and the data were analyzed anonymously. The protocol for this study was approved by the institutional review board of Seoul National University Boramae Hospital (16-2013-19).
Histopathological features of EMZL and IgG/IgG4 scoring
Serial 4-μm-thick sections were sliced from formalin-fixed and paraffin-embedded tissue blocks, and subjected to haematoxylin and eosin (H&E) staining and immunohistochemistry. Three haematopathologists (J.E.K, Y.K.J., and J.Y.C) reviewed all H&E and immunohistochemistry slides and achieve a consensus. PCR-based gene rearrangement study for immunoglobulin heavy chain was performed for a few selected cases. Immunohistochemical staining of paraffin-embedded tissue sections was performed as previously described.11 Each 4-μm tissue section was incubated with anti-IgG (1:10000, DakoCytomation, Copenhagen, Denmark) and anti-IgG4 (1:5000, Invitrogen, Carlsbad, CA, USA), using a BenchMark automatic immunostaining device (Ventana Medical Systems, Tucson, AZ, USA) with standard heat-induced antigen retrieval.
The extent of IgG4-positive plasma cell infiltration was evaluated either by the absolute number of IgG4-positive cells or by the ratio of IgG4 to IgG-positive cells per high-power field (HPF), defined as a region with the highest density of immunostained cells, covering an area of 0.14 mm2. Images were taken by a DP72 digital camera mounted on a BX51 microscope (Olympus Corp., Tokyo, Japan). The patients with IgG4/IgG cell ratio > 40% and IgG4-positive plasma cell density ≥ 50/HPF were classified as IgG4-positive ocular adnexal EMZL patients (IgG4-positive group). The patients who did not meet the requirements were considered as IgG4-negative ocular adnexal EMZL (IgG4-negative group) [2].
Detection of Chlamydia psittaci
Presence of Chlamydia psittaci was tested in 32 samples of ocular adnexal EMZL via touchdown enzyme time-release PCR (TETR-PCR) as previously described [11]. Genomic DNA was extracted from paraffin-embedded tumor tissues using QIAamp DNA FFPE kit (Qiagen, Valencia, CA, USA). The primer sequences for Cp were 5'-CCC AAG GTG AGG CTG ATG AC-3' (forward) and 5'-CAA ACC GTC CTA AGA CAG TTA-3' (reverse). Ta-CLONED Cp DNA was used as a positive control. The annealing temperature was 54°C. The amplified DNA fragments were electrophoresed on 2% agarose gels and were visualized after staining with ethidium bromide.
Clinical data
Disease stage was defined according to the American Joint Committee on Cancer (AJCC) classification [12]. The response rate and progression-free survival to initial treatment were also compared in patients who were followed up more than 6 months. Response assessments were established according to the revised response criteria for malignant lymphoma defined as follows: complete remission (CR), complete disappearance of all clinical evidence of lymphoma based on physical examination and orbital computed tomography or magnetic resonance imaging; partial remission (PR), regression of measurable disease and no new disease sites; relapsed or progressive disease (PD), any new lesion or increase in size by ≥50% from the nadir at previously involved sites; and stable disease (SD), failure to attain CR,PR or PD [13].
Progression-free survival was calculated from the date of first-line treatment to the date of disease progression, death, or the last follow-up visit. The Fisher’s exact test was used to compare possible associations between the categorical variables. For the continuous variables, the Mann-Whitney U test was used. For all the tests, p < 0.05 was considered to be statistically significant. All the statistical analyses were performed using the SPSS software (SPSS for windows Release, version 14.0, SPSS, Chicago, IL, USA).
Results
Data from 143 patients with ocular adnexal EMZL were retrieved from medical records by computerized search. Among them, 88 patients with conjunctival lymphoma and 5 patients without available tissue-blocks were excluded, and finally 50 patients were enrolled in this study. Ten of fifty patients were overlapped with previous research conducted at Seoul National University Hospital [14]. The mean age was 56 years (range: 23–72 years) with a male-female ratio of 35:15, and bilateral involvement was observed in 8 patients (16.0%). The most common presenting symptom was palpable mass in 17 patients (34%), followed by eyelid swelling (13 patients, 26%), proptosis (11 patient, 22%), diplopia (4 patients, 8%), ptosis (3 patients, 6%), and decreased vision (2 patients, 4%). None of the patients complained B symptoms. Serum LDH values were available for 40 patients and 8 patients (20%) showed elevated LDH levels. All cases diagnosed with ocular adnexal EMZL showed characteristic histologic features such as dense small lymphoid cell infiltration with only slight atypia, variable degree of plasmacytoid differentiation, invasive features represented by follicular colonization or lymphoepithelial lesions. Immunohistochemical stain revealed that tumor cells were diffusely positive for CD20, CD79a, bcl-2, and negative for CD3, CD5, CD10, cyclin D1 and bcl-6, which excludes the possibility of low grade B-cell lymphoma other than EMZL. Based on IgG and IgG4 immunostaining, 5 patients (10%) were defined as the IgG4-positive group and 45 patients were considered as the IgG4-negative group. Histologically, all the 5 patients in the IgG4-positive group showed dense plasma cell infiltration and fibrosis, and lymphoid follicle formation was observed in 3 patients (Fig 1).
(B) Histological examination result showing lymphoplasma cell infiltration and background fibrosis (H&E, original magnification ×200). Immunohistochemical staining for (C) IgG and (D) IgG4 (original magnification ×200) showing that most of the IgG-positive cells are positive for IgG4.
The demographic data including age, gender, and clinical stage at diagnosis were collected and compared between the IgG4-positive and IgG4-negative groups (Table 1). Age, gender, laterality, and duration of symptom were not significantly different between the 2 groups. As determined by AJCC staging, 5 patients in the IgG4-positive group had orbital lymphoma (T2) and the IgG4-negative group consisted of 41 patients with orbital lesion (T2), 3 patients with eyelid lesion (T3), and 1 patient with a mass extending to the cheek (T4). For the patients with orbital lymphoma (T2), a subgroup analysis was performed, and significant differences were found between the 2 groups (p = 0.02). In the IgG4-positive group, most of the patients (4 of 5 patients) had lacrimal gland lymphoma (T2b), whereas most of the patients in the IgG4-negative group (25 of 41 patients) showed lymphoma occupying the posterior orbit (T2c). Although no patient showed lymph node metastasis, 3 patients in the IgG4-negative group presented distant metastasis at diagnosis. Cp DNA was observed in 16 (50%) of 32 patients with available samples. Cp-positivity was 75.0% (3 of 4) in IgG4-positive group and 46% (13 of 28) in IgG4-negative group. However, there was no statistically significant difference between two groups (p = 0.59).
Forty-three patients (3 patients in the IgG4-positive group and 40 patients in the IgG4-negative group) were followed up for more than 6 months and were therefore eligible for the treatment outcome analysis (Table 2). Front-line treatment was administered as follows: combination chemotherapy in 29 patients, doxycycline treatment in 8 patients, and radiation therapy in 6 patients. With a median follow-up period of 38 months, the IgG4-negative group showed better treatment response than the IgG4-positive group (p = 0.03). The IgG4-negative group showed prolonged progression-free survival compared with the IgG4-positive group, although the results did not reach statistical significance (33 vs 24 months, p = 0.08, log-rank test).
Discussion
IgG4-related disease is a recently proposed entity with several unique clinicopathological features, such as enlargement of affected organs, elevated serum IgG4 level, and infiltration with IgG4-positive plasma cells [1,3,15]. IgG4-related disease is a conceptually systemic and chronic inflammatory disorder, and patients show various symptoms according to the affected organs. Corticosteroid therapy has been shown to be effective in these patients, but disease relapse occurs frequently. Although IgG4-related disease is getting to form a distinct clinical entity, many questions and problems remain to be elucidated, including its association with malignant lymphoma. In this study, 5 of 50 ocular adnexal EMZL cases were categorized as IgG4-positive, and were predominantly located at the lacrimal gland. This group was also associated with a lower response rate to initial treatment compared with the IgG4-negative group, although the number of cases was small.
Recently, Kubota et al analyzed 114 biopsy samples of ocular adnexal EMZLs, and reported IgG4-positive plasma cell infiltration in 9% of cases, similar to the results of the present study (10%) [7]. However, the eligible criteria of patients were somewhat different between the two studies. Many previous studies revealed a variable proportion of IgG4-related lesions among ocular adnexal EMZLs because of the lack of consensus on the criteria defining IgG4-related disease. In contrast to the study by Kubota et al, we used both the absolute number of IgG4-positive cells and the ratio of IgG4/IgG-positive cells as criteria for grouping in addition to the ratio for defining. In addition, we excluded conjunctival EMZL (T1) because it is known that IgG4-related disease rarely involves conjunctiva [14]. Sato et al reported that the conjunctiva was not involved in any of the 21 patients with ocular adnexal IgG4-related disease in their study [1]. We find only one case report on IgG4-related EMZL involving the conjunctiva through extensive literature search [16].
IgG4-positive group showed lacrimal gland preponderance either unilaterally or bilaterally (T2b, 4 of 5 cases), whereas the IgG4-negative group revealed an even distribution of the primary site throughout the orbital tissues [7]. Our result is also in agreement with the previous study reporting 6 cases of IgG4-related sclerosing dacryoadenitis associated with EMZL of the lacrimal gland [9]. Indeed, along with the pancreas, the lacrimal gland is known as a main target organ of IgG4-related disease [3,15]. However, there is a controversial finding by Kubota et al who reported higher number of IgG4-positive EMZL of the posterior orbit (8 cases) rather than the lacrimal gland (2 cases) [7].
A link between ocular adnexal IgG4-related disease and EMZL has been proposed [17,18]. EMZL can be caused by chronic infection or inflammation [19–21]. Patients with autoimmune diseases, such as Sjogren’s syndrome or Hashimoto’s thyroiditis are at increased risk of developing EMZLs [19]. However, the causal relationship between IgG4-related disease and EMZL remains uncertain, as IgG4-positive lymphomas can develop independently or arise from underlying IgG4-related disease. In this study, 3 of 5 patients in the IgG4-positive group had some clinical features that could be associated with systemic IgG4-related disease (Table 3). Case 1 had a history of dacryoadenitis in the contralateral lacrimal gland, and case 2 had a history of bilateral sialadenitis. Although serum IgG4 data or pathological reports of these lesions are unavailable, based on the clinical history, it is highly likely that the 2 cases are associated with systemic IgG4-related disease. It is typical for IgG4-related sclerosing disease that the lacrimal and salivary glands are involved either synchronously or metachronously, suggesting that IgG4-related disease might precede EMZL [3]. Another interesting feature is found in case 3 which had asthma. Allergic features, such as asthma, atopic dermatitis, eczema and peripheral eosinophilia are also frequently accompanied by IgG4-related disease. In a study of 9 patients with IgG4-related lacrimal gland enlargement, elevated serum IgE levels were found in all patients, and 5 of 9 patients exhibited eosinophilia and asthma-like symptoms, suggesting that a Th2 cell-mediated allergic response may be involved in the pathogenesis of IgG4-related disease [22].
Regarding pathogenesis of ocular adnexal EMZL, several genetic abnormalities including chromosomal aneuploidy and gene translocations affecting activation of NF-Kb pathway have been reported [23]. Unlike gastric MALT lymphoma, these genetic alterations occur randomly in a minority of the cases, moreover, are not sufficient enough for malignant transformation in ocular adnexal EMZL [24]. Association with Cp has also been reported [19,25]. The prevalence of Cp was known to have geographical difference, and some studies from Korea reported relatively high prevalence over 70% [23,26,27]. We also found frequent association of Cp in this study, showing similar incidence reported by other Korean researchers. Although Cp-positivity was slightly higher (75%) in IgG4-positive group, than IgG4-negative group (46%), the difference was not fully significant because of the small number of IgG4-positive cases. One possible suggestion is that Cp infection is just prevalent in longstanding inflammatory lesions of ocular area in our country, not directly associated with recruitment of IgG4+ cells. Further investigations will be needed to clarify this issue.
There are no established prognostic indicators for the treatment of ocular adnexal EMZL, although CD5+, trisomy 18, and high Ki-67 have been shown to correlate with a poor outcome in some patients [28–30]. Recently, Bi et al reported that A20 inactivation by mutation of deletion in ocular adnexal EMZL was associated with increased expression of NF-Kb target genes, and required higher radiation dosages to achieve complete remission [31]. In this study, IgG4-negative group showed significantly better response to front-line treatment than IgG4-positive group. There has been no literature of the clinical usefulness of IgG4-positivity as a predictor. We suggested that IgG4 may be a possible prognostic indicator in ocular adnexal EMZL. However, large scale studies should be performed to confirm our finding.
Because of its retrospective nature, there is no data about serum IgG4/IgG, which is one of the main limitations of this study. Although serum IgG4 level elevation is helpful in diagnosing IgG4-related disease, it is not a specific diagnostic marker. Rather than serum IgG4 concentration, histopathological findings, such as dense lymphoplasmacytic infiltration and storiform fibrosis, are more essential for diagnosis [32,33]. Recently proposed diagnostic criteria defined IgG4-related disease in patients with (1) organ enlargement, mass or nodular lesions, or organ dysfunction; (2) a serum IgG4 concentration > 135 mg/dL; and (3) histopathological findings > 10 IgG4 cells/HPF and an IgG4+/IgG+ cell ratio > 40%. However, IgG4+/IgG+ plasma cell ratio is considered as a more powerful value than IgG4+ cell count and the cutoff point for the IgG4+ plasma cell count may vary from organ to organ [34]. The proposed cut-offs for lacrimal lesions range from 10 to 100 IgG4+ cell/HPF[35].
In conclusion, some nonconjunctival ocular adnexal EMZLs were associated with IgG4-positive sclerosing disease. The patients in the IgG4-positive group showed masses predominantly in the lacrimal gland and had a poor response to initial therapy. Although the results from this study were limited to be generalized because of the small number of cases, our data suggest that ocular adnexal EMZL accompanying IgG4-positive cells has unique clinical features discriminated with those without IgG4-positive cells. Further large-scaled studies will be needed to confirm these findings.
Author Contributions
Conceived and designed the experiments: MJL HKC JEK. Performed the experiments: JYC YKJ JEK. Analyzed the data: MJL. Contributed reagents/materials/analysis tools: NK SIK HKC. Wrote the paper: MJL NK JYC SIK YKJ HKC JEK.
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