Differential infiltration of neutrophils in T1–T2 versus T3–T4 oral squamous cell carcinomas: a preliminary study

Background Recent studies have pointed towards a role of tumour-infiltrating neutrophils in cancer biology. Investigations on oral squamous cell carcinoma have indicated a possible association with clinical characteristics. This study aimed to evaluate neutrophil infiltration and the neutrophil/lymphocyte ratio in the central areas and invasive front of oral squamous cell carcinomas at different T stages, and their association with clinicopathological features and patient outcome. Methods Clinical information was retrieved from the charts of patients who had undergone surgical treatment. Samples of the excised tumours were subjected to immunohistochemical analysis for CD66b and CD3. Semi-quantitative analysis was performed in the intratumoural region and in the invasive front. Appropriate statistical tests were used for evaluating the data, including Kaplan–Meier survival analysis and the log-rank test. A p value of less than 0.05 was considered significant. Results T3–T4 tumours presented higher CD66b infiltration in the intratumoural region and higher CD66b/CD3 ratios in the invasive front than T1–T2 lesions (p < 0.05). There was a strong inverse correlation between CD66b and CD3 in the invasive front of T3–T4 tumours (r = −0.712, p < 0.05). Comparisons of CD66b and the CD66b/CD3 ratio according to N status, tumour location, recurrence, inflammation grade, and histological grade did not reach statistical significance. Survival analysis also did not show any significant differences. Conclusions The present study showed different degrees of neutrophil infiltration between T1–T2 and T3–T4 oral cancers, with higher indexes in the advanced lesions. However, there was no association with clinicopathological features or with time to recurrence. Electronic supplementary material The online version of this article (doi:10.1186/s13104-015-1541-x) contains supplementary material, which is available to authorized users.


Background
Squamous cell carcinoma (SCC) is the most frequent cancer of the oral cavity, affecting mainly elderly men with a smoking habit. Despite therapeutic advances, the overall estimated 5-year survival is 56 % [1]. Currently, the TNM system is used as the prognostic indicator for SCC patients, but its performance is suboptimal in some cases [2].
Tumour-associated neutrophils (TANs) may be detected in the intratumour, peritumour, or tumoursurrounding regions, and some studies have reported a clinical relevance of neutrophil infiltration in diverse cancers [12][13][14][15][16][17]. In a recently published review on this topic, Donskov et al. [18] reported the prognostic value of a high neutrophil count and neutrophil/lymphocyte ratio (NLR).
In head and neck carcinoma, T4 tumours presented higher neutrophil infiltration than T1 and T2 types [19]. Patients staged as III and IV with low amounts of TANs had a better 5-year survival than those with high neutrophil infiltration [19].
Considering the relevant role of neutrophils within the tumoural environment and the emerging results on TANs and oral SCC, we aimed to evaluate the neutrophil infiltration and NLR in oral SCCs at different T stages. Taking into account the intratumoural heterogeneity, neutrophils and lymphocytes were evaluated in the central areas and invasive front of the tumours. Additionally, we explored the possible association of these indexes with tumour grade, clinical features, and patient outcome.

Samples
The study was approved by the Committee of Ethics in Research of the Universidade Federal de Minas Gerais (28773114.7.0000.5149). Patients attending the Head and Neck Surgery Ambulatory Department gave written consent for the use of their registered data and tumour specimens in research developed at the Universidade Federal de Minas Gerais.
The files of the Head and Neck Surgery Department of the Hospital das Clínicas of the Universidade Federal de Minas Gerais were reviewed. Cases of patients who had undergone surgical treatment for oral SCC were selected, and clinical information was retrieved from the charts. Collected data included age, sex, smoking habit, alcohol consumption, lesion location, surgical treatment, radiotherapy, N stage, and follow-up.
The tumour specimens of these patients were retrieved from the files of the Laboratory of Pathological Anatomy of the same hospital. Paraffin blocks containing the invasive front region were used for tumour grading and immunohistochemical analysis.

Histopathological grading of tumours
Slide samples stained with haematoxylin and eosin were independently reviewed by two oral pathologists (P.C.C. and M.C.F.A.), who graded the lesions according to the criteria established by Bryne et al. [23]. Discrepancies were resolved via discussion of the cases. At this point in the study, the pathologists were unaware of the T stage of the lesions.

Inflammation grading
The amount of inflammatory infiltrate present in each slide (irrespective of cell type or immunostaining) was graded according to Bryne et al. [23] criteria as absent, weak, moderate, or intense.

Immunohistochemistry
Tissues were subjected to immunohistochemical analysis for CD66b (1:600, clone GF10F5; BD Biosciences, EUA, code 555723) and CD3 (1:200, clone F7.2.38; Dako Cytomation, Denmark, code M7254). Sections were deparaffinised in xylol and hydrated in an ethanol solution. Antigen retrieval was performed with a TRIS-EDTA solution (pH 9.0) in a 96 °C water bath for 30 min. The hydrogen peroxide blocking, protein blocking, and detection steps were performed with ready-to-use solutions provided in the kit (Spring BioScience, SPB-999). The reaction was revealed with 3,3′-diaminobenzidine (Spring BioScience, code DAB-999), and haematoxylin was used for the counterstaining. Appropriate positive and negative controls were included.

Evaluation of immunohistochemistry
One observer (P.C.C.) evaluated all cases using an optical microscope (Zeiss Axiostar Ser. 48824). A semi-quantitative analysis was done, based on the reports by Lundqvist et al. [24] and Shinriki et al. [21]. CD66b + cells located inside blood vessels were not considered for quantification. Five high-power fields (400× magnification) were analysed separately in the invasive front and in the intratumoural region (Additional files 1, 2), and positivity was graded as 0 (no staining), 1 (1-25 % of positive cells), 2 (25-50 %), and 3 (>50 %). The mean value of the scores from the five fields was set as the CD66b and CD3 index of staining for each case. The CD66b/CD3 ratio was obtained by dividing the CD66b and CD3 indexes of each slide.

Statistical analysis
Statistical tests were performed using SPSS ® version 19.0 for Windows and GraphPad Prism ® version 6.0 for Windows.
Firstly, the Shapiro-Wilk normality test was applied. Comparisons of clinical and microscopic features between the T1-T2 and T3-T4 groups were performed with the Pearson χ 2 test.
The t test was used for comparisons of the CD66b and CD3 indexes between the T1-T2 and T3-T4 groups. The Spearman test was used to analyse the correlation between the CD66b and CD3 indexes.
Kruskal-Wallis and Mann-Whitney tests were used to compared the CD66b staining indexes and the CD66b/ CD3 ratio between cases grouped according to N status (positive vs. negative), tumour location (tongue vs. floor of the mouth), recurrence (yes vs. no), inflammation grade [from Bryne classification: grade 1 (intense), 2 (moderate), 3 (weak)], and histological grade (from Bryne classification: I, II, III).
For the survival analysis, recurrence was the event of interest. Thus, the Kaplan-Meier method was used to evaluate patients grouped according to T stage (T1-T2 vs. T3-T4), CD66b index, and CD66b/CD3 ratio (the latter 2 being classified into low vs. high, according to median values). The log-rank test was used for comparisons.
For all the tests described above, a p value of less than 0.05 was considered significant.
Furthermore, cases were grouped according to T stages for comparisons. The detailed clinical and histopathological data are presented in Table 1. One group comprised 13 patients (46.4 %) with T1 and T2 tumours, whereas the other group was composed of 15 patients with T3 and T4 tumours (53.6 %). Surgical treatment, adjuvant radiotherapy, and lymph node involvement differed between the 2 groups (p < 0.05, Pearson χ 2 test; Table 1). Patients with T1-T2 lesions were usually treated with tumour resection, unilateral neck dissection, and without adjuvant radiotherapy, whereas tumour resection, bilateral neck dissection, and radiotherapy were performed for T3-T4 lesions. Accordingly, lymph node involvement was rare in T1-T2 tumours, but not in T3-T4.
With regard to the immunostaining, CD66b + cells were detected in all but 1 case (Additional file 1), whereas CD3 + lymphocytes were invariably present (Additional file 2). The immunostaining results can be observed in Fig. 1.
Statistical comparisons of the immunostaining indexes showed that the T3-T4 tumours presented higher CD66b + indexes in the intratumoural region and higher CD66b/CD3 ratios in the invasive front than did the T1-T2 lesions (p < 0.05, t test; Table 2; Fig. 2). Additionally, there was a strong and an inverse correlation between the CD66b and CD3 infiltration indexes in the invasive front of the T3-T4 tumours (r = −0.712, p < 0.05, Spearman test; Fig. 2). Comparisons of the CD66b infiltration index and CD66b/CD3 ratio according to N status, tumour location, recurrence, inflammation grade, and histological grade did not reach statistical significance (p > 0.05, Kruskal-Wallis and Mann-Whitney tests).
The time to recurrence was evaluated in the survival analysis, where comparisons were performed as follows   Table 3; Fig. 3).

Discussion
In the present study, advanced oral SCCs presented a higher infiltration of TANs within the intratumoural region than did initial lesions. Similarly, Trellakis et al. [19] reported that advanced head and neck SCCs were infiltrated by neutrophils, and T4 lesions showed higher infiltration than T1-T3 tumours. Wang et al. [12] also identified intratumoural CD15 + neutrophils in tongue SCCs.
The presence of neutrophils within the intratumoural area may be related to their functions within cancer biology (Fig. 2) [25]. The cross-talk between neutrophils and cancer cells may be related to cancer cell motility [26], migratory activity [27], cytoskeletal changes [28], and tumour cell proliferation [28,29]. In turn, cancer cells may have feedback effects on neutrophils, increasing their migration and survival, or leading to a different activation status [19,25,26,28,30]. Further investigation on the molecules and pathways involved in the cross-talk between cancer cells and neutrophils may clarify the participation of TANs in oral SCC pathogenesis.
Recent studies have encompassed the role of myeloidderived suppressor cells (MDSCs) in cancer [31][32][33]. MDSCs comprise a heterogeneous cell population with immunosuppressor function, for which there is no specific marker (or even a defined and exclusive Fig. 2 The differential infiltration of neutrophils in T3-T4 oral squamous cell carcinomas in the intratumoural region and invasive front found in the present study may be related to their diverse functions within the tumoural microenvironment, interacting with cancer cells, lymphocytes, and the extracellular matrix (see the "Discussion" section for further information) panel of markers) [31][32][33]. One subset of MDSCs, the granulocytic MDSCs, shares overlapping features with neutrophils with regard to cell morphology (polymorphonuclear granulocytic cells), phenotype (both are CD15 and CD66b positive), and function (e.g. arginase-1 and myeloperoxidase production) [33]. Although the immunosuppressive activity is regarded as a hallmark of granulocytic MDSCs, neutrophils may also exert immunosuppressive activity if activated [31,33]. Therefore, distinguishing between neutrophils and granulocytic MDSCs may be broadly difficult [33]. Accordingly, some cells named "neutrophils" in the present study could reasonably represent MDSCs instead. In any case, as stated by Brandau et al. [33], tumour-associated neutrophils and granulocytic MDSCs guard close resemblances to each other and may 'represent similar functional states of cells originating from the same cell type' .
Tumours should be regarded as heterogeneous masses [34], and the invasive front is considered the most aggressive area [35]. In the present study, there was a higher NLR in the invasive front of T3-T4 tumours, and an inverse correlation between neutrophils and T lymphocytes was detected (Fig. 2). Likewise, Tsai et al. [22] showed a decrease in lymphocytes and an increase in neutrophil counts with the advancement of clinical stage of oral SCCs. Neutrophils may influence the recruitment and function of CD8 + and CD4 + T lymphocytes, both important cells in the cancer microenvironment. Besides this, T lymphocytes can modulate neutrophil function [28,[36][37][38][39][40][41]. Neutrophils can also contribute to matrix re-modelling and angiogenesis in the invasive front, favouring cancer spread [13,25,[42][43][44]. Interestingly, it has been shown that neutrophils can be recruited to niches of distant metastasis and may participate in the metastatic spread of cancer [45].
In the present study, we failed to find any association between neutrophils and clinicopathological features, including in the survival analysis. Previous studies reported associations with poor prognosis [12,20,21], poor tumour differentiation [21], higher clinical stages [12,22], lymph node metastasis, and recurrence [12]. However, these observations are not unanimous in the literature [12,20,21]. Concerning these discrepancies, some points merit a few comments. Firstly, certain studies employed tissue microarrays, in which a limited area of the lesion was evaluated. In the present study, however, we evaluated the tumour as a whole. Importantly, we report differences in results between distinct tumour areas. Secondly, as a preliminary study, the limited number of cases included herein may have interfered with the results and statistical analysis, and further investigations are encouraged. Thirdly, the non-standardisation of immunohistochemical evaluation methods continues to pose challenges when comparing study results. Although quantitative, semi-quantitative, and computer-based analyses are suitable, all of them clearly have advantages and limitations.

Conclusion
The present study showed different degrees of neutrophil infiltration between T1-T2 and T3-T4 oral SCCs, with higher indexes in the advanced lesions. There was

Fig. 3
Survival curves (Kaplan-Meier method) of patients classified according to a T stage, b CD66b index in the invasive front, c CD66b index in the intratumoural region, d CD66b/CD3 ratio in the invasive front, and e CD66b/CD3 ratio in the intratumoural region. There was no difference in time to recurrence between the groups for any comparison (p > 0.05, log-rank test)