New pre-treatment eosinophil-related ratios as prognostic biomarkers for survival outcomes in endometrial cancer

Systemic inflammation has long been related with adverse survival outcomes in cancer patients, and its biomarkers, such as the Neutrophil-to-Lymphocyte Ratio (NLR), are recognized as poor prognostic indicators. However, the role of eosinophils in this field has been largely overlooked. Here, we describe two new pre-treatment biomarkers, expressed as Eosinophil-to-Lymphocytes Ratio (ELR) and Eosinophil*Neutrophil-to-Lymphocytes ratio (ENLR), and we analyse their impact on prognosis of endometrial cancer (EC) patients. A total of 163 consecutive patients diagnosed with EC and treated with postoperative radiotherapy +/− chemotherapy in our institution from January 2011 to December 2015 were evaluated. The cohort was divided in two groups applying the cut-off value of 0.1 and 0.5 according to ROC curve for pre-treatment ELR and ENLR, respectively. After patients’ stratification according to the ESMO-ESGO-ESTRO modified risk assessment, subgroup analyses were conducted. Higher values of ELR and ENLR were associated with worse OS (p = 0.004 and p = 0.010, respectively). On univariate analysis, the factors associated with shorter OS were ELR ≥ 0.1 (HR = 2.9, p = 0.017), ENLR ≥ 0.5 (HR = 3.0, p = 0.015), advanced FIGO stage (HR = 3.4, p = 0.007), endometrioid histology (HR = 0.26, p = 0.003) and ESMO-ESGO-ESTRO high-risk (HR = 10.2, p = 0.023). On multivariate Cox regression, higher ELR and ENLR were independently associated with a worse outcome adjusted for the standardly applied prognostic factors. Increased values of ELR and ENLR portend worse OS in EC, especially in patients classified by the ESMO-ESGO-ESTRO guidelines as a high-risk group. To our best knowledge, this is the first report describing eosinophils-related ratios as prognostic biomarkers in malignant tumours.


Background
Endometrial cancer (EC) is the 5th most common form of female cancer in the USA, with 61,380 new cases diagnosed in 2017, and responsible for 10,920 deaths over the same year [1]. According to the FIGO 2009 classification, 80% of EC are diagnosed in stages I-II, with 5-year survival rates of 89.6% in stage I, decreasing to 78.3% in stage II, 61.9% in stage III, and 21.1% in stage IV [2]. Although EC diagnosed in early stages is potentially curative with surgery followed by adjuvant radiotherapy +/− chemotherapy, about 15% of these patients present an increased risk of cancer progression [3]. This risk is assessed by the ESMO-ESGO-ESTRO risk stratification, based on tumour characteristics [4,5].
However, the impact of other factors, such as systemic inflammation, is gaining importance as an indicator of poor prognostic in cancer patients [6,7]. The interest of this host-dependent response, expressed through prognostic ratios composed of circulating white blood cells, lies mainly on circulating neutrophils, which have been studied as neutrophil-to-lymphocytes ratio (NLR) [8,9]. Nonetheless, the role of other subpopulations of leukocytes, such as eosinophils, has been largely overlooked in tumour progression [10]. Although some reports dating from the 1950s already suggested the role of circulating eosinophils as a biomarker of tumour persistence or recurrence after radiotherapy, recent studies confirm that eosinophils act as an important modulator and effector of both innate and adaptive immune response [11][12][13][14][15]. Eosinophils link two different mechanisms of host defence: against allergens and against malignancies, as they secret cytokines, which guide CD8 (+) T cells and enhance their infiltration into the tumour, and induce the barrier permeability [16][17][18][19]. Recently, a high level of blood eosinophils was associated with better survival in metastatic melanoma [20].
Nonetheless, their role in cancer progression remains controversial as they may be considered as tumour-associated tissue eosinophilia (TATE) or as tumour-associated blood eosinophilia (TABE) [16,21,22]. Classically, TATE is more often reported in the literature and generally considered as a favourable prognosticator, while TABE is usually described as a consequence of tumour necrosis in advanced disease, hence related to poorer outcomes [23,24]. Some authors suggest that the release of damage-associated molecular patterns (DAMPs) during tumour necrosis causes immunosuppression in tumour microenvironment and recruits diverse inflammatory cells, including circulating eosinophils, which limit the biologic activity of DAMPs [25,26]. This mechanism may clarify why TATE has been long associated with an improved prognosis and may be the reason for the inverse association between atopic disease and the risk of cancer [27,28].
The aim of the present study was to explore the impact of the level of pre-treatment circulating eosinophils and lymphocytes, expressed as ratios, on survival outcomes in EC patients.

Methods
After the Institutional Review Board approval, a review of our department's database of patients with EC treated at our institution with external beam radiotherapy (EBRT) and/or High Dose Rate Brachytherapy (HDR-BT) in a period of five years was conducted. All patients included signed the informed consent for treatment and data processing.

Patients' characteristics
The data of 163 patients diagnosed with histologically confirmed EC and treated with postoperative radiotherapy at our centre from January 2011 to December 2015 were retrospectively reviewed. All patients underwent hysterectomy as a first treatment, with laparoscopic pelvic paraaortic lymphadenectomy in 107 cases (81.7%), and had pre-treatment blood test results done within 3 months before surgery. Patients diagnosed with acute or chronic infections, including human immunodeficiency virus (HIV), any type of immunodeficiency, other active malignancies, haematological disorders, steroid or anti-inflammatory treatment for any reason, were excluded. The median age at diagnosis was 65 years (y), mean 64.79, range 41-90. The most frequent histology was endometrioid carcinoma (73.3%). The disease stage was classified as non-advanced (stage I-II) in 98 patients (74.8%).

Follow-up results
The follow up (FU) was performed, as suggested by ESMO guidelines, every 3-4 months for the first 2 years, and then every 6 months for the next 3 years.

Systemic inflammation biomarkers
The level of eosinophils in pre-treatment blood tests was analysed. We created two groups using a 0.1 cut-off according to the best receiver operating characteristics (ROC) curve value: patients with absolute eosinophil count (AEC) ≥ 0.1 (n = 112) vs. AEC < 0.1 (n = 19), and we evaluated the influence of high AEC on patients' survival outcomes.
Afterwards, we described two new systemic inflammatory biomarkers, expressed as follows: Eosinophilto-Lymphocytes Ratio (ELR) and Eosinophil*Neutrophil-to-Lymphocytes Ratio (ELR multiplied by the absolute neutrophil count, ENLR), and we analysed their impact on overall survival (OS) and progression free survival (PFS). Additionally, we evaluated the same ratios based on posttreatment blood tests.

Statistical analysis
All statistical tests were two-sided and statistical significance was defined as p < 0.05. Summarized data are presented as numbers and percentages unless otherwise stated.
The primary endpoint was OS and the secondary endpoint was PFS. Predefined subgroup analysis was conducted based on the ESMO-ESGO-ESTRO risk stratification, which subsequently was converted into a binary variable by creating a low (groups 1-3) and a high-risk cohort (groups [4][5]. Afterwards, the study population was subdivided into two groups, based on the cut-offs for ELR and ENLR, separately. Both ELR and ENLR were defined as binary variables by finding the cut-off value from a ROC curve. The binary variables' balance across prognostic characteristics was assessed using Chi-square test (X2 test). Frequencies were compared using Fisher's exact test for categorical variables. Kaplan Meier's curves were displayed to evaluate the prognostic value of ELR and ENLR for OS and PFS. Survival outcomes were calculated from the date of surgery to the event occurrence, which is progression or cancer-related death in the case of PFS, or any death in the case of OS. If no event occurred, patients were censored at the time they were last known to be event free.

Results
Survival outcomes of the entire cohort All survival outcomes were expressed in months. After a median follow-up of 54.8 (range 24.6-58.4), progression was observed in 36 patients (22.1%). There was no exclusive local recurrence and only one patient developed exclusive regional recurrence (progression in pelvic node). Both local and regional recurrence, were observed in 10.7% of patients (n = 14), while 17.6% (n = 23) presented distant metastasis. Median PFS for the entire cohort was of 23.1 (range 0.2-62.2). At the moment of data collection, 21 deaths were reported (12.33%), 20 of them were related to cancer (12.27%). All details concerning the survival outcomes according to the ESMO-ESGO-ESTRO risk groups are included in Table 2.

ELR
The mean value of ELR was 0.08 (SD 0.065, range 0.0-0.31, median 0.063). Using the cut-off of 0.1 according to the ROC with the Area Under Curve (AUC) of 0.61, we divided the entire cohort into two groups: ELR ≥ 0.1 (n = 46) and ELR < 0.1 (n = 117). Patients' characteristics of the two comparative groups are included in Table 1.
Regarding the data of the entire cohort, PFS of patients according to ELR level was not significantly different (LR p = 0.095, BR p = 0.08). However, the number of events was higher in patients with ELR ≥ 0.1 (14 events vs. 22 events, which meant 30.4% vs. 18.8% patients with progression, respectively).

Subgroups according to ESMO-ESGO-ESTRO modified risk assessment
According to the ESMO-ESGO-ESTRO risk classification, all patients were allocated to six different risk groups (Table 1). Thus, we divided the entire cohort into two groups: low-risk (groups 1-3) and high-risk cohort (groups 4-6).

Absolute eosinophil count (AEC)
Pre-treatment blood eosinophilia, defined as an absolute eosinophils count ≥ 0.65 × 10 9 /L, was detected in our cohort only in 6 patients (4.6%), all of them alive and with no evidence of disease progression at the moment of data collection. The mean value of AEC was 0.1 (SD 0.13, range 0-0.8, median 0.152). There were no statistical differences in OS (55.6 months vs. 61.35 months, p = 0.154, X2 = 2.04) nor PFS (p = 0.772, X2 = 0.08) between the group with AEC ≥ 0.1 and the one with AEC < 0.1.

Leucocytosis, neutrophilia and NLR
Patients that presented a high level of circulating WBC (leukocytes > 11,000 × 10 9 /L or neutrophils > 7000 × 10 9 /L) or NLR ≥ 2.4 (cut-off according to ROC curve, AUC 0.516) at cancer diagnosis did not show statistical difference in OS compared to patients with lower levels (p = 0.51, p = 0.23 and p = 0.63, respectively).

Discussion
Systemic inflammation is a recognised feature of cancer progression, and inflammatory biomarkers are a key subject of research on anti-tumour response. However, the role of eosinophils in this field has long been ignored. Even though tumour-associated blood eosinophilia is described in a wide range of tumours [11,12,27], and is easily diagnosed, this finding is not so frequent in clinical practice, and only accounts for 1-7% of all eosinophilia's diagnoses [21,29]. In accordance with these reports, we concluded that eosinophilia at cancer diagnosis was really infrequent in our cohort and had no impact on survival outcome. We hypothesise that it is not eosinophils alone, but the ratios between circulating eosinophils and lymphocytes, that may reflect the host's immunosuppression status at cancer diagnosis, and may help to achieve a more precise risk stratification of patients diagnosed with EC.
Here, we describe new eosinophil-based prognostic ratios, expressed as a relationship between different subtypes of WBC. To our best knowledge, we are the first to propose these ratios as prognostic biomarkers in malignant tumours and to apply inflammatory biomarkers as a tool to refine the ESMO-ESGO-ESTRO risk stratification in EC.
We focused our study on EC because, in spite of its generally favourable prognosis, recent studies claim that the survival outcomes depend on factors beyond the classically established risk indicators [30]. Moreover, the scientific evidence of the inflammatory biomarkers in EC is significantly lower than in other malignancies [7][8][9].
Our study is based on a uniformly treated cohort that includes patients of all FIGO stages if they underwent hysterectomy as a first treatment. According to the ESMO guidelines, a complete macroscopic cytoreduction is recommended even for advanced disease, while systematic pelvic lymphadenectomy should not be performed routinely, hence lymphadenectomy was performed only in 80% of patients in our study [4]. Most patients with EC usually present a low recurrence risk, but in our study 55.8% of patients (n = 91) belonged to the high-risk group, which may be explained by the reference status of our institution, where patients with high-risk factors are usually addressed. Although distant relapses often account for only one-third of recurrences in the literature, they were observed in 63.9% of all relapses in our cohort [4,30]. As most EC relapses occur within 3 years after the primary treatment, we considered that our median FU of 55.9 months (range 52.4-59.4) was long enough [4].
Due to the correlation between ELR and ENLR, two multivariate analysis models were evaluated: one for ELR ≥ 0.1 (p = 0.001, HR = 4.9, IC 95%, 1.9-12.4) and one for ENLR ≥ 0.5 (p = 0.003, HR = 3.9, IC 95%, 1.6-9.8). Holding the other covariates constant, higher values of ELR and ENLR were strongly associated with an increased risk of death and were independent indicators of poorer overall survival. Contrarily, ratios based on post-treatment blood tests had no impact on patients' prognosis.
Similarly, pre-treatment ELR and ENLR showed an impact on OS and PFS in the high-risk group, but not in the low-risk group (p = 0.21 and p = 0.18, respectively), in which a limited number of events was observed.
On univariate analysis of the entire cohort, the variable age ≥ 65y only trended toward significance (p = 0.055) but was maintained in multivariate analysis as a clinically important factor, and was significantly associated with worse OS in ENLR Cox model. In the high-risk patients (groups 4-6), age ≥ 65y was an indicator of poor survival (p = 0.014 in univariate analysis) and was proven to be an independent prognostic factor in both Cox regression models [ Table 4]. By contrast, FIGO advanced stage and endometrioid histology were not significant prognosticators in the univariate analysis of high-risk patients.
ENLR was described in order to demonstrate the importance of the relation between eosinophils and lymphocytes. Subsequently, we observed that the impact on OS was constant and not influenced by the neutrophil count. As both eosinophil-based ratios have proved to be independent prognostic factors for OS, while NLR has not, we concluded that the relation between eosinophils and lymphocytes was not affected by the presence of neutrophils, which may be interpreted as a superiority of eosinophil-based ratios over NLR and Platelet-to-Lymphocytes Ratio (PLR) (Additional file 8: Figure S8). Our study presents some limitations, being a retrospective single institution cohort with a relatively small number of patients, which may produce potential confounding biases. However, almost all studies that deal with systemic inflammation biomarkers are of retrospective nature [7-9, 29, 30]. Confirming the cut-off points for ELR and ENLR in a larger cohort, preferably in a multicentre study, would be important for any future investigation.
In our opinion, the most important potential bias in the application of the biomarkers of systemic inflammation in clinical practice is the short life span of the WBC in systemic circulation. Consequently, it is difficult to completely rule out a potential influence of some temporary acute immunological changes, such as asymptomatic infections, on the systemic inflammatory response.
We are convinced that our investigation may contribute to a new stratification of EC and to further immunotherapy research that aim at the eosinophilic-mediate anti-tumour response.