Increased P-35 , EBI 3 Transcripts and Other Treg Markers in Peripheral Blood Mononuclear Cells of Breast Cancer Patients with Different clinical Stages

© 2015 The Authors. This is an Open Access article distributed under the terms of the Creative Commons Attribution (CC BY), which permits unrestricted use, distribution, and reproduction in any medium, as long as the original authors and source are cited. No permiss ion is required from the authors or the publishers. Adv Pharm Bull, 2015, 5(2), 261-267 doi: 10.15171/apb.2015.036 http://apb.tbzmed.ac.ir Advanced Pharmaceutical Bulletin


Introduction
Breast cancer is by far the most common cancer in women worldwide, ranking second when both sexes are considered.It is estimated that about 1.38 million of women around the world suffered from breast cancer in 2008, which accounts for nearly a quarter (23%) of all cancers in women. 1,2Iran with annually 8 per 100,000 affected women has the highest status of breast cancer incidence in the Middle East. 3 According to the most recent report from Iranian Ministry of Health and Medical Education in 2009, 525 new cases of all Iranian breast cancer (23.1%) have been founded in Khuzestan province.The role of healthy immune system in controlling the progress of malignant disease is well established.This means that immune suppression along with cancer is the major cause of cancer progression. 4Regulatory T cells (T reg cells) are a subset of CD4 + T cells that are necessary for monitoring auto inflammatory diseases.They also prevent the antitumor immune responses, but the in vivo mechanisms of prevention have not been well major classes of iT R cells have recently been described based on the cytokines that stimulate their production: TGF-β-iT R and IL-10-iT R cells.TGF-β-iT R cells are generated by T conv cells activation in the presence of TGB-β.These cells mainly secrete TGF-β and also express Forkhead/winged helix transcription factor (Foxp3).IL-10-iT R cells are produced by activation of T conv cells in the presence of IL-10.These cells do not express Foxp3 but are known by immense secretion of IL-10. 10,11nterleukin-35 (IL-35) as a novel inhibitory cytokine is a new member of IL-12 cytokine family (which contains IL-12, IL-23 and IL-27).IL-35 is a heterodimer cytokine which consist of EBI3 (Epstein-Barr virus-induced gene 3 protein) and IL-12A (IL-12 subunit p35). 8IL-35 is a T reg cell-specific cytokine that is essential for the maximum regulatory and suppressive function of T reg cells under both in vivo and in vitro conditions. 12IL-35 which is not expressed by effector or naive T cells, but considerably expressed in T reg cells induces proliferation and activation of Treg cells as well as reducing Th17 cells activity. 13Several studies have been performed on IL-35 effects on T reg CD4 + CD25 + Foxp3 + cells (isolated from spleen and lymph nodes of BALB/C mice) which demonstrate that induction of T reg CD4 + CD25 + Foxp3 + cell may be responsible for high level production of IL -10. 8Many other observations suggest that T reg cells have an important role in immune evasion mechanisms used by cancer. 14Various tumors abolish antitumor immunity through a variety of mechanisms such as differentiating, developing and activating T reg cells. 15Tumor T reg cells may facilitate local tumor growth, and also could be associated with systemic disease progression in peripheral blood or lymphoid organs. 15,16It is believed that Treg cells (also defined as CD4 + CD25 + Foxp3 + T cells) presence is inversely associated with the development of numerous human malignancies. 17Thus, T reg cells may be considered as the main barrier for cancer immunotherapy.Moreover detection of a welldefined population of T reg cells is crucial for a favorable cell-based immunotherapy.Due to the mentioned evidence and the importance of T reg cells cytokines in breast cancer, we have determined T reg cytokines and surface marker mRNA transcripts by applying quantitative real time PCR (qRT-PCR) to quantify mRNA transcripts in peripheral blood cells of women with different grades of breast cancer and normal healthy controls.

Subjects
Blood samples from 40 women with invasive ductal carcinoma of breast cancer were collected during 2010.The disease was histologically confirmed by the surgery department of Apadana and Emam Khomeini hospitals, Ahvaz, Iran.All the cases signed an informed consent of participation in the study.All breast cancer patients were newly diagnosed cases which did not receive chemotherapy, radiotherapy or immunotherapy before sampling.Hospital reports provided the required data of patients' histological grade, clinical stage and metastasis.Table 1 illustrates that all patients had been chosen according to clinical criteria.The majority of the patients belonged to the group with Low-grade, early stage (I, II) and no metastasis.Peripheral venous blood samples of 2mL each were collected in EDTA vials as an anticoagulant before any intervention.Blood samples from 40 healthy volunteer women without any history of malignancy or autoimmune disorders were also utilized as normal control.The mean age of patients and control group were 51years (range, 25-81) and 45 years (range, 23-68) respectively.

RNA Isolation and Reverse-Transcription Polymerase Chain Reaction
Total RNA was extracted from blood cells using RBC lysis and RNX-Plus reagent (Cinnagen, Iran) according to the manufacturer's instructions.The resulting pellet was resuspended in 100 µL of cold PBS, followed by adding l ml RNX plus reagent.Subsequently it was gently mixed until the solution was completely transparent.Adding 300 µL of chloroform, solution was centrifuged at 14,000 rpm and 4°C for 20 min.300 µL isopropanol and 700 µL ethanol were added in next step follow by centrifuging at 12,000 rpm for 30 min.Afterward supernatant was discarded, the pellet was dried completely, dissolved in 50 µl of DEPC treated water and located in 55-60 °C of water bath for 10 min.RNA quality was assessed by 1% agarose gel electrophoresis, and the optical density of the extracted RNA samples was estimated at 260 nm and 280 nm by spectrophotometer (eppendorf-Biophotometer-Germany).First-strand cDNA synthesis was performed from 5 µg of total RNA, using the RevertAid First Strand cDNA Synthesis Kit (Fermentase, Vilnius, Lithuania).expression.Each PCR reaction was performed in a final volume of 20 µL including 1 µg of the cDNA product, 1 µL (50 nm) of each primer and 2 × reaction mixtures containing Fast Start DNA polymerase, reaction buffer, dNTPs, and SYBR green I (Applied Biosystems).Table 2 shows forward and reverse primer sequences used for qRT-PCR reactions.The thermal cycling conditions of all genes comprised a temperature profile of 95°C for 10 min for denaturation step, followed by 40 cycles (including 95°C for 15 s and 60˚C for 60 min).The qRT-PCR amplification products were analyzed by melting curve analysis and 1% agarose gel electrophoresis.

Amplification Efficiency and Standard Curve Analysis
Real-time PCR reaction Efficiency for each target gene was estimated by the slope of the standard curve.Standard curves were designated by Ct values of cDNA serial dilutions.The efficiencies for GAPDH, Foxp3, IL10, TGF-β, EBI3 and P35 were 91%, 99%, 1.0, 99%, 96% and 97% respectively.The relative expression of gene transcripts were calculated by ∆Ct and 2 (-∆Ct) formulas.Finally, the ratios of target to reference gene were determined with the Pfaffl method. 18

Statistical Analysis
The expression levels of FOXP3, IL-10, TGF-β, EBI3 and P35 transcripts in peripheral blood were compared with the corresponding values of control samples with nonparametric Mann-Whitney test using SPSS software v. 11.5.Relative expression was also calculated and analyzed by Prism 6 software (Graphpad software Inc; 2236 Avenida de la Playa La Jolla, CA 92037 USA).The relationships between different values were examined using Pearson's correlation coefficient and Spearman's rank correlation tests.For all the statistical analysis, p values less than 0.05 was considered as statistically significant.

Foxp3 Gene Expression
The result of our study provided evidence that relative expression of Foxp3 gene transcript in different grades of breast cancer patients was not significantly different (p>0.80).However, its expression was about 12-fold higher than healthy individuals (p = 0.0013).Moreover, breast cancer patients of early-stage showed a significant increase in mean relative expression of Foxp3 (p=0.0019).There was also an increased expression of Foxp3 in non-metastatic patients (p = 0.0014) as well as the patients with a low-grade tumor burden (p = 0.0012) (Figure 1A).

IL-10 Gene Expression
Our findings implied that no significant differences was detected in relative expression of IL-10 among different groups of breast cancer patients (p = 0.40).Nevertheless the relative expression of IL-10 was about 20-fold higher in patients in comparison with healthy individuals (p=0.024)(Figure 1B).The expression level of IL-10 in early-stage, non-metastatic and low-grade patients were significantly increased compared to healthy individuals and p value was 0.0001, 0.0229 and 0.0271 respectively.

TGF-β Gene Expression
There was not any significant differences in relative expression of TGF-β gene transcript in different grades of breast cancer patients (p = 0.30).Yet, the relative expression of TGF-β in patients was significantly higher in relation to healthy volunteers (p = 0.0075) (Figure 1C).For patients with early stage of breast cancer, relative expression of TGF-β was about 15-fold higher when compared to control group (p = 0.0006).Similarly, TGF-β expression in patients with non-metastatic disease and the ones with low-grade tumors increased up to 10fold (p = 0.0081) and 12-fold (p = 0.0025) respectively when they compared to healthy control group.

EBI3 Gene Expression
Although the comparative statistical analysis of EBI3 gene transcript did not reveal any significant differences among different grades of breast cancer patients (p >0.50) it was significantly higher compared to normal cases (about 18-fold) (p = 0.0008).Still, Increased EBI3 expression was not found in any metastatic (p = 0.0019) or low-grade tumor burden patients (p = 0.0012) (Figure 1D).In addition, patients with the early-stage disease showed a significant increase in mean relative expression of EBI3 gene in relation to normal subjects (p = 0.0055).

P35 Gene Expression
We also observed no significant differences in relative expression of P35 in different grades of breast cancer patients (p >0.40) but the relative expression of P35 in all patients demonstrate 20-fold increase regarding control group (p = 0.0247).In other groups including earlystage, non-metastatic and low-grade patients high expression of P35 was noticeable as well (p = 0.0001, 0.0227, 0.0295) respectively (Figure 1E).

Discussion
According to several researches, immune system interaction and regulatory T cells tumor immunity status, and their cytokines and stimulatory molecules are very important in peripheral blood and tumor microenvironment.One of the essential points to understand the mechanism of T reg suppressive function is recognizing the T reg gene expression.Likewise improving treatment effects in immune disorder also requires identifying multiple gene expression transcripts assay.Consequently in current study we investigated expression of multiple genes of T reg cells in cancer patients and compared their expression with other features of clinical outcome before surgery.Realizing the mechanisms by which T reg cells exert their suppressive function is an essential step in elucidating their role in control of cancer progression and other immune system-mediated disorders.For this purpose, studying T reg genes expression, by using multiple genes transcripts assay, may be a useful tool to improve the effect of different treatments for immune-mediated disorders.It has been shown that Treg cells are generated in the periphery and exert their suppressor activity mainly by producing IL-10, IL-35, and TGF-β. 8,19The results of this study showed a significant up-regulation of IL-10, TGF-β, p-35, EBI3 and Foxp3 gene expression in peripheral blood of patients compared to normal healthy controls.These data suggest that the immune system is suppressed in breast cancer patients, which may due to an augmentation in T reg cells population.IL-10 has a complex role in tumor biology; therefore it may be an important growth factor for cancer cells. 20IL-10 has a major role in maintenance and increase of Tregs. 21L-10 induces regulatory T cells by involving several events in antigen presenting cells, such as reducing antigen presentation by trapping peptide-loaded major histocompatibility complex type II (MHCII) molecules, reducing the co-stimulatory molecules CD80/CD86 expression, and destabilizing cytokine mRNAs. 22On the other hand, it can also strengthen the innate immune mechanisms that destroy cancer cells. 23Wang and colleagues examined 63 lung cancer tissues in 2011.They purified tumors associated macrophages and found that there is a direct correlation between tumor progression and macrophages activity.Thus they concluded that mass production of IL10 by macrophages facilitates tumor progression and lymph node metastasis. 24Furthermore Merendino et al, reported a correlation between IL-10 expression levels and clinical stages of breast cancer, and suggested that Neoplasia-Metastatic Disease are associated with higher IL-10 levels compared with patients with non-metastatic diseases. 25In this study we found a significant increase in IL-10 transcripts even at early stages of breast cancer which discovered to be stage-dependent.Tumor cells and regulatory T cells produce high levels of TGF-β in cancer patients.Besides, patients may also have high levels of plasma TGF-β after surgery.Even cancer can stimulate the production of TGF-β.It has been reported that TGF-β can facilitates the conversion of T cells into Tregs.TGF-β can turn off its expression by binding to the inhibitory Smad7 promoter region which may result in cumulative Foxp3 expression. 26am and et al, have recently revealed that TGF-β stimulates T CD8 + cells to promote its penetration in the tumor environment and induce IL-17, IL17-IL17R expression which act as survival factors for tumor cells. 27GF-β inhibition in cancer therapy has been known so far because both radiation and chemotherapy are capable of inducing TGF-β activity.TGF-β signaling and crosstalk with other signaling networks can induce cancer cell survival and help them to become more aggressive.28 Thus, inhibition of TGF-β signaling could be an alternative therapy for cancer patients.29 Many investigations have recently shown that loss of TGF-β inhibitors and increased TGF-β gene expression are associated with the tumor aggressiveness and would promotes breast, colon, endometrial, ovarian, cervical, and melanoma tumor progression.However specific mutations in components of TGF-β signal transduction pathways only occur in breast cancer.30 In this study we found that TGF-β transcription has a significantly stagedependent increase even during early stages of breast cancer.IL35 as a new cytokine that is highly expressed in T reg cells, can induce the differentiation and proliferation of T reg cells.31 Besides, other investigations suggested that IL-35 is essential for repressive functions of T reg cells under in vitro and in vivo conditions.8 CD4 + CD25 + T cells are induced by IL-35, express Foxp3 marker and produce a large amount of IL-10 which is a specific features of T regs .13 Little investigation has been done on IL-35 so far, but a recent study conducted by Collison et  al. in 2010 proved that, when human and mouse T cells are in presence of IL-35, a population of T cells is induced by IL-35 which is defined as (iT reg 35).These findings suggest an inhibitory function of these cells which are mediated by IL-35.Moreover they act independently from IL-10 and TGF-β, and do not express Foxp3 marker. Coison and his colleagues also reported that, IL-35 induced T reg cells (iT reg 35) potentially impose repressive function in IBD and EAE animal models under both in vivo and in vitro conditions.In addition human IL-35 producing iT reg 35 can secret IL-35 which displays suppressive functions.32 Therefore it seems that IL-35; along with regulatory T cells confer suppressive function.In present study we observed significant increase of IL-35 expression in breast cancer patients.

Conclusion
Breast cancer with its heterogeneous nature and lacking well-established markers for prediction and prognosis is highly complicated disease.T regs are one of the major players in this scenario.The results demonstrate that Foxp3, IL-10, TGF-β and IL-35 genes expression is positively correlated with prognosis, recurrent metastatic and effective treatment response of the disease.Further studies are therefore required to more evidently confirm the role of Tregs markers in breast cancer.
The abundance of FOXP3, IL10, TGF-β, EBI3 and P35 gene transcripts were assessed by a triplicate determination of qRT-PCR (Applied Biosystems Step one™ and Step one Plus™ Real Time PCR systems).Expression levels of GAPDH as a housekeeping gene was measured as a reference level of target gene | 263 Increased regulatory T cell genes in Patients with Breast Cancer Advanced Pharmaceutical Bulletin, 2015, 5(2), 261-267

Figure 1A .
Figure 1A.Expression level of Foxp3 in peripheral blood cells of breast cancer patients and normal controls.Presented data were calculated with the 2 (-∆CT) and analyzed with the nonparametric two-tailed Mann-Whitney test.Horizontal bars indicate median values.

Figure 1B .
Figure 1B.Expression level of IL-10 in peripheral blood cells of breast cancer patients and normal controls.Presented data were calculated and analyzed as explained in Figure 1A.

Figure 1C .
Figure 1C.Expression level of TGF-β in peripheral blood cells of breast cancer patients and normal controls.Presented data were calculated and analyzed as explained in Figure 1A.

Figure 1D .
Figure 1D.Expression level of EBI3 in peripheral blood cells of breast cancer patients and normal controls.Presented data were calculated and analyzed as explained in Figure 1A.

Figure 1E .
Figure 1E.Expression level of P35 in peripheral blood cells of breast cancer patients and normal controls.Presented data were calculated and analyzed as explained in Figure1A.

Table 1 .
Distribution characteristics of patients with breast cancer according to different clinical criteria

Table 2 .
Forward and reverse primers of genes for real-time PCR amplification