Background
Previous studies have demonstrated that preoperative radiotherapy (RT) can produce down-staging in advanced rectal cancer (RC), resulting in longer survival, a reduced rate of postoperative local recurrence, and a higher rate of sphincter-preserving surgery. Recently, addition of chemotherapy to RT (CRT) has achieved even more favorable results [
1‐
3], and preoperative RT in the neoadjuvant setting is thus currently recognized as the standard treatment for locally advanced RC. However, in unresponsive cases, RT may have disadvantages such as delaying surgery or immune suppression. Therefore, appropriate selection of patients for preoperative RT is clinically important for improving the outcomes of those with advanced RC.
Previous studies have suggested clinical factors such as the circumferential extent of the tumor, carcinoembryonic antigen (CEA) level, distance from the anal verge [
4], temporal pattern of fatigue during CRT [
5] and treatment interval between radiation and surgical resection [
6] to correlate significantly with clinical response. More recently, radiologic findings such as the maximum standardized uptake value (SUV) for 2-deoxy-2[18F]fluoro-D-glucose (18-FDG)[
7] and tumor detection by the microcirculation with dynamic T(1) mapping method using magnetic resonance imaging [
8] have been suggested to be useful for response prediction. Biological studies have also indicated the expression levels or patterns of Epidermal Growth Factor Receptor (EGFR) [
9,
10], Ki-67 [
11,
12], p21[
10], bcl-2/bax [
10,
11], Vascular Endothelial Growth Factor (VEGF) [
12] and thymidine synthetase [
10,
11] in biopsy specimens to be useful molecular markers. However, controversy persists regarding the results of these prior studies and the data await verification in larger patient populations. Furthermore, treatment outcomes remain difficult to predict due to the lack of appropriate markers predicting clinical responses to CRT.
It was recently suggested that radiosensitivity depends not only on the biological characteristics of tumor cells but also on the tumor microenvironment [
13,
14]. Since blood cell counts in peripheral blood are considered to reflect environmental host factors in rectal tumor patients, we have endeavored to determine whether the values prior to radiation may serve as new parameters predicting tumor responses to CRT. We also examined the laboratory data during RT and post-RT period before surgery, which may reflect systemic responses against tumor cells damaged by irradiation.
Methods
Patients and samples
One hundred and eighty-six (186) patients with rectal adenocarcinoma newly diagnosed received RT between 1997 and 2009 in the Department of Surgical Oncology, Tokyo University Hospital. Among these patients, all pre-RT blood cell counts as well as other clinical and pathological parameters were available in 179 cases, all of whom were included in this study. The 75 patients managed after November 2004 received 5-FU based concurrent chemotherapy (CRT) and the other 104 received RT alone. All values were obtained from patient records. Pre-RT blood data were obtained using samples collected 0-53 days before the start of RT.
Among the 179 patients, 176 underwent total mesorectal excision in the Department of Surgical Oncology. In 12 of the 165 patients, no tumor cells were detected at either the primary site or in regional lymph nodes on pathological examination, confirming pathological complete response (pCR). Three other patients showed a clinical CR (cCR) after CRT, with no detectable cancer cells on multiple biopsy specimens, and were thus followed without surgery. These three patients showed no evidence of recurrence for more than 12 months after completion of RT, and were thus included in the CR group. Informed consent was taken from the patients included in this study and this study was conducted with the approval of the Ethics Committee of the University of Tokyo Hospital.
Statistical Analysis
The associations of CR with blood cell counts and various other clinical parameters were examined using Wilcoxon's test and the chi-squared test, respectively. Multivariate stepwise logistic regression analysis was performed to determine the independence of all variables identified as possibly significant. All analyses were performed with JMP8.0 software, and p-values less than 0.05 were considered to be statistically significant.
Discussion
Neoadjuvant radiotherapy (RT) is considered the standard treatment for advanced RC. However, factors predicting the efficacy of neoadjuvant RT, which would be essential for the optimal management of patients with RC, have yet to be fully elucidated. Multiple mechanisms are speculated to contribute to RT-induced antitumor effects[
15‐
17]. In particular, recent studies have suggested that radiosensitivity depends not only on the biological characteristics of tumor cells but also on the tumor microenvironment [
13,
14]. We, therefore, hypothesized that blood cell counts, which presumably reflect host conditions, may critically affect responsiveness to RT. In fact, our results show clearly that circulating lymphocyte numbers or ratios both before and during RT correlate with the CR rate.
Since the first report in 1979 [
18], it has been proposed that tumor shrinkage is not simply dependent on direct damage to irradiated tumor cells, also being greatly affected by the host immune response [
19]. In fact, in vivo studies have suggested that cancer cells, dead or dying due to RT and/or chemotherapy, can present tumor-associated antigens to host immune cells and thereby evoke anti-tumor immune responses [
20,
21]. Moreover, accumulating clinical data suggest the presence of radiation-induced anti-tumor immunity in humans [
22,
23]. Since lymphocytes, especially T cells, play a central role in anti-tumor immunity, our observation that the percentage of lymphocytes showed a strong association with CR is in accordance with earlier results. In fact, Molling et al demonstrated levels of circulating invariant natural killer T (iNKT) cells to predict the clinical outcomes of patients with head and neck squamous cell carcinoma [
24]. It is thus reasonable to speculate that the lymphocyte-mediated immune response against damaged tumor cells is critically important for achieving CR after RT in patients with RC.
In our series, circulating lymphocyte counts decreased drastically after RT, although the reduction was not as pronounced as those in other leukocyte subsets. Peripheral lymphopenia, especially reduced T lymphocytes, after RT was first described in the 1970's [
25,
26], but the clinical significance of these drops in cell counts has not been well studied. Our extensive search of the literature yielded no previous reports mentioning a significant correlation between circulating lymphocyte counts and RT response, although the degree of recovery of lymphocyte counts after RT reportedly correlates with tumor recurrence in bladder cancer [
27]as well as head and neck squamous cell carcinoma [
28]. Other reports have suggested that the number of circulating CD4 T lymphocytes is important for the suppression of tumor recurrence [
29,
30]. These observations allow us to speculate that the radiation-induced depression of lymphocyte counts may provide an opportunity for re-growth via proliferation of tumor cells which survived the irradiation damage, thereby reducing the likelihood of CR after RT. We anticipate that further phenotypic and functional analyses of the characteristics of circulating lymphocyte subpopulations would clarify the mechanisms underlying the responsiveness of tumors to RT.
In contrast to lymphocyte, the neutrophil counts showed inverse correlation with tumor response. Increase of neutrophils counts usually reflects the acute inflammatory response against bacterial infection. In our series, other inflammation markers, such as platelet count, C reactive protein (CRP) and fibrinogen level in serum also showed similar association, although not statistically significant. Previous studies have shown that neutrophils can suppress the T cell response through the production of reactive oxygen species (ROS), nitric oxide (NO) and arginase [
31,
32]. This may suggest that the presence of acute inflammatory response during CRT causes the suppression of lymphocyte-mediated immunity through the increased circulating neutrophils and thus elicits the unfavorable effects for tumor response.
Circulating lymphocytes number are very prone to affected by various factors such as age, nutrition and chronic stresses. This, in another way, suggest that this value well reflect the total condition of the host to fight with cancer and can be a good marker to tumor response to RT. At least, the lymphocyte ratio of before RT is not largely affected by the timing of blood sampling and thus can be a good prognostic marker. Although the results obtained from this retrospective analysis has a limitation, the significant association between the circulating lymphocyte number and CR rate raises the hypothesis that total eradication of tumor cells after CRT is partially dependent on host immune reaction. Recently, Wichmann et al demonstrated circulating lymphocytes, especially CD4(+) T cells, in patients who received preoperative CTR to be severely decreased in peripheral blood on postoperative days 1 and 2, which may be associated with severe immune dysfunction that actually promotes tumor growth [
33]. Lymphocyte-mediated immune reactions are supposed to have positive roles on clinical efficacy of neoadjuvant RT or CRT in the treatment of the patients with advanced RC.
Acknowledgements
This study was funded by the Ministry of Education, Culture, Sports, Science and Technology of Japan, and the Ministry of Health, Labor and Welfare of Japan.
Competing interests
The authors declare that they have no competing interests.
Authors' contributions
JK and KY carried out the all the step of this study. KK and ES participated in the study design and carried out the data analysis including statistics. HN supervised the study. All authors read and approved the final manuscript