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中华乳腺病杂志(电子版)

中华乳腺病杂志(电子版) ›› 2012, Vol. 06 ›› Issue (06) : 613 -621. doi: 10.3877/cma. j. issn.1674-0807.2012.06.003

论著

Application of biomarkers in sentinel lymph node biopsy for the management of breast cancer
Qing Liu1, Wings Tjing Yung Loo1,2, Adrian Yun San Yip2, Louis Wing Cheong Chow1,2,(), Elizabeth Lam Yan Ng2, Mary Ngan Bing Cheung1   
  1. 1.UNIMED Medical Institute, Hong Kong
    2.Organization for Oncology and Translational Research, Hong Kong
  • 收稿日期:2012-09-14 出版日期:2012-12-01
  • 通信作者: Louis Wing Cheong Chow

Application of biomarkers in sentinel lymph node biopsy for the management of breast cancer

  • Received:2012-09-14 Published:2012-12-01
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Qing Liu, Wings Tjing Yung Loo, Adrian Yun San Yip, Louis Wing Cheong Chow, Elizabeth Lam Yan Ng, Mary Ngan Bing Cheung. Application of biomarkers in sentinel lymph node biopsy for the management of breast cancer[J/OL]. 中华乳腺病杂志(电子版), 2012, 06(06): 613-621.

Objective

Sentinel lymph node in breast cancer is a predictor of the tumor’s metastatic potential. Cytokines emerging from antitumor immune response might also target sentinel lymph node (SLN). In this study, we evaluated the cytokine profile including interleukin-8 (IL-8), interleukin-12 (IL-12), interferon-gamma (IFN-γ), and tumor necrosis factor alpha (TNF-α) for the T-cell response.

Methods

From January 2008 to August 2010,35 patients with breast mass underwent SLN biopsy in UNIMED Medical Institute. The specimens were formalin-fixed and paraffin-embedded for hematoxylin and eosin staining and immunohistochemistry with following markers: IL-8, IL-12, IFN-γ and TNF-α. The staining intensity was scored according to four grades: negative (-), weak expression (+), moderately positive expression (++), strong positive expression (+++). The correlation between the expression of cytokines and pathological characteristics were also analyzed using the Spearman Rank Correlation test.

Results

Out of 35 patients, SLN metastases were observed in 20 patients and among them, 75% (15/20) were strongly stained (+++) with IL-8 and moderately stained (++) with IL-12, but only 25% (5/20) were strongly stained (+++) with IFN-γ and TNF-α. The expression of IL-8 was significantly associated with all tumor grades (r=0.639, P=0.00), estrogen receptor (r=0.778, P=0.01), progesterone receptor (r=0.759 P=0.00) and HER-2/neu receptor (r=0.863 P=0.00).

Conclusion

The strong association between IL-8 expression and SLN metastases might highlight the prognostic significance of IL-8 in SLN.

关键词: sentinel lymph node, immunochemical staining, cytokines, biomarkers
Table 1 Clinicopathological characteristics of 35 patients
Characteristics Total number of patients [n(%)]
Menopausal status
Premenopausal 10 (29)
Postmenopausal 25 (71)
SLN status
Negative 15 (43)
Positive 20 (57)
Tumor size
≤2cm (T1) 18 (51)
2-5cm (T2) 15 (43)
>5cm (T3) 2 (6)
Histology
Ductal 33 (94)
Lobular 2 (6)
Grading
G1 6 (17)
G2 17 (49)
G3 12 (34)
ER status
Negative 17 (49)
Positive 18 (51)
PR status
Negative 17 (49)
Positive 18 (51)
HER-2/neu status
Negative 17 (49)
Positive 18 (51)
Table 2 Expression of IL-8, IL-12, IFN-γ, and TNF-α in all 35 patients’ SLN
Cytokines Staining intensity of metastatic lymph node (n=20) Staining intensity of non-metastatic lymph node (n=15)
- + ++ +++ - + ++ +++
IL-8 0 0 5(25%) 15(75%) 15(100%) 0 0 0
IL-12 3(15%) 1(5%) 5(25%) 11(55%) 7(46.7%) 2(13.3%) 4(26.7%) 2(13.3%)
IFN-γ 6(30%) 8(40%) 1(5%) 5(25%) 11(73.3%) 4(26.7%) 0 0
TNF-α 6(30%) 5(25%) 4(20%) 5(25%) 12(80.0%) 3(20.0%) 0 0
Table 3 Correlation between the expressions of IL-8 in sentinel lymph nodes and pathological characteristics of breast tumor
Characteristics IL-8(n) r value P value
- + ++ +++
Grade 0.639 0.00
G1 6 0 0 0
G2 7 1 1 8
G3 0 1 4 7
ER 0.778 0.00
Positive 1 1 5 13
Negative 12 1 0 2
PR 0.759 0.00
Positive 1 1 5 13
Negative 12 1 0 2
HER-2/neu 0.863 0.00
Positive 0 1 2 15
Negative 13 1 3 0
Table 4 Correlation between the expressions of IL-12 in sentinel lymph nodes and pathological characteristics of breast tumor
Characteristics IL-12(n) r value P value
- + ++ +++
Grade 0.187 0.28
G1 1 3 0 2
G2 6 1 4 6
G3 3 1 1 7
ER 0.441 0.01
Positive 4 0 5 11
Negative 6 5 0 4
PR 0.399 0.02
Positive 4 0 5 11
Negative 6 5 0 4
HER-2/neu 0.415 0.01
Positive 3 1 5 9
Negative 7 4 0 6
Table 5 Correlation between the expressions of IFN-γ in sentinel lymph nodes and pathological characteristics of breast tumor
Characteristics IFN-γ(n) r value P value
- + ++ +++
Grade 0.155 0.37
G1 2 4 0 0
G2 10 4 0 3
G3 4 5 1 2
ER 0.367 0.03
Positive 8 6 1 5
Negative 8 7 0 0
PR 0.283 0.10
Positive 8 6 1 5
Negative 8 7 0 0
HER-2/neu 0.326 0.06
Positive 6 7 1 1
Negative 10 6 0 4
Table 6 Correlation between the expressions of TNF-α in sentinel lymph nodes and pathological characteristics of breast tumor
Characteristics TNF-α(n) r value P value
- + ++ +++
Grade 0.286 0.10
G1 4 2 0 0
G2 8 5 2 2
G3 5 2 2 3
ER 0.393 0.02
Positive 7 4 4 5
Negative 10 5 0 0
PR 0.419 0.01
Positive 7 4 4 5
Negative 10 5 0 0
HER-2/neu 0.451 0.01
Positive 5 5 4 4
Negative 12 4 0 1
Figure 1 Example of sentinel lymph node biopsy with HE staining (a:×20; b:×10)
Figure 2 Example of IL-8(a) and TNF-α(b) of strong expression with immunohistochemistry staining
[1]
Kwong A, Mang OW, Wong CH, et al. Breast cancer in Hong Kong, Southern China: the first population-based analysis of epidemiological characteristics, stage-specific, cancer-specific, and disease-free survival in breast cancer patients:1997-2001[J]. Ann Surg Oncol,2011,18(11):3072-3078.
[2]
Tam CY, Martin LJ, Hislop G, et al. Risk factors for breast cancer in postmenopausal Caucasian and Chinese-Canadian women[J]. Breast Cancer Res,2010,12(1): R2.
[3]
Rakha EA, Reis-Filho JS, Baehner F, et al. Breast cancer prognostic classification in the molecular era: the role of histological grade[J]. Breast Cancer Res,2010,12(4):207.
[4]
Gould EA, Winship T, Philbin PH, et al. Observations on a “sentinel node” in cancer of the parotid[J]. Cancer,1960,13:77-78.
[5]
Gipponi M, Di Somma C, Peressini A, et al. Sentinel lymph node biopsy in patients with stage Ⅰ/Ⅱmelanoma: Clinical experience and literature review[J]. J Surg Oncol,2004,85(3):133-140.
[6]
Takeuchi H, Kitajima M, Kitagawa Y. Sentinel lymph node as a target of molecular diagnosis of lymphatic micrometastasis and local immunoresponse to malignant cells[J]. Cancer Sci,2008,99(3):441-450.
[7]
Kim R, Emi M, Tanabe K. Cancer immunoediting from immune surveillance to immune escape[J]. Immunology,2007,121(1):1-14.
[8]
Nicolini A, Carpi A, Rossi G. Cytokines in breast cancer[J]. Cytokine Growth Factor Rev,2006,17(5):325-337.
[9]
Rao VS, Dyer CE, Jameel JK, et al. Potential prognostic and therapeutic roles for cytokines in breast cancer (Review)[J]. Oncol Rep,2006,15(1):179-185.
[10]
Liegl B,Horn LC,Moinfar F. Androgen receptors are frequently expressed in mammary and extramammary Paget’s disease[J]. Mod Pathol,2005,18(10):1283-1288.
[11]
Cheang MC, Chia SK, Voduc D, et al. Ki67 index, HER2 status, and prognosis of patients with luminal B breast cancer[J]. J Natl Cancer Inst,2009,101(10):736-750.
[12]
Cote RJ, Peterson HF, Chaiwun B, et al. Role of immunohistochemical detection of lymph-node metastases in management of breast cancer. International Breast Cancer Study Group[J]. Lancet,1999,354(9182):896-900.
[13]
Turner RR, Ollila DW, Krasne DL, et al. Histopathologic validation of the sentinel lymph node hypothesis for breast carcinoma[J]. Ann Surg,1997,226(3):271-276.
[14]
Khanna R, Bhadani S, Khanna S, et al. Comparison of immunohistochemistry with conventional histopathology for evaluation of sentinel lymph node in breast cancer[J]. Indian J Surg,2011,73(2):107-110.
[15]
Matsuura K,Yamaguchi Y,Ueno H,et al. Maturation of dendritic cells and T-cell responses in sentinel lymph nodes from patients with breast carcinoma[J]. Cancer,2006,106(6):1227-1236.
[16]
Smyth MJ, Cretney E, Kershaw MH, et al. Cytokines in cancer immunity and immunotherapy[J]. Immunol Rev,2004,202:275-293.
[17]
Waugh DJ, Wilson C. The interleukin-8 pathway in cancer[J]. Clin Cancer Res,2008,14(21):6735-6741.
[18]
Xie K. Interleukin-8 and human cancer biology[J]. Cytokine Growth Factor Rev,2001,12(4):375-391.
[19]
Zhou S, Wang GP, Liu C, et al. Eukaryotic initiation factor 4E (eIF4E) and angiogenesis: prognostic markers for breast cancer[J]. BMC Cancer,2006,6:231.
[20]
Simeone AM, Nieves-Alicea R, McMurtry VC, et al. Cyclooxygenase-2 uses the protein kinase C/ interleukin-8/urokinase-type plasminogen activator pathway to increase the invasiveness of breast cancer cells[J]. Int J Oncol, 2007,30(4):785-792.
[21]
Vazquez-Martin A, Colomer R, Menendez JA. Protein array technology to detect HER2 (erbB-2)-induced ‘cytokine signature’ in breast cancer[J]. Eur J cancer,2007,43(7):1117-1124.
[22]
Yao C, Lin Y, Chua MS, et al. Interleukin-8 modulates growth and invasiveness of estrogen receptor-negative breast cancer cells[J]. Int J Cancer,2007,121(9):1949-1957.
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