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为了探讨肿瘤相关巨噬细胞(tumor associated macrophages,TAMs)在人子宫颈癌微环境内的分布与T细胞亚型和临床病理特征的相关性,本研究应用S-P免疫组化法检测TAMs在60例子宫颈癌组织、10例高级别鳞状上皮内病变组织及10例子宫颈组织的分布情况;间接免疫荧光双标法分析浸润的FOXP3~+Treg细胞数量、CD8~+T细胞数量及其粒酶B分泌情况。统计学分析TAMs数量与癌间质浸润的FOXP3~+Treg、CD8~+T数量和临床病理特征的相关性。结果显示TAMs在子宫颈癌微环境的数量均显著多于高级别鳞状上皮内病变和子宫颈组织(p<0.01,p<0.01),同时高级别鳞状上皮内病变组织阳性细胞数也明显多于子宫颈组织(p<0.01);TAMs数量与宫颈癌间质内浸润的FOXP3~+T细胞数量呈正相关性(p<0.05),且与淋巴结转移和癌栓相关(p<0.05,p<0.05),但与CD8~+T细胞浸润数量无明显相关性(p>0.05)。本实验发现TAMs在宫颈癌微环境内大量分布,且与肿瘤局部免疫抑制及淋巴结转移和癌栓有关。
Abstract:The objectives of this research were to investigate the distribution of tumor associated macrophages(TAMs) and its correlation with the number of infiltrating T lymphocytes as well as clinicopathological features in human cervical cancer. The distribution of TAMs was detected in 60 cases of cervical cancer, 10 cases of highgrade squamous intraepithelial lesion(HSIL) and 10 cases of cervical tissue using immunohistochemical staning. Tumor-infiltrating FOXP3~+T, CD8~+T lymphocytes and its levels of Granzyme B production were determined through immunofluorescent double-staining. Correlation between the number of TAMs and that of tumorinfiltrating FOXP3~+T, CD8~+T as well as clinicopathological features was analyzed. Immunohistochemical and immunofluorescent staining showed that TAMs were distributed densely in cervical cancer, the number of them was significantly higher than that in HSIL and cervical tissue(p<0.01, p<0.01), and positively correlated with that of FOXP3~+Treg(p<0.05) as well as lymphatic metastasis and cancer embolus(p<0.05, p<0.05), but had no relationship with CD8~+T. We found that TAMs were distributed densely and associated with local antitumor immune inhibition in cervical cancer, as well as lymphatic metastasis and cancer embolus.
Bedoya A.M.,Jaramillo R.,Baena A.,Casta觡o J.,Olaya N.,Zea A.H.,Herrero R.,and Sanchez G.I.,2012,Location and density of immune cells in precursor lesions and cervical cancer,Cancer Microenviron.,6(1):69-77
Colombo M.P.,and Mantovani A.,2005,Targeting myelomonocytic cells to revert inflammation-dependent cancer promotion,Cancer Res.,65(20):9113-9116
Colotta F.,Allavena P.,Sica A.,Garlanda C.,and Mantovani A.,2009,Cancer-related inflammation,the seventh hallmark of cancer:links to genetic instability,Carcinogenesis,30(7):1073-1081
Ding H.,Cai J.,Mao M.,Fang Y.,Huang Z.,Jia J.,Li T.,Xu L.,Wang J.,Zhou J.,Yang Q.,and Wang Z.,2014,Tumor-associated macrophages induce lymphangiogenesis in cervical cancer via interaction with tumor cells,APMIS,122(11):1059-1069
Giaccia A.,Siim B.G.,and Johnson R.S.,2003,HIF-1 as a target for drug development,Nat.Rev.Drug Discov.,2(10):803-811
Hammes L.S.,Tekmal R.R.,Naud P.,Edelweiss M.I.,Kirma N.,Valente P.T.,Syrj覿nen K.J.,and Cunha-Filho J.S.,2007,Macrophages,inflammation and risk of cervical intraepithelial neoplasia(CIN)progression-clinicopathological correlation,Gynecol.Oncol.,105(1):157-165
Hasita H.,Komohara Y.,Okabe H.,Masuda T.,Ohnishi K.,Lei X.F.,Beppu T.,Baba H.,and Takeya M.,2010,Significance of alternatively activated macrophages in patients with intrahepatic cholangiocarcinoma,Cancer Sci.,101(8):1913-1919
Ino Y.,Yamazaki-Itoh R.,Shimada K.,Iwasaki M.,Kosuge T.,Kanai Y.,and Hiraoka N.,2013,Immune cell infiltration as an indicator of the immune microenvironment of pancreatic cancer,108(4):914-923
Jayshree R.S.,Sreenivas A.,Tessy M.,and Krishna S.,2009,Cell intrinsic&extrinsic factors in cervical carcinogenesis,Indian J.Med.Res.,130(3):286-295
Jordanova E.S.,Gorter A.,Ayachi O.,Prins F.,Durrant L.G.,Kenter G.G.,van der Burg S.H.,and Fleuren G.J.,2008,Human leukocyte antigen classⅠ,MHC classⅠchain-related molecule A,and CD8+/regulatory T-cell ratio:which variable determines survival of cervical cancer patients,Clin.Cancer Res.,14(7):2028-2035
Lazennec G.,and Richmond A.,2010,Chemokines and chemokine receptors:new insights into cancer-related inflammation,Trends Mol.Med.,16(3):133-144
Mantovani A.,2009,Cancer:inflaming metastasis,Nature,457(7225):36-37
Mantovani A.,Allavena P.,and Sozzani S.,2004,Chemokines in the recruitment and shaping of the leukocyte infiltrate of tumors,Semin.Cancer Biol.,14(3):155-160
Mhawech-Fauceglia P.,Wang D.,Ali L.,Lele S.,Huba M.A.,Liu S.,and Odunsi K.,2013,Intraepithelial T cells and tumor-associated macrophages in ovarian cancer patients,Cancer Immun.,13:1
Schoppmann S.F.,Bimer P.,Stockl J.,Kalt R.,Ullrich R.,Caucig C.,Kriehuber E.,Nagy K.,Alitalo K.,and Kerjaschki D.,2002,Tumor-associated macrophages express lymphatic endothelial growth factors and are related to peritumoral lymphoangiogenesis,Am.J.Pathol.,161(3):947-956
Shi J.F.,Canfell K.,Lew J.B.,and Qiao Y.L.,2012,The burden of cervical cancer in China:synthesis of the evidence,Int.J.Cancer,130(3):641-652
Strauss L.,Bergmann C.,Szczepanski M.,Gooding W.,Johnson J.T.,and Whiteside T.L.,2007,A unique subset of CD4+CD25 high Foxp3+T cells secreting interleukin-10 and transforming growth factor-beta1 mediates suppression in the tumor microenvironment,Clin.Cancer Res.,13(15 Pt 1):4345-4354
基本信息:
DOI:10.13417/j.gab.035.003235
中图分类号:R737.33
引用信息:
[1]沈依帆,徐曼,王欣,等.人子宫颈癌肿瘤相关巨噬细胞浸润与T细胞亚型及临床病理特征的相关性分析[J].基因组学与应用生物学,2016,35(12):3235-3240.DOI:10.13417/j.gab.035.003235.
基金信息:
重庆市自然科学基金(CSTC2009BB5268)项目资助
2016-11-16
2016-11-16
2016-11-16