参考文献/References:
[1] Steinman RM. The dendritic cell system and its role in
immunogenicity [J]. Annu Rev Immunol, 1991, 9(1): 271-
296.
[2] Lee S T, Seo Y, Bae JY, et al. Loss of pericytes in radiation
necrosis after glioblastoma treatments [J]. Mol Neurobiol,
2017, 54(8): 1-9.
[3] 张 琼,刘文娟,曹 霞. 小胶质细胞特性及其功能的研
究进展[J]. 医学研究生学报,2017,30(2):216-219.
[4] Perng P, Lim M. Immunosuppressive mechanisms of malig-
nant gliomas: parallels at non-CNS sites [J]. Front Oncol,
2015, 5: 153.
[5] Zhu C, Mustafa D, Zheng PP, et al. Activation of CECR1 in
M2-like TAMs promotes paracrine stimulation-mediated
glial tumor progression [J]. Neuro Oncol, 2017, 19(5): 648-
659.
[6] Otvos B, Silver D J, Mulkearns-Hubert EE, et al. Cancer
stem cell-secreted macrophage migration inhibitory factor
stimulates myeloid derived suppressor cell function and
facilitates glioblastoma immune evasion [J]. Stem Cells,
2016, 34(8): 2026-2039.
[7] Coniglio SJ, Eugenin E, Dobrenis K, et al. Microglial stimu-
lation of glioblastoma invasion involves epidermal growth
factor receptor (EGFR) and colony stimulating factor 1
receptor (CSF-1R) signaling [J]. Mol Med, 2012, 18(1):
519-527.
[8] Wesolowska A, Kwiatkowska A, Slomnicki L, et al. Microg-
liaderived TGF-beta as an important regulator of glioblas-
toma invasion--an inhibition of TGF-betadependent effects
by shRNA against human TGF-beta typeⅡreceptor [J].
Oncogene, 2008, 27: 918-30.
[9] Riabov V, Gudima A, Wang N, et al. Role of tumor asso-
ciated macrophages in tumor angiogenesis and lymphangio-
genesis [J]. Front Physiol, 2014, 5: 75.
[10] Wainwright DA, Dey M, Chang A, et al. Targeting tregs in
malignant brain cancer: overcoming IDO [J]. Front Immu-
nol, 2013, 4: 116.
[11] 徐春华,刘 越,肖利民,等. 不同级别脑胶质瘤病人手术
前后外周血T淋巴细胞免疫细胞水平变化及意义[J]. 重
庆医学,2016,45(2):180-182.
[12] Jacobs JF, Idema AJ, Bol KF, et al. Prognostic significance
and mechanism of Treg infiltration in human brain tumors
[J]. J Neuroimmunol, 2010, 225(1-2): 195.
[13] Chen W, Jin W, Hardegen N, et al. Conversion of peripheral
CD4+ CD25- naive T cells to CD4+ CD25+ regulatory T cells
by TGF-beta induction of transcription factor Foxp3 [J].
J Exp Med, 2003, 198(12): 1875.
[14] Thomas DA, Massague J. TGF-beta directly targets cytoto-
xic T cell functions during tumor evasion of immune sur-
veillance [J]. Cancer Cell, 2005, 8: 369-80.
[15] Xu S, Guo X, Gao X, et al. Macrophage migration inhibitory
factor enhances autophagy by regulating ROCK1 activity
and contributes to the escape of dendritic cell surveillance
in glioblastoma [J]. Int J Oncol, 2016, 49(5): 2105-2115.
[16] Grosso JF, Kelleher CC, Harris TJ, et al. LAG-3 regulates
CD8+ T cell accumulation and effector function in murine
self- and tumor-tolerance systems [J]. J Clin Invest, 2007,
117(11): 3383-3392.
[17] Sega EI, Leveson-Gower DB, Florek M, et al. Role of
lymphocyte activation gene-3 (Lag-3) in conventional and
regulatory T cell function in allogeneic transplantation [J].
PLoS One, 2014, 9: e86551.
[18] Gagliani N, Magnani CF, Huber S, et al. Coexpression of
CD49b and LAG-3 identifies human and mouse T regula-
tory type 1 cells [J]. Nat Med, 2013, 19(6): 739-746.
[19] 冯 佳,彭 敏,宋启斌. 放射治疗联合免疫疗法治疗恶
性肿瘤的相关机制与研究进展[J]. 现代肿瘤医学,2017,
25(3):474-478.
[20] Yeh S, Karne NK, Kerkar SP, et al. Ocular and systemic
autoimmunity after successful tumor-infiltrating lymphocyte
immunotherapy for recurrent, metastatic melanoma [J].
Ophthalmology, 2009, 116(5): 981.
[21] Nduom EK, Weller M, Heimberger AB. Immunosuppressive
mechanisms in glioblastoma [J]. Neuro Oncol, 2015, 17
Suppl 7(suppl 7): vii9.
[22] Postow MA, Callahan MK, Wolchok JD. Immune checkpoint
blockade in cancer therapy [J]. J Clin Oncol, 2015, 33(17):
1974-1982.
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