Radiation Triggered Phenotypic Changes of Regulatory T Cells

Q4 Biochemistry, Genetics and Molecular Biology

American Journal of Biochemistry and Biotechnology Pub Date : 2022-01-01 DOI:10.3844/ajbbsp.2022.118.128

Lantao Liu, Yangfan Peng, Deqin Zhang, Dong-sheng Niu

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Abstract

Corresponding Author: Dongsheng Niu Department of Radiation Technology, Beijing Institute for Occupational Disease Prevention and Treatment, China Email: bzrp2021@163.com Abstract: Ionizing radiation disrupts the immune balance easily. Regulatory T (Treg) cells directly affect the immune balance after radiation exposure. Meanwhile, the present study is to investigate the survival ability and phenotypic changes of Treg cells induced by Co γ-rays in order to expand the understanding on how Treg cells modulated by radiation. Mice lymphocytes were isolated from thymus and spleen at 1, 4 and 10 days after 2 Gy Co γ-rays irradiation. The proliferation and phenotype of Treg cells were analyzed by flow cytometry. Helio Treg cells were calculated and ATP luminescence was measured by ELISA. CD39 from thymus and spleen was measured by flow cytometry. Moreover, miR-31 expression in the thymus and spleen post irradiation was determined by RT-PCR. The apoptosis rate of Treg cells was increased to 13.1% in thymus and 44.2% in the spleen after 2Gy irradiation. The proliferation of Treg cells in thymus decreased from 31.6 to 14.2% post irradiation (t = 3.56, 5.72, P<0.05). The percentage of Helio Treg cells increased and the mean florescence intensity of Helio in Treg cells increased from 5,677.7 to 6,529 in thymus and increased from 3,968.7 to 4,558.7 in spleen. The ratio of CD39 Treg in thymus was significantly increase from 43.2 to 83.8 after 10 days radiation (t = -18.29, P<0.05). ATP released by Treg cells was down-regulated after radiation (0.15 μmol/L, t = 31.98, p<0.05). Furthermore, miR-31 expression in CD4T cells significantly decreased after 2 Gy radiation in the thymus. This study indicating the relationship between radiation induced Treg cell apoptosis and phenotype changes in vivo and provided a theoretical basis for the prevention and treatment of radiation-induced immune imbalance. Our study offered a new idea for radiotherapy combined with immunotherapy by target-regulating CD39 and miR-31.

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辐射引发调节性T细胞表型变化

通讯作者:牛东生北京市职业病防治研究所放射技术研究室电子邮件:bzrp2021@163.com摘要:电离辐射容易破坏免疫平衡。调节性T (Treg)细胞直接影响辐射暴露后的免疫平衡。同时，研究Co γ射线诱导Treg细胞的存活能力和表型变化，以扩大对辐射对Treg细胞的调节作用的认识。在2 Gy Co γ射线照射后1、4和10天分别从小鼠胸腺和脾脏分离淋巴细胞。流式细胞术分析Treg细胞的增殖和表型。计算Helio Treg细胞数量，ELISA法检测ATP发光。用流式细胞术检测胸腺和脾脏的CD39。此外，RT-PCR检测辐照后胸腺和脾脏中miR-31的表达。2Gy照射后胸腺Treg细胞凋亡率为13.1%，脾脏Treg细胞凋亡率为44.2%。照射后胸腺Treg细胞的增殖率由31.6%下降至14.2% (t = 3.56, 5.72, P<0.05)。胸腺Helio Treg细胞比例增加，Helio Treg细胞平均荧光强度从5,677.7增加到6,529，脾脏Helio Treg细胞平均荧光强度从3,968.7增加到4,558.7。放疗10 d后胸腺CD39 Treg比值由43.2显著升高至83.8 (t = -18.29, P<0.05)。辐射后Treg细胞ATP释放量下调(0.15 μmol/L, t = 31.98, p<0.05)。此外，胸腺2 Gy辐射后，CD4T细胞中miR-31的表达显著降低。本研究揭示了辐射诱导Treg细胞凋亡与体内表型变化的关系，为辐射诱导免疫失衡的防治提供了理论依据。我们的研究为靶向调节CD39和miR-31进行放疗联合免疫治疗提供了新的思路。

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来源期刊

American Journal of Biochemistry and Biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： :: General biochemistry :: Patho-biochemistry :: Evolutionary biotechnology :: Structural biology :: Molecular and cellular biology :: Molecular medicine :: Cancer research :: Virology :: Immunology :: Plant molecular biology and biochemistry :: Experimental methodologies