UCP2 Deficiency Renders Th1/2 Pathogenic Phenotype to CD4+ T cells

The Journal of Immunology Pub Date : 2023-05-01 DOI:10.4049/jimmunol.210.supp.64.11

Seungho Choi, S. Mehrotra

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Abstract

Uncoupling protein 2 (UCP2) is an anion transporter in the mitochondrial matrix that controls ROS production, calcium influx, and C4 metabolites. It is regarded as a metabolic regulator. A lack of UCP2 has led to an extreme clinical score with higher oxidative stress and inflammation in autoimmune illness, even though elevated UCP2 has been found in many tumors and is known to be a potential target for tumor therapy. Uncertainty still exists regarding UCP2’s function in T cells. A significant rise in the Th2/Th1 ratio was seen in this work using CD4 cells from UCP2−/− mice. These cells exhibited an improved Th2 phenotype with decreased calcium influx, elevated iNOS expression, and elevated urea metabolism. CD4 cells were treated with NOC-18, a source of nitric oxide, or Genipin to demonstrate nitric oxide-mediated Th2 polarization (inhibitor for UCP2). There were more cytotoxic markers and Th2/Th1 double positive cells. The B16/F10 tumor cells were controlled in vitro in a tumor killing assay utilizing genipin-treated CD4 cells, according to the findings. However, in UCP2−/− mice, the severity of EAE worsened, and heterogenic Th2 cells were infiltrated into central nerves system. Our findings imply that the loss of UCP2 in CD4 increases Th2 polarization with a cytotoxic phenotype and may be relevant to various illnesses. R01 CA250458, R01 CA236379

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UCP2缺乏导致CD4+ T细胞出现Th1/2致病表型

解偶联蛋白2 (UCP2)是线粒体基质中的阴离子转运蛋白，控制ROS的产生、钙内流和C4代谢物。它被认为是一种代谢调节剂。缺乏UCP2导致自身免疫性疾病中氧化应激和炎症升高的极端临床评分，尽管在许多肿瘤中发现UCP2升高，并且已知UCP2是肿瘤治疗的潜在靶点。关于UCP2在T细胞中的功能仍然存在不确定性。使用UCP2−/−小鼠的CD4细胞，我们发现Th2/Th1比值显著升高。这些细胞表现出改善的Th2表型，钙内流减少，iNOS表达升高，尿素代谢升高。用一氧化氮来源NOC-18或Genipin处理CD4细胞，以证明一氧化氮介导的Th2极化(UCP2抑制剂)。细胞毒性标志物增多，Th2/Th1双阳性细胞增多。根据研究结果，B16/F10肿瘤细胞在体外的肿瘤杀伤试验中被控制，使用genipin处理的CD4细胞。然而，在UCP2−/−小鼠中，EAE的严重程度加重，异质Th2细胞浸润到中枢神经系统。我们的研究结果表明，CD4中UCP2的缺失增加了Th2极化，具有细胞毒性表型，可能与各种疾病有关。R01 ca250458, R01 ca236379

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The Journal of Immunology

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