Benjamin Fuhrmann , Jifu Jiang , Patrick Mcleod , Xuyan Huang , Shilpa Balaji , Jaqueline Arp , Hong Diao , Shengwu Ma , Tianqing Peng , Aaron Haig , Lakshman Gunaratnam , Zhu-Xu Zhang , Anthony M. Jevnikar
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Clr-b was upregulated by inflammatory cytokines TNFα and IFNγ <em>in vitro</em>. Silencing of both Clr-b and Clr-f expression using siRNA resulted in increased NK cell killing of TECs compared to silencing of either Clr-b or Clr-f alone (p < 0.01) and when compared to control TECs (p < 0.001). NK cells treated <em>in vitro</em> with soluble Clr-b and Clr-f proteins reduced their capacity to kill TECs (p < 0.05). Hence, NK cell cytotoxicity can be inhibited by Clr proteins on the surface of TECs. 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引用次数: 0
摘要
NK 细胞参与缺血再灌注损伤(IRI)和移植排斥反应。在与肾移植相关的IRI中,可能存在内源性调节系统来减弱NK细胞的活化和细胞毒性。加深对 NK 调节的了解将有助于深入了解移植结果,并指导新的治疗策略。肾小管上皮细胞(TECs)可能通过表面表达复杂的C型凝集素相关蛋白(Clrs)家族来负向调节NK细胞的活化。我们发现TECs表达Clr-b和Clr-f。体外炎性细胞因子 TNFα 和 IFNγ 会上调 Clr-b。使用 siRNA 沉默 Clr-b 和 Clr-f 的表达与单独沉默 Clr-b 或 Clr-f 相比(p < 0.01),以及与对照 TECs 相比(p < 0.001),都能增加 NK 细胞对 TECs 的杀伤力。用可溶性 Clr-b 和 Clr-f 蛋白体外处理 NK 细胞会降低它们杀死 TEC 的能力(p < 0.05)。因此,TECs 表面的 Clr 蛋白可抑制 NK 细胞的细胞毒性。我们的研究表明,Clr分子在调节肾细胞NK细胞功能方面具有协同作用,这可能代表了一种重要的内源性调节系统,可限制炎症期间NK细胞介导的器官损伤。
Inhibition of NK cell cytotoxicity by tubular epithelial cell expression of Clr-b and Clr-f
NK cells participate in ischemia reperfusion injury (IRI) and transplant rejection. Endogenous regulatory systems may exist to attenuate NK cell activation and cytotoxicity in IRI associated with kidney transplantation. A greater understanding of NK regulation will provide insights in transplant outcomes and could direct new therapeutic strategies. Kidney tubular epithelial cells (TECs) may negatively regulate NK cell activation by their surface expression of a complex family of C-type lectin-related proteins (Clrs). We have found that Clr-b and Clr-f were expressed by TECs. Clr-b was upregulated by inflammatory cytokines TNFα and IFNγ in vitro. Silencing of both Clr-b and Clr-f expression using siRNA resulted in increased NK cell killing of TECs compared to silencing of either Clr-b or Clr-f alone (p < 0.01) and when compared to control TECs (p < 0.001). NK cells treated in vitro with soluble Clr-b and Clr-f proteins reduced their capacity to kill TECs (p < 0.05). Hence, NK cell cytotoxicity can be inhibited by Clr proteins on the surface of TECs. Our study suggests a synergistic effect of Clr molecules in regulating NK cell function in renal cells and this may represent an important endogenous regulatory system to limit NK cell-mediated organ injury during inflammation.
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