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Sphingosine 1-Phosphate誘發小鼠Th17細胞分化之研究

Alternative Signaling of Th17 Development by Sphingosing 1-Phosphate

廖嘉駿(Jia-Jun Liao)
指導教授 : 陳俊宏
國立臺灣大學/生命科學院/動物學研究所/碩士(2008年)
https://doi.org/10.6342/NTU.2008.03110
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摘要

Sphingosin 1-Phosphate(S1P)是一種由人體自然製造的小分子水解磷酸脂,其主要的來源為血小板以及被活化的巨嗜細胞。S1P已知能夠經由其第一型特異性受器(S1P1) 來調控T細胞的生長和移動,但對於型干擾素(IFN-)表現的抑制,卻是目前在cytokine的調控上,S1P唯一確定的功能。我之前的研究顯示,S1P能夠促進S1P1大量表現(S1P1-overexpressed)CD4 T細胞分化成為Th17細胞,並分泌interleukin-17(IL-17)。因此我認為,在原生型的小鼠脾臟CD4 T細胞上,S1P可能也具有相同的功能。研究結果顯示,S1P能夠增加IL-17蛋白質的表現量、抑制IFN-和IL-4的分泌,並促進Th17細胞的分化。S1P對於IL-17表現的調控,可能是經由其特異性受器S1P1來達成的。同時,S1P的功能會受到IFN-、IL-4和IL-27的抑制。細胞訊息傳遞路徑的研究指出,S1P可能是透過Gi、Protein Kinase C以及轉錄因子NF-B來誘發IL-17基因的表現。此外,我也證實了S1P1特異性抑制劑FTY720能夠有效的預防S1P所造成的IL-17表現量增加以及Th17細胞的分化。本研究為首度在體外培養(in vitro)的環境下證明,S1P能夠促進Th17細胞的分化和IL-17的表現。同時,我亦為免疫抑制劑FTY720的作用機轉,提出了一個新的理論基礎。

關鍵字

Sphingosine 1-Phosphate Th17 Cells IL-17 分化 免疫抑制

並列摘要

Sphingosine 1-phosphate (S1P) in blood and lymph controls T cell traffic and proliferation through type 1 S1P receptor (S1P1) signals, but suppression of IFN-γ generation has been the only consistently observed effect on T cell cytokines. That S1P enhances development of Th17 cells from antigen-challenged transgenic S1P1-overexpressing CD4 T cells suggested that the S1P-S1P1 axis may promote expansion of Th17 cells in wild type mice. In a model of development of Th17 cells from CD4 T cells stimulated by anti-CD3 plus anti-CD28 antibodies and a mixture of TGF-β1, IL-1 and IL-6, S1P enhanced their number and IL-17-generating activity the same as IL-23. As for IL-23 enhancement of development of Th17 cells, that by S1P was prevented by IL-4 plus IFN-γ and by IL-27. Prevention of S1P augmentation of Th17 cell development by the S1P receptor agonist and downregulator FTY720 implies that FTY720 immunosuppression is attributable partially to inhibition of Th17-mediated inflammation.

並列關鍵字

Sphingosine 1-Phosphate Th17 Cells IL-17 Differentiation FTY720

參考文獻

Afzali, B., Lombardi, G., Lechler, R.I., and Lord, G.M. (2007). The role of T helper 17 (Th17) and regulatory T cells (Treg) in human organ transplantation and autoimmune disease. Clin Exp Immunol 148, 32-46.
Akimzhanov, A.M., Yang, X.O., and Dong, C. (2007). Chromatin remodeling of interleukin-17 (IL-17)-IL-17F cytokine gene locus during inflammatory helper T cell differentiation. J Biol Chem 282, 5969-5972.
Barczyk, A., Pierzchala, W., and Sozanska, E. (2003). Interleukin-17 in sputum correlates with airway hyperresponsiveness to methacholine. Respir Med 97, 726-733.
Batten, M., Li, J., Yi, S., Kljavin, N.M., Danilenko, D.M., Lucas, S., Lee, J., de Sauvage, F.J., and Ghilardi, N. (2006). Interleukin 27 limits autoimmune encephalomyelitis by suppressing the development of interleukin 17-producing T cells. Nat Immunol 7, 929-936.
Bettelli, E., Carrier, Y., Gao, W., Korn, T., Strom, T.B., Oukka, M., Weiner, H.L., and Kuchroo, V.K. (2006). Reciprocal developmental pathways for the generation of pathogenic effector TH17 and regulatory T cells. Nature 441, 235-238.

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