
The IL-2 receptor is a key component of immune signaling and is required for the activation, proliferation, and survival of T cells. This receptor is composed of three polypeptide chains, the alpha, beta and gamma chains. The IL-2 receptor gamma chain is a common component for several other cytokine receptors, including IL-4, IL-7, IL-9 and IL-15. The IL-2 receptor beta chain is essential for IL-2 signaling and is also a component of the IL-15 receptor complex. The polypeptides of the IL-2 receptor do not themselves have intrinsic catalytic activity, but interact with cytoplasmic signaling proteins to transduce signals.br>Different regions of the cytoplasmic domain of the IL-2 receptor beta chain interact and couple with distinct signaling pathways and cellular responses. JAK1 associates with the beta chain, and JAK3 with the gamma chain. Binding of IL-2 induces heterodimerization of receptor subunits, and activation of JAK kinase activity. Tyrosine residues in the beta chain cytoplasmic domain are phosphorylated during activation, recruiting other factors to the phosphorylated tyrosine residues through src homology 2 (SH2) domains. The adaptor protein Shc binds to phosphorylated tyrosine 338 of the beta chain. When bound, Shc is phosphorylated and couples through Grb2 and Sos-1 to activate Ras and stimulate T cell proliferation. Another key proliferative pathway activated by IL-2 is phosphorylation of STAT-5 by JAK kinases. STAT-5 is recruited to IL-2 beta phosphorylated tyrosines at multiple positions, including Y338, Y392 and Y510. Once phosphorylated, STAT-5 enters the nucleus to regulate the transcription of several genes, some proliferative such as cyclin genes and others that are involved in T cell immune function such as cytokine genes. The suppressors of cytokine activation, SOCS-3 and SOCS-1, oppose phosphorylation and activation of STAT-5 and JAK1 caused by IL-2. PI3 kinase is another protein recruited to IL-2 receptor beta chain tyrosines when phosphorylated. Activation of PI3 Kinase also contributes to the proliferative activity of IL-2 in T cells. The role of other tyrosines in the IL-2 receptor beta chain, Y355, Y358 and Y361, is not yet clear, but may be involved in signaling by the protein kinase p56lck.In addition to stimulating T cell activation and proliferation, IL-2 activation blocks T cell apoptosis through multiple pathways. Among the genes activated by STAT-5 are BCL-xL, an inhibitor of apoptosis, and fas-ligand, an activator of apoptosis in cells expressed the fas receptor. PI3 kinase also contributes to anti-apoptotic activity of IL-2 through AKT activation. T cell responses to IL-2 must be coordinated in part in the complex protein-protein interactions with the IL-2 receptor beta chain.
Contributor:
REFERENCES: Ahmed, N.N. et al. (1997) Transduction of interleukin-2 antiapoptotic and proliferative signals via Akt protein kinase. Proc. Natl. Acad. Sci. U S A 94(8), 3627-32 Cohney, S.J. et al. (1999) SOCS-3 is tyrosine phosphorylated in response to interleukin-2 and suppresses STAT5 phosphorylation and lymphocyte proliferation. Mol. Cell. Biol. 19(7), 4980-8 Delespine-Carmagnat, M., Bouvier, G., Bertoglio, J. (2000) Association of STAT1, STAT3 and STAT5 proteins with the IL-2 receptor involves different subdomains of the IL-2 receptor beta chain. Eur. J. Immunol. 30(1), 59-68 Friedmann, M.C., Migone, T.S., Russell, S.M., Leonard, W.J. (1996) Different interleukin 2 receptor beta-chain tyrosines couple to at least two signaling pathways and synergistically mediate interleukin 2-induced proliferation. Proc. Natl. Acad. Sci. U.S.A. 93(5), 2077-82 Gaffen, S.L. et al. (1996) Distinct tyrosine residues within the interleukin-2 receptor beta chain drive signal transduction specificity, redundancy, and diversity. J. Biol. Chem. 271(35), 21381-90 Gaffen, Sarah. Signaling Domains of the Interleukin 2 Receptor. Cytokine, vol 14(2), April 2001, 63-77. Gu, H. et al. (2000) New role for Shc in activation of the phosphatidylinositol 3-kinase/Akt pathway. Mol. Cell. Biol. 20(19), 7109-20 Kawahara A, Minami Y, Miyazaki T, Ihle JN, Taniguchi T. Critical role of the interleukin 2 (IL-2) receptor gamma-chain-associated Jak3 in the IL-2 induced c-fos and c-myc, but not bcl-2, gene induction. PNAS, vol 92(19), September 1995, 8724-28. Migone, T.S. et al. (1998) Functional cooperation of the interleukin-2 receptor beta chain and Jak1 in phosphatidylinositol 3-kinase recruitment and phosphorylation. Mol. Cell. Biol. 18(11), 6416-22 Sporri, B. et al. (2001) JAB/SOCS1/SSI-1 is an interleukin-2-induced inhibitor of IL-2 signaling. Blood 97(1), 221-6 Truitt, K.E, Mills, G.B., Turck, C.W., Imboden, .JB. (1994) SH2-dependent association of phosphatidylinositol 3-kinase 85-kDa regulatory subunit with the interleukin-2 receptor beta chain. J. Biol. Chem. 269(8), 5937-43
文|《中國科學報》記者李思輝實習生何睿她是一位知名三甲醫院的科室主任:不僅負責科室的管理工作,而且每周4個半天坐診,每年主刀800多臺手術;她是院士師門的“大師姐”:繁忙的臨床工作之余,做研究、帶學生......
Fanzor(Fz)是一種廣泛存在于真核生物結構域的ωRNA引導內切酶,具有獨特的基因編輯潛力。2024年8月28日,麻省理工學院/博德研究所張鋒團隊在Cell在線發表題為“Structuralins......
葉綠體蛋白在ATP酶馬達的驅動下,通過葉綠體外膜(TOC)轉座子和葉綠體內膜(TIC)超復合體的轉座子導入。Ycf2-FtsHi復合體已被確定為葉綠體進口馬達。然而,其在前蛋白轉運過程中與TIC復合物......
文| 《中國科學報》記者李思輝實習生畢若雪“2021年暑假的一個凌晨,我突然靈機一動,思考了很久的一個模型突然清晰起來。我立即從床上蹦起來,花了5分鐘,在紙上把它清楚地畫了出來!”說起最近發......
“一稿多投”一直被認為是不端的行為,但這個“規矩”是在紙質時代信息溝通不暢的情況下制定的,近年來廣大作者呼吁取消這一觀念的聲音已振聾發聵!讓人欣喜的是,截止目前,已經有兩大國際知名出版社響應了這一呼吁......
2024年4月23日,北京理工大學生命學院肖振宇副教授、中國科學院動物研究所王紅梅、于樂謙、郭靖濤研究員、中國農業大學魏育蕾教授、鄭州大學第一附屬醫院何南南助理研究員在國際學術期刊Cell發表文章《3......
2019年10月3日,加州大學圣地亞哥分校BrendaL.Bloodgood團隊(G.StefanoBrigidi為第一作者)在Cell在線發表題為“GenomicDecodingofNeuronal......
美國賓夕法尼亞大學佩雷爾曼醫學院科研人員發現,螞蟻的血腦屏障在控制其行為方面起著積極的作用。血腦屏障可以調節螞蟻大腦中的激素水平,從而影響他們在蟻群中的行為。相關研究成果發表在《Cell》雜志上。研究......
RNA引導系統利用引導RNA和靶核酸序列之間的互補性來識別遺傳元件,在原核生物和真核生物的生物過程中都起著核心作用。例如,原核CRISPR-Cas系統為細菌和古細菌提供了對外來遺傳因子的適應性免疫。C......
大約700萬年前,人類從我們最接近的動物親戚黑猩猩那里分離出來,在進化樹上形成了我們自己的分支。在此后的時間里---從進化的角度看是短暫的---我們的祖先進化出了使我們成為人類的性狀,包括比黑猩猩大得......