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Lnk抑制与骨髓增殖性疾病相关的JAK2突变体JAK2V617F。

Lnk inhibits myeloproliferative disorder-associated JAK2 mutant, JAK2V617F.

作者信息

Gery Sigal, Cao Qi, Gueller Saskia, Xing Hongtao, Tefferi Ayalew, Koeffler H Phillip

机构信息

Davis Bldg. 5066, 8700 Beverly Blvd., Los Angeles, CA 90048, USA.

出版信息

J Leukoc Biol. 2009 Jun;85(6):957-65. doi: 10.1189/jlb.0908575. Epub 2009 Mar 17.

DOI:10.1189/jlb.0908575
PMID:19293402
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2698587/
Abstract

The JAK2 mutation JAK2V617F is found frequently in patients with myeloproliferative disorders (MPD) and transforms hematopoietic cells to cytokine-independent proliferation when expressed with specific cytokine receptors. The Src homology 2 (SH2) and pleckstrin homology (PH) domain-containing adaptor protein Lnk (SH2B3) is a negative regulator of hematopoietic cytokine signaling. Here, we show that Lnk is a potent inhibitor of JAK2V617F constitutive activity. Lnk down-regulates JAK2V617F-mediated signaling and transformation in hematopoietic Ba/F3-erythropoietin receptor cells. Furthermore, in CFU assays, Lnk-deficient murine bone marrow cells are significantly more sensitive to transformation by JAK2V617F than wild-type (WT) cells. Lnk, through its SH2 and PH domains, interacts with WT and mutant JAK2 and is phosphorylated by constitutively activated JAK2V617F. Finally, we found that Lnk levels are high in CD34(+) hematopoietic progenitors from MPD patients and that Lnk expression is induced following JAK2 activation. Our data suggest that JAK2V617F is susceptible to endogenous negative-feedback regulation, providing new insights into the molecular pathogenesis of MPD.

摘要

JAK2突变JAK2V617F在骨髓增殖性疾病(MPD)患者中频繁出现,当与特定细胞因子受体一起表达时,可使造血细胞转变为不依赖细胞因子的增殖状态。含Src同源2(SH2)和普列克底物蛋白同源(PH)结构域的衔接蛋白Lnk(SH2B3)是造血细胞因子信号传导的负调节因子。在此,我们表明Lnk是JAK2V617F组成活性的有效抑制剂。Lnk下调造血Ba/F3 - 促红细胞生成素受体细胞中JAK2V617F介导的信号传导和转化。此外,在集落形成单位(CFU)试验中,Lnk缺陷型小鼠骨髓细胞对JAK2V617F转化的敏感性明显高于野生型(WT)细胞。Lnk通过其SH2和PH结构域与野生型和突变型JAK2相互作用,并被组成性激活的JAK2V617F磷酸化。最后,我们发现MPD患者的CD34(+)造血祖细胞中Lnk水平较高,并且JAK2激活后Lnk表达被诱导。我们的数据表明JAK2V617F易受内源性负反馈调节,为MPD的分子发病机制提供了新的见解。

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