胰岛素样生长因子-1 受体(IGF-1R)而非胰岛素受体(IR)与急性 GH 信号在小鼠颅骨细胞中的功能协作。
Functional collaboration of insulin-like growth factor-1 receptor (IGF-1R), but not insulin receptor (IR), with acute GH signaling in mouse calvarial cells.
机构信息
Department of Medicine (Y.G., A.J.P., Y.Z., J.J., S.J.F.), Division of Endocrinology, Diabetes, and Metabolism, and Department of Cell, Developmental, and Integrative Biology (S.J.F.), University of Alabama at Birmingham, Birmingham, Alabama 35294; and Endocrinology Section (S.J.F.), Medical Service, Veterans Affairs Medical Center, Birmingham, Alabama 35233.
出版信息
Endocrinology. 2014 Mar;155(3):1000-9. doi: 10.1210/en.2013-1732. Epub 2013 Jan 1.
GH signals through the GH receptor (GHR), a cytokine receptor linked to Janus kinase 2 (JAK2). GH activates signal transducer and activator of transcription 5 (STAT5), causing expression of genes including IGF-I. IGF-I binds IGF-I receptor (IGF-IR), a heterotetrameric (α2-β2) tyrosine kinase growth factor receptor similar to insulin receptor (IR). In addition to this GH -> GHR -> IGF-I -> IGF-IR pathway, GH induces a complex including GHR, JAK2, and IGF-IR and deletion of floxed IGF-1R in primary murine calvarial cells with Cre-recombinase-expressing adenovirus (Ad-Cre) desensitizes cells to GH for STAT5 activation and IGF-I mRNA accumulation. Diminished GH-induced STAT5 phosphorylation in Ad-Cre-treated cells is rescued by adenoviruses encoding either IGF-IR or IGF-IR lacking the β-chain intracellular domain. Reasoning that IGF-IR's extracellular portion (α or extracellular β) mediates functional interaction with GH signaling, we pursued reconstitution studies. Although structurally related to IGF-IR, IR expressed adenovirally did not rescue GH-induced STAT5 phosphorylation in Ad-Cre-treated cells. We thus created chimeras, swapping homologous IR extracellular regions into IGF-IR. IR and IGF-IR possess N-terminal L1, cysteine-rich (CR), and L2 α-chain domains. We created Ad-IGF-IR/IR-L1 and Ad-IGF-IR/IR-L1-CR-L2, in which L1 alone or L1, CR, and L2 of IR replace corresponding IGF-IR regions, respectively. Ad-IGF-IR/IR-L1, but not Ad-IGF-IR/IR-L1-CR-L2, rescued GH-induced STAT5 phosphorylation in Ad-Cre-treated cells. Additionally, medium containing a soluble IGF-IR (including only L1-CR-L2) dampened GH-induced STAT5 phosphorylation in calvarial cells and two other GH-responsive cell lines. Thus, an extracellular determinant(s), likely in CR-L2, specifically allows IGF-IR to collaborate with GHR and JAK2 for robust GH-induced acute STAT5 phosphorylation.
生长激素通过生长激素受体(GHR)发出信号,GHR 是一种与 Janus 激酶 2(JAK2)相连的细胞因子受体。生长激素激活信号转导和转录激活因子 5(STAT5),导致包括 IGF-I 在内的基因表达。IGF-I 结合 IGF-I 受体(IGF-IR),IGF-IR 是一种异源四聚体(α2-β2)酪氨酸激酶生长因子受体,类似于胰岛素受体(IR)。除了 GH->GHR->IGF-I->IGF-IR 途径之外,生长激素还诱导一种包含 GHR、JAK2 和 IGF-IR 的复合物,并用表达 Cre 重组酶的腺病毒(Ad-Cre)删除原代鼠颅骨细胞中的 floxed IGF-1R,使细胞对 GH 诱导的 STAT5 激活和 IGF-I mRNA 积累脱敏。用 Ad-Cre 处理的细胞中,生长激素诱导的 STAT5 磷酸化减少,但用编码 IGF-IR 或缺乏β-链细胞内结构域的 IGF-IR 的腺病毒进行转染可以挽救。由于 IGF-IR 的细胞外部分(α 或细胞外β)介导与 GH 信号的功能相互作用,我们进行了重建研究。虽然与 IGF-IR 在结构上相关,但用腺病毒表达的 IR 不能挽救 Ad-Cre 处理的细胞中 GH 诱导的 STAT5 磷酸化。因此,我们创建了嵌合体,将同源的 IR 细胞外区交换到 IGF-IR 中。IR 和 IGF-IR 都具有 N 端 L1、富含半胱氨酸(CR)和 L2α-链结构域。我们创建了 Ad-IGF-IR/IR-L1 和 Ad-IGF-IR/IR-L1-CR-L2,其中 L1 单独或 L1、CR 和 L2 的 IR 分别取代相应的 IGF-IR 区域。Ad-IGF-IR/IR-L1,但不是 Ad-IGF-IR/IR-L1-CR-L2,挽救了 Ad-Cre 处理的细胞中 GH 诱导的 STAT5 磷酸化。此外,含有可溶性 IGF-IR(仅包含 L1-CR-L2)的培养基可抑制颅骨细胞和另外两种 GH 反应性细胞系中 GH 诱导的 STAT5 磷酸化。因此,一种细胞外决定因素(可能在 CR-L2 中)特异性允许 IGF-IR 与 GHR 和 JAK2 合作,以产生强烈的 GH 诱导的急性 STAT5 磷酸化。
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