合成肽KIFMK对胰岛素信号的抑制表明,DIII-S6和DIV-S1之间的细胞质连接区是钠通道上的局部麻醉药结合位点。
Suppression of insulin signalling by a synthetic peptide KIFMK suggests the cytoplasmic linker between DIII-S6 and DIV-S1 as a local anaesthetic binding site on the sodium channel.
作者信息
Hirose Munetaka, Kuroda Yoshihiro, Sawa Shinichi, Nakagawa Terumichi, Hirata Masashi, Sakaguchi Masahiro, Tanaka Yoshifumi
机构信息
Department of Anaesthesiology, Kyoto Prefectural University of Medicine, Kamigyo-ku, Kyoto 602-8566, Japan.
出版信息
Br J Pharmacol. 2004 May;142(1):222-8. doi: 10.1038/sj.bjp.0705575. Epub 2004 Mar 22.
Abstract
- Acetyl-KIFMK-amide (KIFMK) restores fast inactivation to mutant sodium channels having a defective inactivation gate. Its binding site with sodium channels could be considered to be the cytoplasmic linker (III-IV linker) connecting domains III and IV of the sodium channel alpha subunit. There is a close resemblance of the amino-acid sequences between the III-IV linker and the activation loop of the insulin receptor (IR). This resemblance of the amino-acid sequences suggests that KIFMK may also modulate insulin signalling. In order to test this assumption, we studied the effects of KIFMK and its related (KIYEK, KIQMK, and DIYET) and unrelated (LPFFD) peptides on tyrosine phosphorylation or dephosphorylation of IR in vitro. 2. Purified IR was phosphorylated in vitro with insulin in the presence of various synthetic peptides and lignocaine. The phosphorylation level of IR was then evaluated after SDS-PAGE separation, followed by Western blot analysis with antiphosphotyrosine antibody. 3. KIFMK and KIYEK inhibited insulin-stimulated autophosphorylation of IR. Lignocaine showed similar effects, but at a higher order of concentration. KIYEK and DIYET, but not KIFMK, dephosphorylated the phosphorylated tyrosine residues. The structurally unrelated peptide LPFFD had no effect either on phosphorylation or dephosphorylation of IR. 4. These results indicate that KIFMK, KIYEK, and lignocaine bind with the autophosphorylation sites of IR. 5. The present findings also suggest that KIFMK and lignocaine bind with the III-IV linker of sodium channel alpha subunit.
摘要
- 乙酰化-KIFMK-酰胺(KIFMK)可恢复具有缺陷失活门的突变钠通道的快速失活。其与钠通道的结合位点可被认为是连接钠通道α亚基结构域III和IV的胞质连接子(III-IV连接子)。III-IV连接子与胰岛素受体(IR)的激活环之间的氨基酸序列有密切相似性。这种氨基酸序列的相似性表明KIFMK也可能调节胰岛素信号传导。为了验证这一假设,我们在体外研究了KIFMK及其相关肽(KIYEK、KIQMK和DIYET)以及无关肽(LPFFD)对IR酪氨酸磷酸化或去磷酸化的影响。2. 在各种合成肽和利多卡因存在的情况下,用胰岛素在体外使纯化的IR磷酸化。然后在SDS-PAGE分离后,用抗磷酸酪氨酸抗体进行蛋白质印迹分析,评估IR的磷酸化水平。3. KIFMK和KIYEK抑制胰岛素刺激的IR自身磷酸化。利多卡因显示出类似的效果,但浓度更高。KIYEK和DIYET可使磷酸化的酪氨酸残基去磷酸化,但KIFMK不能。结构上无关的肽LPFFD对IR的磷酸化或去磷酸化均无影响。4. 这些结果表明KIFMK、KIYEK和利多卡因与IR的自身磷酸化位点结合。5. 本研究结果还表明KIFMK和利多卡因与钠通道α亚基的III-IV连接子结合。
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