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JNK途径激酶对驱动蛋白-货物连接机制的调控

Control of a kinesin-cargo linkage mechanism by JNK pathway kinases.

作者信息

Horiuchi Dai, Collins Catherine A, Bhat Pavan, Barkus Rosemarie V, Diantonio Aaron, Saxton William M

机构信息

Department of Biology, Indiana University, Bloomington, IN 47405, USA.

出版信息

Curr Biol. 2007 Aug 7;17(15):1313-7. doi: 10.1016/j.cub.2007.06.062. Epub 2007 Jul 19.

DOI:10.1016/j.cub.2007.06.062
PMID:17658258
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2041807/
Abstract

Long-distance organelle transport toward axon terminals, critical for neuron development and function, is driven along microtubules by kinesins [1, 2]. The biophysics of force production by various kinesins is known in detail. However, the mechanisms of in vivo transport processes are poorly understood because little is known about how motor-cargo linkages are controlled. A c-Jun N-terminal kinase (JNK)-interacting protein (JIP1) has been identified previously as a linker between kinesin-1 and certain vesicle membrane proteins, such as Alzheimer's APP protein and a reelin receptor ApoER2 [3, 4]. JIPs are also known to be scaffolding proteins for JNK pathway kinases [5, 6]. Here, we report evidence that a Drosophila ubiquitin-specific hydrolase and a JNK signaling pathway that it modulates can regulate a JIP1-kinesin linkage. The JNK pathway includes a MAPKKK (Wallenda/DLK), a MAPKK (Hemipterous/MKK7), and the Drosophila JNK homolog Basket. Genetic tests indicate that those kinases are required for normal axonal transport. Biochemical tests show that activation of Wallenda (DLK) and Hemipterous (MKK7) disrupts binding between kinesin-1 and APLIP1, which is the Drosophila JIP1 homolog. This suggests a control mechanism in which an activated JNK pathway influences axonal transport by functioning as a kinesin-cargo dissociation factor.

摘要

长距离细胞器向轴突末端的运输对神经元的发育和功能至关重要,它由驱动蛋白沿着微管驱动[1,2]。各种驱动蛋白产生力的生物物理学已得到详细了解。然而,由于对马达-货物连接如何被控制知之甚少,体内运输过程的机制仍知之甚少。一种c-Jun氨基末端激酶(JNK)相互作用蛋白(JIP1)先前已被鉴定为驱动蛋白-1与某些囊泡膜蛋白之间的连接物,如阿尔茨海默病的APP蛋白和一种reelin受体ApoER2[3,4]。JIP蛋白也被认为是JNK信号通路激酶的支架蛋白[5,6]。在这里,我们报告证据表明,果蝇泛素特异性水解酶及其调节的JNK信号通路可以调节JIP1-驱动蛋白连接。JNK信号通路包括一个MAPKKK(Wallenda/DLK)、一个MAPKK(Hemipterous/MKK7)和果蝇JNK同源物Basket。遗传学测试表明,这些激酶是正常轴突运输所必需的。生化测试表明,Wallenda(DLK)和Hemipterous(MKK7)的激活会破坏驱动蛋白-1与APLIP1之间的结合,APLIP1是果蝇JIP1的同源物。这表明了一种控制机制,即激活的JNK信号通路通过作为驱动蛋白-货物解离因子来影响轴突运输。

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