White Wendy O, Seibenhener M Lamar, Wooten Marie W
Department of Biological Sciences, Auburn University, Auburn, Alabama 36849, USA.
J Cell Biochem. 2002;85(1):42-53.
Herein, we employed a combined approach of molecular modeling and site-directed mutagenesis to address the role of tyrosine phosphorylation in transport of atypical protein kinase C (aPKC) into the nucleus. Computer modeling of the three-dimensional structure of the aPKC catalytic core, reveals that tyrosine 256 (Tyr256) is located at the lip of the activation loop and is conserved among members of the aPKC family, iota/lambda and zeta. Based on these findings, we examined whether tyrosine phosphorylation of aPKC on the activation lip may facilitate nuclear import. An antiserum was generated that selectively recognizes the phosphorylated Tyr256 residue in aPKC. By isolating nuclei of PC12 cells and immunoprecipitating aPKC with Ab-PY256, we observed that Tyr256 is rapidly phosphorylated upon NGF treatment prior to entry of aPKC into the nucleus. aPKC was observed to exclusively bind to importin-beta. The interaction between importin-beta and aPKC was enhanced upon tyrosine phosphorylation of aPKC and binding was abrogated when Tyr256 was mutated to phenylalanine. We propose that phosphorylation of aPKC at Tyr256 induces a conformation, whereby, the arginine-rich NLS is exposed, which then binds importin-beta leading to import of aPKC into the nucleus. Altogether, these findings document a novel role for the tyrosine phosphorylation in regulating import of atypical PKC into the nucleus.
在此,我们采用分子建模和定点诱变相结合的方法来研究酪氨酸磷酸化在非典型蛋白激酶C(aPKC)转运至细胞核过程中的作用。aPKC催化核心三维结构的计算机建模显示,酪氨酸256(Tyr256)位于激活环的边缘,并且在aPKC家族的iota/lambda和zeta成员中保守。基于这些发现,我们研究了激活环上aPKC的酪氨酸磷酸化是否有助于核输入。我们制备了一种抗血清,其能选择性识别aPKC中磷酸化的Tyr256残基。通过分离PC12细胞的细胞核并用Ab-PY256免疫沉淀aPKC,我们观察到在aPKC进入细胞核之前,NGF处理后Tyr256迅速磷酸化。观察到aPKC仅与输入蛋白β结合。aPKC酪氨酸磷酸化后,输入蛋白β与aPKC之间的相互作用增强,而当Tyr256突变为苯丙氨酸时,结合被消除。我们提出,aPKC在Tyr256处的磷酸化诱导一种构象,从而使富含精氨酸的核定位信号暴露,然后该信号结合输入蛋白β,导致aPKC进入细胞核。总之,这些发现证明了酪氨酸磷酸化在调节非典型PKC进入细胞核方面的新作用。
