一种必需的布鲁氏锥虫蛋白激酶:调控的功能分析和抑制剂的鉴定

Marilyn Parsons, Ben Parsons, Marissa Dean, Amy E. DeRocher, Zeba Islam, Dustin J. Maly, Bryan C. Jensen
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引用次数: 0

摘要

蛋白丝氨酸/苏氨酸激酶AEK1在布鲁氏锥虫(非洲锥虫病的病原体)的发病阶段是必需的。AEK1是AGC蛋白激酶家族的成员,尽管它与特定的人类AGC激酶关系并不密切。我们之前的化学遗传学研究表明,在表达类似物敏感的AEK1的寄生虫中靶向抑制AEK1可以阻断寄生虫的生长并提高感染小鼠的存活率。为了进一步验证AEK1作为药物靶点,我们使用化学遗传系统在克隆水平上测定AEK1活性丧失24小时对细胞活力的影响。利用时间分辨荧光能量转移(TR-FRET)技术,筛选了429个蛋白激酶抑制剂,以抑制野生型蛋白的结合。磷酸化位点和基序的作用是通过确定这些序列中携带突变的蛋白的表达是否可以拯救AEK1条件敲除寄生虫来探测的。为了确定磷酸化位点突变对细胞AEK1激酶活性的影响,我们比较了使用外源底物MBP从寄生虫裂解物免疫沉淀的突变蛋白和野生型蛋白的体外激酶活性。最后,通过反褶积显微镜对标记的AEK1蛋白进行定位。在化学遗传系统中暴露于AEK1抑制类似物24小时后,只有不到5%的剩余活细胞可以克隆扩增,进一步验证了AEK1作为药物靶点。在AEK1抑制剂筛选试验中,我们鉴定出17种命中化合物。互补研究表明,激活环中两个已知的磷酸化位点;其中一个基因的突变会使功能消失,而另一个基因的突变则没有明显的影响。另外两个AEK1磷酸化位点的突变产生了中间表型。蛋白质c端疏水基序或AEK1区域预测结合疏水基序的突变也是功能所必需的。所有AEK1缺陷的寄生虫都表现出增殖减少和细胞分裂缺陷,尽管测试的突变在细胞死亡程度方面有所不同。免疫沉淀的AEK1磷酸基突变体的激酶活性在很大程度上与互补研究中看到的效果相似,尽管邻近疏水基序的磷酸基突变对活性的影响比互补研究预测的要大。AEK1定位于细胞质点,不同于糖体和酸球体。AEK1抑制细胞活力的迅速丧失支持了这样一种观点,即针对AEK1的短期治疗可能足以治疗感染布鲁氏t的人或动物。尽管哺乳动物与布鲁氏体之间的进化距离遥远,但AEK1及其最接近的哺乳动物同源物之间的关键调控元件似乎在很大程度上是保守的。AEK1在细胞质点中的存在提高了其定位也可能在功能活动中起作用的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An essential Trypanosoma brucei protein kinase: a functional analysis of regulation and the identification of inhibitors
Introduction The protein serine/threonine kinase AEK1 is essential in the pathogenic stage of Trypanosoma brucei, the causative agent of African trypanosomiasis. AEK1 is a member of the AGC protein kinase family, although it is not closely related to a specific human AGC kinase. Our previous chemical genetic studies showed that targeted inhibition of AEK1 in parasites expressing analog-sensitive AEK1 blocked parasite growth and enhanced survival of infected mice. Methods To further validate AEK1 as a drug target, we used the chemical genetic system to determine the effect of a 24 hour loss of AEK1 activity on cell viability at the clonal level. A panel of 429 protein kinase inhibitors were screened against the wild-type protein for binding, using time-resolved fluorescence energy transfer (TR-FRET). The role of phosphorylation sites and motifs was probed by determining whether expression of proteins harboring mutations in these sequences could rescue AEK1 conditional knockout parasites. To determine the effect that mutations in the phosphosites have on the kinase activity of cellular AEK1 we compared the in vitro kinase activity of mutant and wild-type proteins immunoprecipitated from parasite lysates using the exogenous substrate MBP. Finally, the tagged AEK1 protein was localized by deconvolution microscopy. Results After a 24 hour exposure to an AEK1 inhibitory analog in the chemical genetic system, less than five percent of the remaining live cells can clonally expand, further validating AEK1 as a drug target. In the AEK1 inhibitor screening assay, we identified 17 hit compounds. Complementation studies showed that of the two known phosphorylation sites in the activation loop; mutation of one abolished function while mutation of the other had no discernable effect. Mutation of the other two AEK1 phosphosites gave intermediate phenotypes. Mutations in either the hydrophobic motif at the C-terminus of the protein or in the region of AEK1 predicted to bind the hydrophobic motif were also required for function. All parasites with defective AEK1 showed reduced proliferation and defects in cytokinesis, although the tested mutations differed in terms of the extent of cell death. Kinase activity of immunoprecipitated AEK1 phosphosite mutants largely paralleled the effects seen in complementation studies, although the mutation of the phosphosite adjacent to the hydrophobic motif had a greater impact on activity than predicted by the complementation studies. AEK1 was localized to cytoplasmic puncta distinct from glycosomes and acidocalcisomes. Discussion The rapid loss of viability of cells inhibited for AEK1 supports the idea that a short course of treatment that target AEK1 may be sufficient for treatment of people or animals infected with T. brucei. Key regulatory elements between AEK1 and its closest mammalian homolog appear to be largely conserved despite the vast evolutionary distance between mammals and T. brucei. The presence of AEK1 in cytoplasmic puncta raises the possibility that its localization may also play a role in functional activity.
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