Kennedy Eileen J, Yang Jie, Pillus Lorraine, Taylor Susan S, Ghosh Gourisankar
Department of Chemistry and Biochemistry, University of California San Diego, La Jolla, California, United States of America.
PLoS One. 2009;4(3):e4746. doi: 10.1371/journal.pone.0004746. Epub 2009 Mar 9.
Distal interactions between discrete elements of an enzyme are critical for communication and ultimately for regulation. However, identifying the components of such interactions has remained elusive due to the delicate nature of these contacts. Protein kinases are a prime example of an enzyme with multiple regulatory sites that are spatially separate, yet communicate extensively for tight regulation of activity. Kinase misregulation has been directly linked to a variety of cancers, underscoring the necessity for understanding intramolecular kinase regulation.
METHODOLOGY/PRINCIPAL FINDINGS: A genetic screen was developed to identify suppressor mutations that restored catalytic activity in vivo from two kinase-dead Protein Kinase A mutants in S. cerevisiae. The residues defined by the suppressors provide new insights into kinase regulation. Many of the acquired mutations were distal to the nucleotide binding pocket, highlighting the relationship of spatially dispersed residues in regulation.
CONCLUSIONS/SIGNIFICANCE: The suppressor residues provide new insights into kinase regulation, including allosteric effects on catalytic elements and altered protein-protein interactions. The suppressor mutations identified in this study also share overlap with mutations identified from an identical screen in the yeast PKA homolog Tpk2, demonstrating functional conservation for some residues. Some mutations were independently isolated several times at the same sites. These sites are in agreement with sites previously identified from multiple cancer data sets as areas where acquired somatic mutations led to cancer progression and drug resistance. This method provides a valuable tool for identifying residues involved in kinase activity and for studying kinase misregulation in disease states.
酶的离散元件之间的远端相互作用对于通讯以及最终的调节至关重要。然而,由于这些接触的微妙性质,确定此类相互作用的组成部分仍然很困难。蛋白激酶是一种具有多个空间上分离的调节位点的酶的典型例子,这些位点广泛通讯以严格调节活性。激酶调节异常与多种癌症直接相关,这突出了理解分子内激酶调节的必要性。
方法/主要发现:开发了一种遗传筛选方法,以鉴定能够在体内恢复酿酒酵母中两个激酶失活的蛋白激酶A突变体催化活性的抑制突变。抑制子定义的残基为激酶调节提供了新的见解。许多获得的突变位于核苷酸结合口袋的远端,突出了空间分散的残基在调节中的关系。
结论/意义:抑制子残基为激酶调节提供了新的见解,包括对催化元件的变构效应和改变的蛋白质-蛋白质相互作用。本研究中鉴定的抑制突变也与酵母PKA同源物Tpk2的相同筛选中鉴定的突变有重叠,证明了某些残基的功能保守性。一些突变在相同位点被多次独立分离。这些位点与先前从多个癌症数据集中鉴定的位点一致,这些位点是获得性体细胞突变导致癌症进展和耐药性的区域。这种方法为鉴定参与激酶活性的残基以及研究疾病状态下的激酶调节异常提供了有价值的工具。
