Phase plane dynamics of ERK phosphorylation.

The Journal of Biological Chemistry Pub Date : 2023-11-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105234
Stanislav Y Shvartsman, Sarah McFann, Martin Wühr, Boris Y Rubinstein
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Abstract

The extracellular signal-regulated kinase (ERK) controls multiple critical processes in the cell and is deregulated in human cancers, congenital abnormalities, immune diseases, and neurodevelopmental syndromes. Catalytic activity of ERK requires dual phosphorylation by an upstream kinase, in a mechanism that can be described by two sequential Michaelis-Menten steps. The estimation of individual reaction rate constants from kinetic data in the full mechanism has proved challenging. Here, we present an analytically tractable approach to parameter estimation that is based on the phase plane representation of ERK activation and yields two combinations of six reaction rate constants in the detailed mechanism. These combinations correspond to the ratio of the specificities of two consecutive phosphorylations and the probability that monophosphorylated substrate does not dissociate from the enzyme before the second phosphorylation. The presented approach offers a language for comparing the effects of mutations that disrupt ERK activation and function in vivo. As an illustration, we use phase plane representation to analyze dual phosphorylation under heterozygous conditions, when two enzyme variants compete for the same substrate.

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ERK磷酸化的相平面动力学。
细胞外信号调节激酶(ERK)控制细胞中的多个关键过程,并在人类癌症、先天性异常、免疫疾病和神经发育综合征中失调。ERK的催化活性需要上游激酶的双重磷酸化,其机制可以通过两个连续的Michaelis-Menten步骤来描述。根据完整机理中的动力学数据估计单个反应速率常数已被证明是具有挑战性的。在这里,我们提出了一种可分析处理的参数估计方法,该方法基于ERK活化的相平面表示,并在详细机制中产生六个反应速率常数的两个组合。这些组合对应于两个连续磷酸化的特异性的比率以及单磷酸化底物在第二次磷酸化之前不与酶解离的概率。所提出的方法为比较体内破坏ERK激活和功能的突变的影响提供了一种语言。例如,当两种酶变体竞争同一底物时,我们使用相平面表示来分析杂合条件下的双重磷酸化。
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