Notch拮抗剂中潜在MAPK磷酸化位点的突变

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Anja C. Nagel, Anette Preiss
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引用次数: 2

摘要

真生动物发育过程中的细胞分化是基于高度保守的信号通路。其中两个,Notch和EGFR信号通路,是紧密交织在一起的。我们已经在果蝇Notch信号的主要拮抗剂Hairless (H)中确定了丝裂原激活激酶(MAPK)的两个潜在靶点,MAPK是EGFR的下游效应激酶。假设这些位点的磷酸化调节H活性,EGFR信号传导对Notch通路调控的直接影响可能是可能的。这一假设是通过产生磷缺陷和磷模拟H异构体和测定其生物活性来验证的。我们首先研究了已知的H相互作用伙伴Su(H)、Gro、CtBP和Pros26.4的结合,这在突变型H和野生型H之间是相似的。接下来,我们分析了眼睛、翅膀和鬃毛的发育,这些部位由于Notch信号的抑制而受到H的过度表达的强烈影响。突变结构的过表达导致表型与野生型H过表达相似,但在表型严重程度上存在细微差异。然而,大的变异表明突变残基可能对H的整体结构或稳定性至关重要,尽管影响较小,但EGFR可能通过MAPK依赖的H磷酸化来微调Notch信号。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mutation of potential MAPK phosphorylation sites in the Notch antagonist Hairless

Mutation of potential MAPK phosphorylation sites in the Notch antagonist Hairless

Cellular differentiation during eumetazoan development is based on highly conserved signalling pathways. Two of them, the Notch and the EGFR signalling pathways, are closely intertwined. We have identified two potential target sites of the Mitogen activated kinase (MAPK), the downstream effector kinase of EGFR, within Hairless (H), the major antagonist of Notch signalling in Drosophila. Assuming that phosphorylation of these sites modulates H activity, a direct influence of EGFR signalling on Notch pathway regulation might be possible. This hypothesis was tested by generating a phospho-deficient and a phospho-mimetic H isoform and by assaying for their biological activity. We first addressed the binding of known H interaction partners Su(H), Gro, CtBP and Pros26.4 which was similar between mutant and wild type H. Next we assayed eye, wing and bristle development which are strongly affected by the overexpression of H due to the inhibition of Notch signalling. Overexpression of the mutant constructs resulted in phenotypes similar to wildtype H overexpression, yet with subtle differences in phenotypic severity. However, large variations suggest that the mutated residues may be critical for the overall structure or stability of H. Albeit of minor impact, EGFR may fine tune Notch signalling via MAPK dependent phosphorylation of H.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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