Structural insights into Noonan/LEOPARD syndrome-related mutants of protein-tyrosine phosphatase SHP2 (PTPN11)

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Wei Qiu, Xiaonan Wang, Vladimir Romanov, Ashley Hutchinson, Andrés Lin, Maxim Ruzanov, Kevin P Battaile, Emil F Pai, Benjamin G Neel, Nickolay Y Chirgadze
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引用次数: 60

Abstract

The ubiquitous non-receptor protein tyrosine phosphatase SHP2 (encoded by PTPN11) plays a key role in RAS/ERK signaling downstream of most, if not all growth factors, cytokines and integrins, although its major substrates remain controversial. Mutations in PTPN11 lead to several distinct human diseases. Germ-line PTPN11 mutations cause about 50% of Noonan Syndrome (NS), which is among the most common autosomal dominant disorders. LEOPARD Syndrome (LS) is an acronym for its major syndromic manifestations: multiple Lentigines, Electrocardiographic abnormalities, Ocular hypertelorism, Pulmonary stenosis, Abnormalities of genitalia, Retardation of growth, and sensorineural Deafness. Frequently, LS patients have hypertrophic cardiomyopathy, and they might also have an increased risk of neuroblastoma (NS) and acute myeloid leukemia (AML). Consistent with the distinct pathogenesis of NS and LS, different types of PTPN11 mutations cause these disorders.

Although multiple studies have reported the biochemical and biological consequences of NS- and LS-associated PTPN11 mutations, their structural consequences have not been analyzed fully. Here we report the crystal structures of WT SHP2 and five NS/LS-associated SHP2 mutants. These findings enable direct structural comparisons of the local conformational changes caused by each mutation.

Our structural analysis agrees with, and provides additional mechanistic insight into, the previously reported catalytic properties of these mutants. The results of our research provide new information regarding the structure-function relationship of this medically important target, and should serve as a solid foundation for structure-based drug discovery programs.

Abstract Image

Noonan/LEOPARD综合征相关蛋白酪氨酸磷酸酶SHP2 (PTPN11)突变体的结构分析
普遍存在的非受体蛋白酪氨酸磷酸酶SHP2(由PTPN11编码)在大多数(如果不是全部的话)生长因子、细胞因子和整合素的下游RAS/ERK信号传导中起关键作用,尽管其主要底物仍存在争议。PTPN11的突变导致几种不同的人类疾病。生殖系PTPN11突变导致约50%的努南综合征(NS),这是最常见的常染色体显性疾病之一。豹综合征(LEOPARD Syndrome, LS)是其主要综合征表现的首字母缩略词:多发性Lentigines、心电图异常、眼远视、肺狭窄、生殖器异常、生长迟缓和感音神经性耳聋。通常,LS患者有肥厚性心肌病,他们也可能有神经母细胞瘤(NS)和急性髓性白血病(AML)的风险增加。与NS和LS不同的发病机制一致,不同类型的PTPN11突变导致这些疾病。尽管多项研究报道了NS-和ls相关PTPN11突变的生化和生物学后果,但其结构后果尚未得到充分分析。本文报道了WT SHP2和5个NS/ ls相关SHP2突变体的晶体结构。这些发现使得对每个突变引起的局部构象变化的直接结构比较成为可能。我们的结构分析与之前报道的这些突变体的催化特性一致,并提供了额外的机制见解。我们的研究结果为这一医学上重要靶点的结构-功能关系提供了新的信息,并应作为基于结构的药物发现计划的坚实基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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