Structure‐energy‐based predictions and network modelling of RASopathy and cancer missense mutations

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Abstract

The Ras/ MAPK syndromes (‘ RASopathies’) are a class of developmental disorders caused by germline mutations in 15 genes encoding proteins of the Ras/mitogen‐activated protein kinase ( MAPK) pathway frequently involved in cancer. Little is known about the molecular mechanisms underlying the differences in mutations of the same protein causing either cancer or RASopathies. Here, we shed light on 956 RASopathy and cancer missense mutations by combining protein network data with mutational analyses based on 3D structures. Using the protein design algorithm FoldX, we predict that most of the missense mutations with destabilising energies are in structural regions that control the activation of proteins, and only a few are predicted to compromise protein folding. We find a trend that energy changes are higher for cancer compared to RASopathy mutations. Through network modelling, we show that partly compensatory mutations in RASopathies result in only minor downstream pathway deregulation. In summary, we suggest that quantitative rather than qualitative network differences determine the phenotypic outcome of RASopathy compared to cancer mutations.

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Most cited references 58

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Methods for alignment of protein sequences typically measure similarity by using a substitution matrix with scores for all possible exchanges of one amino acid with another. The most widely used matrices are based on the Dayhoff model of evolutionary rates. Using a different approach, we have derived substitution matrices from about 2000 blocks of aligned sequence segments characterizing more than 500 groups of related proteins. This led to marked improvements in alignments and in searches using queries from each of the groups.

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The Ras-RasGAP complex: structural basis for GTPase activation and its loss in oncogenic Ras mutants.

K Scheffzek, M R Ahmadian, W Kabsch … (1997)

The three-dimensional structure of the complex between human H-Ras bound to guanosine diphosphate and the guanosine triphosphatase (GTPase)-activating domain of the human GTPase-activating protein p120GAP (GAP-334) in the presence of aluminum fluoride was solved at a resolution of 2.5 angstroms. The structure shows the partly hydrophilic and partly hydrophobic nature of the communication between the two molecules, which explains the sensitivity of the interaction toward both salts and lipids. An arginine side chain (arginine-789) of GAP-334 is supplied into the active site of Ras to neutralize developing charges in the transition state. The switch II region of Ras is stabilized by GAP-334, thus allowing glutamine-61 of Ras, mutation of which activates the oncogenic potential, to participate in catalysis. The structural arrangement in the active site is consistent with a mostly associative mechanism of phosphoryl transfer and provides an explanation for the activation of Ras by glycine-12 and glutamine-61 mutations. Glycine-12 in the transition state mimic is within van der Waals distance of both arginine-789 of GAP-334 and glutamine-61 of Ras, and even its mutation to alanine would disturb the arrangements of residues in the transition state.

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Author and article information

Journal

Journal ID (nlm-ta): Mol Syst Biol

Journal ID (iso-abbrev): Mol. Syst. Biol

Journal ID (doi): 10.1002/(ISSN)1744-4292

Journal ID (publisher-id): MSB

Journal ID (hwp): msb

Title: Molecular Systems Biology

Publisher: European Molecular Biology Organization

ISSN (Print): 1744-4292

ISSN (Electronic): 1744-4292

Publication date Collection: 05 May 2014

Publication date (Electronic): 06 May 2014

Volume: 10

Issue: 5 ( doiID: 10.1002/msb.v10.5 )

Electronic Location Identifier: 727

Affiliations

[ ¹ ] EMBL/CRG Systems Biology Research UnitCentre for Genomic Regulation (CRG) BarcelonaSpain

[ ² ]Universitat Pompeu Fabra (UPF) BarcelonaSpain

[ ³ ]Institució Catalana de Recerca i Estudis Avançats (ICREA) BarcelonaSpain

Author notes

[*] [* ]Corresponding author. Tel: +34 93 316 02 59; Fax: +34 93 316 00 99; christina.kiel@ 123456crg.eu

Article

Publisher ID: MSB145092

DOI: 10.1002/msb.20145092

PMC ID: 4188041

PubMed ID: 24803665

SO-VID: 689b2ab8-3262-40a7-85d5-9dc4c7ffc895

License:

This is an open access article under the terms of the Creative Commons Attribution 4.0 License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 02 January 2014

Date revision received : 06 March 2014

Date accepted : 25 March 2014

Page count

Pages: 14

Funding

Funded by: Spanish Ministerio de Economía y Competitividad, Plan Nacional

Award ID: BIO2012‐39754

Funded by: European Fund for Regional Development

Funded by: Spanish Ministry of Economy and Competitiveness

Award ID: SEV‐2012‐0208

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source-schema-version-number 2.0

component-id msb145092

cover-date May 2014

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLM version:4.1.1 mode:remove_FC converted:29.08.2014

ScienceOpen disciplines: Quantitative & Systems biology

Keywords: rasopathy,foldx,mapk pathway,missense mutations,enedgetics

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ScienceOpen disciplines: Quantitative & Systems biology

Keywords: rasopathy, foldx, mapk pathway, missense mutations, enedgetics

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Structure‐energy‐based predictions and network modelling of RASopathy and cancer missense mutations

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Online interactive cancer simulations and demos

Most cited references 58

Amino acid substitution matrices from protein blocks.

Specificity of receptor tyrosine kinase signaling: transient versus sustained extracellular signal-regulated kinase activation.

The Ras-RasGAP complex: structural basis for GTPase activation and its loss in oncogenic Ras mutants.

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