Influence of genotoxic drug-induced post-translational modifications on mutant p53 stability and oncogenic activities

Estevan Barber, Anna

January 2018

The tumour suppressor p53 is often disrupted by missense mutations that can result in p53 protein accumulation and acquisition of novel oncogenic activities. Various studies have demonstrated that DNA-damaging drugs currently used in the clinic aimed at activating wild type p53, can also stabilise and activate mutant p53 oncogenic functions and thereby paradoxically enhance tumour progression, resulting in poor response to the treatment. In this study we aimed to investigate whether, like in wt p53, post-translational modifications (PTMs) drive such drug-induced mutant p53 accumulation and activation. For this purpose, we generated plasmids expressing non-phosphorylatable and phospho-mimic versions of R175H mutant p53 and tested them in different cell line models. We demonstrated that in response to DNA damage mutant p53 is accumulated and phosphorylated and these phenomena appeared to be mediated by ATM and ATR kinases. DNA-damage induced acetylation was also observed and occurred in a S15 phosphorylation-dependent manner. This suggested a role of the HAT p300, which is recruited by phosphorylated S15. Of note, other works have shown that p300 is required to trigger some oncogenic functions of mutant p53. We then aimed at developing systems to explore mutant p53 functions and their dependence on PTMs. Although we showed that cell growth is compromised upon endogenous mutant p53 depletion, exogenous expression of mutant p53 or its phosphorylation-site forms did not result in a successful rescue in our experimental conditions, thus we were unable to use this strategy to test the effect of PTMs. Ectopic expression of R175H mutant p53 or its phosphorylayion-site versions did not interfere with the growth rate and response to chemotherapy of the p53-null cell line H1299. We also found that mutant p53 phosphorylation does not affect subcellular localisation of mutant p53 and mutant p53-mediated inhibition of p63. Interestingly, ectopically expressed mutant p53 enhanced cell migration in H1299 cells. Notably, our results suggested an apparent threshold effect of mutant p53 levels required to induce migration. Due to the difficulty of obtaining cell lines expressing similar levels of the different phosphorylation-site mutants, the determination of the role of phosphorylation in mutant p53-induced migration was not conclusive. Remarkably, we found that, while S15 and S20 phosphorylation decreased MDM2-dependent degradation, only phosphorylated S20 interfered with CHIP-induced turnover in H1299 cells. Overall our data suggest that, despite exhibiting opposite biological effects, mutant and wt p53 can share upstream regulatory mechanisms and thus present phosphorylation as a promising target to prevent mutant p53 stabilisation and activation and improve response to therapy. Our results also highlight the challenge of developing a good system for determining the effects of the mutant p53 protein and its regulation by PTMs.

Molecular Mechanisms for Regulation of the G Protein-activated Inwardly Rectifying K^+ (GIRK) Channels by Protein Kinase C

ZHANG, Liyan, LEE, Jong-Kook, KODAMA, Itsuo

12 1900

国立情報学研究所で電子化したコンテンツを使用している。

protein kinase C

phosphorylation site

Development of Methods for the Study of Phosphoproteins

Chen, Zhaoyuan

01 December 2006

Characterization of phosphoproteins-including detection, identification of phosphoproteins and identification of phosphorylation sites-is mostly done with radiolabeling and proteomic techniques. Three main topics related to phosphoprotein characterization are included in this dissertation. First, large-scale characterization of the CHO (Chinese hamster ovary) cell phosphoproteome was done using two dimensional gel electrophoresis (2DE) separation, visualization of phosphoproteins by radiolabeling or a phosphoprotein specific dye, followed by MALDI-TOF identification. Because radiolabeling of phosphoproteins is very sensitive and straightforward to quantify, such analysis can give a clear picture of the relative phosphosphorylation of proteins present in a sample. But there are also limitations to this approach, such as the inability of 2DE to separate hydrophobic, acidic and large proteins and the poor detection limits of common protein stains such as Coomassie stain. Additionally, it is difficulty to excise the right spots for identification because of the low abundance of phosphoproteins which have been visualized by radiolabeling. Furthermore, there are problems associated with metabolic radiolabeling. A second topic of the dissertation is the development of a novel strong cation exchange monolithic column for MudPIT (multidimensional protein identification technology) and phosphopeptide isolation. This column, a poly(AMPS-co-PEGDA) monolith containing as high as 40% AMPS, has several favorable features, such as high binding capacity, extraordinarily high resolution, and high peak capacity, making it ideal for resolving complex peptide samples. Application of this novel column to isolate model phosphopeptides was shown. More general use of this column in MudPIT (strong cation exchange column followed by reverse-phased MS/MS) is probably somewhat limited, due to the hydrophobicity of the AMPS monomer. A better monolith could be obtained if a more hydrophilic monomer was used. In the third area of the dissertation, several individual protein phosphorylation sites were analyzed, employing different strategies. Phosphorylation sites of one multiply phosphorylated tryptic peptide from CK2-phosphorylated phosducin-like protein (PhLP) was well characterized using enrichment with a MonoTip® TiO Pipette Tip. Analysis of syntaxin 1a phosphorylation by AMPK (AMP-activated protein kinase) was done by peptide level mapping for potential phosphopeptides after its unsuccessful trial with enrichment using the MonoTip® TiO Pipette Tip. Several criteria such as existence of non-phosphorylated forms of potential phosphopeptides, controls and reasonable retention times were used to rule out false positives. Phosphorylation of syntaxin 1a by AMPK was narrowed down to tryptic peptide T32 with evidence from different sources. Three phosphorylation sites of syntaxin 4 by AMPK were identified within the same peptide (Q65QVTILATPLPEESMK80). Further pinpointing of phosphorylation site(s) for syntaxin 1a by AMPK and further confirmation of these phosphorylation sites in syntaxin 4 by AMPK are required in vivo. The role of phosphorylation in syntaxin 4 by AMPK is the next step toward elucidation of AMPK activation and regulation of the glucose uptake mechanism.

phosphoprotein

phosphopeptide

protein phoshorylation

mass spectrometry

phosphorylation site identification

PhLP

syntaxin

two dimensional gel electrophoresis

phosphoproteome

Biochemistry

Chemistry

3D struktury fosforylace / 3D structures of phosphorylation

Kielarová, Anežka

January 2019

Protein phosphorylation is a common post-translational protein modification used in almost all cellular processes. When a phosphate group is added to an amino acid side chain, it may alter the protein conformation and protein-protein interactions due to its size and its negative charge. It may also change the protein function, activity and even localization within the cell. Experimental detection of phosphorylation is still extremely labor demanding and very expensive, even when deploying protein mass spectrometry. For this very reason many bioinformatics scientific groups focus on the prediction of protein phosphorylation sites. Recent analyses of phosphorylation sites studied mainly non-phosphorylated phosphorylation sites and the distribution and representation of amino acids sequentially neighboring them. Since sequentially more distant, but structurally close amino acids can contribute to the recognition of protein substrate by protein kinase, structural environment of phosphorylation sites was studied in this thesis. Furthermore, 3D structures of phosphorylation sites were comprehensively studied for the first time in a phosphorylated state and the results were compared with the results obtained from the analysis of non- phosphorylated sites. Phosphorylation sites were found mostly within...

HIGH-THROUGHPUT IDENTIFICATION OF ONCOGENIC TYROSINE KINASE SUBSTRATE PREFERENCES TO IMPROVE METHODS OF DETECTION

Minervo Perez (5930141)

14 January 2021

<div>The use of computational approaches to understand kinase substrate preference has been a powerful tool in the search to develop artificial peptide probes to monitor kinase activity, however, most of these efforts focus on a small portion of the human kinome. The use of high throughput techniques to identify known kinase substrates plays an important role in development of sensitive protein kinase activity assays.</div><div>The KINATEST-ID pipeline is an example of a computational tool that uses known kinase substrate sequence information to identify kinase substrate preference. This approach was used to design three artificial substrates for ABL, JAK2 and SRC family kinases. These biosensors were used to design ELISA and lanthanide-based assays to monitor in vitro kinase activity. The KINATEST-ID pipeline relies on a high number of reported kinase substrates to predict artificial substrate sequences, however, not all kinases have the sufficient number of known substrates to make an accurate prediction. </div><div>The adaptation of kinase assay linked with phosphoproteomics technique was used to increase the number of known FLT3 kinase variant substrate sequences. Subsequently, a set of data formatting tools were developed to curate the mass spectrometry data to become compatible with a command line version of the KINATEST-ID pipeline modules. This approach was used to design seven pan-FLT3 artificial substrate (FAStides) sequences. The pair of FAStides that were deemed the most sensitive toward FLT3 kinase phosphorylation were assayed in increasing concentrations of clinically relevant tyrosine kinase inhibitors. </div><div>To improve the automation of the mass spectrometry data analysis and formatting for use with the KINATEST-ID pipeline, a streamlined process was developed within a bioinformatic platform, GalaxyP. The data formatting tools used to process the FLT3 mass spectrometry data were converted into compatible versions to execute within the GalaxyP framework. This process was used to design four BTK artificial substrates (BAStide) to monitor kinase activity. Additionally, one of the BAStide sequences was designed in the lanthanide chelating motif to develop an antibody-free activity assay for BTK. </div><div>Lastly, a multicolored time resolved lanthanide assay was designed by labeling SYK artificial substrate and a SRC family artificial substrate to measure the activity of both kinases in the same kinase reaction. This highlighted the functionality of lanthanide-based time resolved assays for potential multiplexing assay development. </div><div><br></div>

Biochemistry

Enzymes

Proteins and Peptides

assay development experiments

proteomics research

mass spectrometry techniques

phosphorylation site detection

Caracterização de sítios conformacionais de fosforilação em proteínas / Characterization of phosphorylation conformational sites in proteins

Ferraz, Felipe Augusto Nunes

25 April 2016

A fosforilação de proteínas é o tipo de modificação pós-traducional mais recorrente nas vias de sinalização, desempenhando papel central numa vasta gama de eventos celulares. Um completo entendimento das circunstâncias que coordenam o evento de fosforilação permanece como um desafio para a ciência, a despeito do crescente número de abordagens e estudos realizados no assunto. Um mecanismo largamente descrito e aceito como essencial para coordenar a fosforilação de proteínas é a existência de sequências de aminoácidos que facilitam a fosforilação, conhecidos como consensos de fosforilação. Nesse modelo, cada proteína quinase reconhece sítios de fosforilação se os mesmos estiverem inseridos em uma sequência específica de resíduos na estrutura primária do substrato. Porém, com o crescente volume de dados sobre fosforilação, é possível notar a existência de sítios que são validados experimentalmente como fosforilados por uma determinada proteína quinase, que não apresentam o consenso de fosforilação. Neste trabalho, foi testada e comprovada a hipótese de que estes sítios de fosforilação sem consenso sequencial apresentam resíduos localizados em regiões da estrutura terciária adjacentes ao sítio de fosforilação, cuja as características estereoquímicas mimetizam um peptídeo substrato contendo o consenso de fosforilação. Para essa avaliação, utilizando substratos da PKA, foi constatado que mais de 90% dos sítios de fosforilação que não apresentam o consenso na estrutura primária, apresentam essa disposição na estrutura terciária. Resíduos distantes na estrutura primária se apresentam próximos espacialmente na estrutura tridimensional, em uma conformação semelhante a de um sítio com o consenso de fosforilação. Com isso nós propomos a existência de sítios conformacionais de fosforilação. Para confirmar que esses sítios conformacionais poderiam ser cruciais no reconhecimento do substrato, foram construídos modelos da interação da proteína quinase com os substratos, visando demonstrar a viabilidade da interação dos resíduos formadores do consenso conformacional com a proteína quinase de maneira análoga a de um substrato com o consenso de fosforilação. Para a comprovação experimental do fenômeno, foi utilizado o modelo de fosforilação da -Tubulina, no qual foi constatada uma fosforilação no resíduo T253 que depende da atuação dos resíduos K163 e K164 para a interação com a proteína quinase, confirmando a coerência do modelo proposto. Diante da novidade da proposta, dos estudos computacionais feitos e da validação conseguida, torna-se clara a relevância de se estudar a estrutura tridimensional dos substratos de fosforilação, não só como uma forma de aprofundar os conhecimentos gerais na área de fosforilação, mas também como uma alternativa com potencial de ser explorada no desenvolvimento de novas tecnologias / Protein phosphorylation is the most frequent type of post-translational modification in signaling pathway, developing a key role in a wide range of cell events. The full understanding of the circumstances that coordinate the phosphorylation event remains a challenge for science, despite the growing number of approaches and studies on the subject. A broadly described and accepted mechanism as essential for the coordination of protein phosphorylation is the existence of amino acids sequences that contribute to phosphorylation occurrence, known as phosphorylation consensus. In this model, each protein kinase is able to recognize phosphorylation sites inserted in a specific sequence on the primary structure. However, as the data about phosphorylation sites increases, it is possible to notice that there are sites that are validated experimentally as phosphorylated by a particular protein kinase, which do not have the consensus phosphorylation. In this work, it was tested and proved that phosphorylation sites without the sequence consensus presents anchors residues, that are close to the phosphorylation site on the tertiary structure, creating a structural conformation that mimics the stereochemical features of a substrate peptide containing the phosphorylation consensus. For this evaluation, using substrates of PKA, it was found that more than 90% of phosphorylation sites that have no consensus on the primary structure, presented this kind of disposition on the tertiary structure. Distant residues in the primary structure are spatially close on the three-dimensional structure, in a conformation similar to a phosphorylation site containing the consensus. Thus we proposed the existence of conformational phosphorylation sites. To confirm that these conformational sites could be crucial in substrate recognition, it was built kinase-substrate models, aiming to demonstrate the feasibility of residues forming the conformational consensus on the substrate to interact with the kinase analogously to a substrate with consensus phosphorylation. For experimental verification of this phenomenon, we used the phosphorylation model of -Tubulin, in which we observed a phosphorylation at residue T253 that depends of residues K163 and K164 to interact with the protein kinase, confirming the consistency of proposed model. Faced with the novelty of the proposal, the computational data and the experimental validation, it becomes clear the importance of studying the three dimensional structure of phosphorylation sites, not only as a way of achieving deeper knowledge on phosphorylation field, but also as a potential prospect to be explored on the development of new technologies

Bioinformática

Bioinformatics

Biologia computacional

Computational biology

Conformational phosphorylation site

Consenso de fosforilação

Estrutura tridimensional

Fosforilação

Modelagem molecular

Molecular modeling

Phosphorylation

Phosphorylation consensus

Protein kinase

Proteínas-quinase

Three dimensional

Caracterização de sítios conformacionais de fosforilação em proteínas / Characterization of phosphorylation conformational sites in proteins

Felipe Augusto Nunes Ferraz

25 April 2016

A fosforilação de proteínas é o tipo de modificação pós-traducional mais recorrente nas vias de sinalização, desempenhando papel central numa vasta gama de eventos celulares. Um completo entendimento das circunstâncias que coordenam o evento de fosforilação permanece como um desafio para a ciência, a despeito do crescente número de abordagens e estudos realizados no assunto. Um mecanismo largamente descrito e aceito como essencial para coordenar a fosforilação de proteínas é a existência de sequências de aminoácidos que facilitam a fosforilação, conhecidos como consensos de fosforilação. Nesse modelo, cada proteína quinase reconhece sítios de fosforilação se os mesmos estiverem inseridos em uma sequência específica de resíduos na estrutura primária do substrato. Porém, com o crescente volume de dados sobre fosforilação, é possível notar a existência de sítios que são validados experimentalmente como fosforilados por uma determinada proteína quinase, que não apresentam o consenso de fosforilação. Neste trabalho, foi testada e comprovada a hipótese de que estes sítios de fosforilação sem consenso sequencial apresentam resíduos localizados em regiões da estrutura terciária adjacentes ao sítio de fosforilação, cuja as características estereoquímicas mimetizam um peptídeo substrato contendo o consenso de fosforilação. Para essa avaliação, utilizando substratos da PKA, foi constatado que mais de 90% dos sítios de fosforilação que não apresentam o consenso na estrutura primária, apresentam essa disposição na estrutura terciária. Resíduos distantes na estrutura primária se apresentam próximos espacialmente na estrutura tridimensional, em uma conformação semelhante a de um sítio com o consenso de fosforilação. Com isso nós propomos a existência de sítios conformacionais de fosforilação. Para confirmar que esses sítios conformacionais poderiam ser cruciais no reconhecimento do substrato, foram construídos modelos da interação da proteína quinase com os substratos, visando demonstrar a viabilidade da interação dos resíduos formadores do consenso conformacional com a proteína quinase de maneira análoga a de um substrato com o consenso de fosforilação. Para a comprovação experimental do fenômeno, foi utilizado o modelo de fosforilação da -Tubulina, no qual foi constatada uma fosforilação no resíduo T253 que depende da atuação dos resíduos K163 e K164 para a interação com a proteína quinase, confirmando a coerência do modelo proposto. Diante da novidade da proposta, dos estudos computacionais feitos e da validação conseguida, torna-se clara a relevância de se estudar a estrutura tridimensional dos substratos de fosforilação, não só como uma forma de aprofundar os conhecimentos gerais na área de fosforilação, mas também como uma alternativa com potencial de ser explorada no desenvolvimento de novas tecnologias / Protein phosphorylation is the most frequent type of post-translational modification in signaling pathway, developing a key role in a wide range of cell events. The full understanding of the circumstances that coordinate the phosphorylation event remains a challenge for science, despite the growing number of approaches and studies on the subject. A broadly described and accepted mechanism as essential for the coordination of protein phosphorylation is the existence of amino acids sequences that contribute to phosphorylation occurrence, known as phosphorylation consensus. In this model, each protein kinase is able to recognize phosphorylation sites inserted in a specific sequence on the primary structure. However, as the data about phosphorylation sites increases, it is possible to notice that there are sites that are validated experimentally as phosphorylated by a particular protein kinase, which do not have the consensus phosphorylation. In this work, it was tested and proved that phosphorylation sites without the sequence consensus presents anchors residues, that are close to the phosphorylation site on the tertiary structure, creating a structural conformation that mimics the stereochemical features of a substrate peptide containing the phosphorylation consensus. For this evaluation, using substrates of PKA, it was found that more than 90% of phosphorylation sites that have no consensus on the primary structure, presented this kind of disposition on the tertiary structure. Distant residues in the primary structure are spatially close on the three-dimensional structure, in a conformation similar to a phosphorylation site containing the consensus. Thus we proposed the existence of conformational phosphorylation sites. To confirm that these conformational sites could be crucial in substrate recognition, it was built kinase-substrate models, aiming to demonstrate the feasibility of residues forming the conformational consensus on the substrate to interact with the kinase analogously to a substrate with consensus phosphorylation. For experimental verification of this phenomenon, we used the phosphorylation model of -Tubulin, in which we observed a phosphorylation at residue T253 that depends of residues K163 and K164 to interact with the protein kinase, confirming the consistency of proposed model. Faced with the novelty of the proposal, the computational data and the experimental validation, it becomes clear the importance of studying the three dimensional structure of phosphorylation sites, not only as a way of achieving deeper knowledge on phosphorylation field, but also as a potential prospect to be explored on the development of new technologies

Bioinformática

Biologia computacional

Consenso de fosforilação

Estrutura tridimensional

Fosforilação

Modelagem molecular

Proteínas-quinase

Bioinformatics

Computational biology

Conformational phosphorylation site

Molecular modeling

Phosphorylation

Phosphorylation consensus

Protein kinase

Three dimensional