Proteomic investigation of the MDM2 interactome and linear motif interactions

Nicholson, Judith

January 2011

The oncoprotein MDM2 has an integral role in cancer development via multiple signalling pathways. Two proteomic mass spectrometry screens, label-free with spectral counting quantitation and 8-plex iTRAQ were used to identify proteins up or downregulated over time by the MDM2 targeting drug Nutlin. A subset of previously identified MDM2 binding partners were identified as altered after Nutlin treatment, along with proteins which have not as yet been linked to MDM2 or p53. Proteins altered two hours after Nutlin treatment were screened for sequence similarity to an MDM2 binding consensus motif based on the BOX-I region of p53. Peptides corresponding to this motif were validated for MDM2 binding, and the mode of binding investigated using competition ELISA and thermal denaturation assays. Known MDM2 ligands such as Nutlin were shown to have a range of effects on the binding of these newly identified MDM2 peptides, which may be attributed to allosteric regulation of MDM2. The effects of Nutlin on two full length proteins identified by the MS screens, CypB and NPM, were confirmed in vivo. In vitro binding of MDM2 to CypB and PK, which contain BOX-I like motifs, was also demonstrated validating proteomic mass spectrometry screens as a method to identify new protein-protein interactions. To further investigate the potential of linear motifs to modulate protein-protein interactions, a peptide aptamer targeting the protein AGR2 was tested for effect on AGR2 and p53 in a cancer cell line.

572

História evolutiva da subfamília FOXP : análise evolutiva molecular e estrutural em tetrápodes

Viscardi, Lucas Henriques

January 2015

A família gênica Forkhead P {FOXP) tem sido alvo de muitos estudos envolvendo evolução do cérebro e comportamento animal. Destacam-se particularmente as investigações com o gene FOXP2, que indicam que mudanças neste gene estariam associadas com a evolução da vocalização em algumas espécies de mamíferos, incluindo o Homo sapiens. Recentemente, estudos de desordem intrínseca de proteínas (IDPs) tem ganhado ênfase no contexto evolut ivo, visto que uma correlação posit iva entre regiões de desordem e altas taxas evolutivas tem sido observada. Através de um conjunto de abordagens que inclui predizer o conteúdo de desordem e os motivos lineares de interação, bem como as taxas evolutivas, buscamos desvendar a historia evolutiva dos genes da subfamília FOXP. Concentramos nossas análises sobre regiões desordenadas das proteínas FOXPl, FOXP2, FOXP3 e FOXP4 encontradas em 77 espécies de tetrápodes. Tais regiões proteicas são normalmente negligenciadas em estudos dessa natureza, pois se localizam fora de seus tra dicionais domínios conservados, normalmente associados à função principal da proteína. Sít ios apontados estando sob seleção positiva e relaxamento da restrição seletiva mostraram-se hotspots importantes para mudanças que podem impactar na capacidade de interação das proteínas. Encontramos que os maiores valores de w são mais prevalentes em regiões desordenadas que em ordenadas. Ainda, alto e similar valor de desordem (70%) foi encontrado nas 77 proteínas ortólogas de FOXPl , FOXP2, e FOXP4, indicando a manutenção de um "padrão geral" sobre um longo tempo evolutivo. Portanto, a variabilidade tanto de aminoácidos quanto de motivos lineares dentro das regiões de desordem foi marcante. A proteína FOXP3 apresentou menor nível de desordem (30%), mas signif icante sinal de seleção positiva em alguns sítios. Composição idênt ica de resíduo de aminoácido e/ou motivos lineares em espécies filogeneticamente distantes, indica clara convergência molecular, provavelmente associada a pressões seletivas similares. Sucessivamente, nossos achados mostraram uma clara diferença na composição de motivos lineares entre mamíferos e não mamíferos, dando suporte para a importância dos estudos de evolução da interatividade proteica para as compreensões de características taxa-específicas. / Forkhead Family P (FOXP) has been target of many studies about brain and behavior evo lution among species. FOXP2 receives special attention in academic society, due associations with vocalízation evolution in mammals, including Homo sapiens. Recently, intrinsically disorder proteins studies have gained emphasis in the evolutionary context, as positive correlation between disorder regions and higher evolutionary rate has been observed. Through a set of approaches, including disorder and linear motif predictions, as well as estimate evolutionary rates, we aimed to unveil the evolutionary history of FOXP subfamily genes. We focused our ana lysis over disordered regions of FOXPl, FOXP2, FOXP3 and FOXP4 proteins retrieved in 77 tetrapods. Such protein regions are usually neglected in studies of this nature, for being localized out of the traditional conserved domains, usua lly associated with the main function of the protein. Sites indicated as under relaxation of selective constrains or positive selection have shown to be important hotspots for changes that can impact in protein interaction capability. Higher w va lues are prevalent in disordered regions than in ordered ones. Still, high and similar disorder proportion (~70%) was found among 77 orthologues proteins of FOXPl, FOXP2 and FOXP4, indicating general pattern of disorder maintenance, along tetrapod's evolutionary tree. However, amino acid and linear motifs variability within disordered regions was observed. FOXP3 protein presented lower disorder leveis (~30%), when compared with other paralogues, but signal of positive selection was observed in some sites. ldentical composition of amino acid residues and/or linear motifs is, probably, associated with similar selective pressure. Successively, ou r results showed clear differences in linear motif composition between mammals and non-mammals, supporting the importance of evolutionary studies on protein interaction for the understanding of taxa-specifics characteristics.

Evolução molecular

Tetrapodes

lntrinsica lly disordered protein

Molecular evolution

Linear motifs

Forkhead domain

FOXP gene family

História evolutiva da subfamília FOXP : análise evolutiva molecular e estrutural em tetrápodes

Viscardi, Lucas Henriques

January 2015

A família gênica Forkhead P {FOXP) tem sido alvo de muitos estudos envolvendo evolução do cérebro e comportamento animal. Destacam-se particularmente as investigações com o gene FOXP2, que indicam que mudanças neste gene estariam associadas com a evolução da vocalização em algumas espécies de mamíferos, incluindo o Homo sapiens. Recentemente, estudos de desordem intrínseca de proteínas (IDPs) tem ganhado ênfase no contexto evolut ivo, visto que uma correlação posit iva entre regiões de desordem e altas taxas evolutivas tem sido observada. Através de um conjunto de abordagens que inclui predizer o conteúdo de desordem e os motivos lineares de interação, bem como as taxas evolutivas, buscamos desvendar a historia evolutiva dos genes da subfamília FOXP. Concentramos nossas análises sobre regiões desordenadas das proteínas FOXPl, FOXP2, FOXP3 e FOXP4 encontradas em 77 espécies de tetrápodes. Tais regiões proteicas são normalmente negligenciadas em estudos dessa natureza, pois se localizam fora de seus tra dicionais domínios conservados, normalmente associados à função principal da proteína. Sít ios apontados estando sob seleção positiva e relaxamento da restrição seletiva mostraram-se hotspots importantes para mudanças que podem impactar na capacidade de interação das proteínas. Encontramos que os maiores valores de w são mais prevalentes em regiões desordenadas que em ordenadas. Ainda, alto e similar valor de desordem (70%) foi encontrado nas 77 proteínas ortólogas de FOXPl , FOXP2, e FOXP4, indicando a manutenção de um "padrão geral" sobre um longo tempo evolutivo. Portanto, a variabilidade tanto de aminoácidos quanto de motivos lineares dentro das regiões de desordem foi marcante. A proteína FOXP3 apresentou menor nível de desordem (30%), mas signif icante sinal de seleção positiva em alguns sítios. Composição idênt ica de resíduo de aminoácido e/ou motivos lineares em espécies filogeneticamente distantes, indica clara convergência molecular, provavelmente associada a pressões seletivas similares. Sucessivamente, nossos achados mostraram uma clara diferença na composição de motivos lineares entre mamíferos e não mamíferos, dando suporte para a importância dos estudos de evolução da interatividade proteica para as compreensões de características taxa-específicas. / Forkhead Family P (FOXP) has been target of many studies about brain and behavior evo lution among species. FOXP2 receives special attention in academic society, due associations with vocalízation evolution in mammals, including Homo sapiens. Recently, intrinsically disorder proteins studies have gained emphasis in the evolutionary context, as positive correlation between disorder regions and higher evolutionary rate has been observed. Through a set of approaches, including disorder and linear motif predictions, as well as estimate evolutionary rates, we aimed to unveil the evolutionary history of FOXP subfamily genes. We focused our ana lysis over disordered regions of FOXPl, FOXP2, FOXP3 and FOXP4 proteins retrieved in 77 tetrapods. Such protein regions are usually neglected in studies of this nature, for being localized out of the traditional conserved domains, usua lly associated with the main function of the protein. Sites indicated as under relaxation of selective constrains or positive selection have shown to be important hotspots for changes that can impact in protein interaction capability. Higher w va lues are prevalent in disordered regions than in ordered ones. Still, high and similar disorder proportion (~70%) was found among 77 orthologues proteins of FOXPl, FOXP2 and FOXP4, indicating general pattern of disorder maintenance, along tetrapod's evolutionary tree. However, amino acid and linear motifs variability within disordered regions was observed. FOXP3 protein presented lower disorder leveis (~30%), when compared with other paralogues, but signal of positive selection was observed in some sites. ldentical composition of amino acid residues and/or linear motifs is, probably, associated with similar selective pressure. Successively, ou r results showed clear differences in linear motif composition between mammals and non-mammals, supporting the importance of evolutionary studies on protein interaction for the understanding of taxa-specifics characteristics.

Evolução molecular

Tetrapodes

lntrinsica lly disordered protein

Molecular evolution

Linear motifs

Forkhead domain

FOXP gene family

História evolutiva da subfamília FOXP : análise evolutiva molecular e estrutural em tetrápodes

Viscardi, Lucas Henriques

January 2015

A família gênica Forkhead P {FOXP) tem sido alvo de muitos estudos envolvendo evolução do cérebro e comportamento animal. Destacam-se particularmente as investigações com o gene FOXP2, que indicam que mudanças neste gene estariam associadas com a evolução da vocalização em algumas espécies de mamíferos, incluindo o Homo sapiens. Recentemente, estudos de desordem intrínseca de proteínas (IDPs) tem ganhado ênfase no contexto evolut ivo, visto que uma correlação posit iva entre regiões de desordem e altas taxas evolutivas tem sido observada. Através de um conjunto de abordagens que inclui predizer o conteúdo de desordem e os motivos lineares de interação, bem como as taxas evolutivas, buscamos desvendar a historia evolutiva dos genes da subfamília FOXP. Concentramos nossas análises sobre regiões desordenadas das proteínas FOXPl, FOXP2, FOXP3 e FOXP4 encontradas em 77 espécies de tetrápodes. Tais regiões proteicas são normalmente negligenciadas em estudos dessa natureza, pois se localizam fora de seus tra dicionais domínios conservados, normalmente associados à função principal da proteína. Sít ios apontados estando sob seleção positiva e relaxamento da restrição seletiva mostraram-se hotspots importantes para mudanças que podem impactar na capacidade de interação das proteínas. Encontramos que os maiores valores de w são mais prevalentes em regiões desordenadas que em ordenadas. Ainda, alto e similar valor de desordem (70%) foi encontrado nas 77 proteínas ortólogas de FOXPl , FOXP2, e FOXP4, indicando a manutenção de um "padrão geral" sobre um longo tempo evolutivo. Portanto, a variabilidade tanto de aminoácidos quanto de motivos lineares dentro das regiões de desordem foi marcante. A proteína FOXP3 apresentou menor nível de desordem (30%), mas signif icante sinal de seleção positiva em alguns sítios. Composição idênt ica de resíduo de aminoácido e/ou motivos lineares em espécies filogeneticamente distantes, indica clara convergência molecular, provavelmente associada a pressões seletivas similares. Sucessivamente, nossos achados mostraram uma clara diferença na composição de motivos lineares entre mamíferos e não mamíferos, dando suporte para a importância dos estudos de evolução da interatividade proteica para as compreensões de características taxa-específicas. / Forkhead Family P (FOXP) has been target of many studies about brain and behavior evo lution among species. FOXP2 receives special attention in academic society, due associations with vocalízation evolution in mammals, including Homo sapiens. Recently, intrinsically disorder proteins studies have gained emphasis in the evolutionary context, as positive correlation between disorder regions and higher evolutionary rate has been observed. Through a set of approaches, including disorder and linear motif predictions, as well as estimate evolutionary rates, we aimed to unveil the evolutionary history of FOXP subfamily genes. We focused our ana lysis over disordered regions of FOXPl, FOXP2, FOXP3 and FOXP4 proteins retrieved in 77 tetrapods. Such protein regions are usually neglected in studies of this nature, for being localized out of the traditional conserved domains, usua lly associated with the main function of the protein. Sites indicated as under relaxation of selective constrains or positive selection have shown to be important hotspots for changes that can impact in protein interaction capability. Higher w va lues are prevalent in disordered regions than in ordered ones. Still, high and similar disorder proportion (~70%) was found among 77 orthologues proteins of FOXPl, FOXP2 and FOXP4, indicating general pattern of disorder maintenance, along tetrapod's evolutionary tree. However, amino acid and linear motifs variability within disordered regions was observed. FOXP3 protein presented lower disorder leveis (~30%), when compared with other paralogues, but signal of positive selection was observed in some sites. ldentical composition of amino acid residues and/or linear motifs is, probably, associated with similar selective pressure. Successively, ou r results showed clear differences in linear motif composition between mammals and non-mammals, supporting the importance of evolutionary studies on protein interaction for the understanding of taxa-specifics characteristics.

Evolução molecular

Tetrapodes

lntrinsica lly disordered protein

Molecular evolution

Linear motifs

Forkhead domain

FOXP gene family

Detection and Analysis of Novel Microproteins in the Human Heart based on Protein Evidence, Conservation, Subcellular Localization, and Interacting Proteins

Schulz, Jana Felicitas

03 March 2023

Kürzlich wurde mithilfe von Ribo-seq Experimenten die Translation hunderter Mikroproteine in menschlichen Herzen entdeckt. Diese blieben zuvor aufgrund ihrer geringen Größe (< 100 Aminosäuren) unentdeckt, und ihre physiologische Rolle ist noch weitgehend unbekannt. Ziel dieser Promotionsarbeit ist es, potentielle Funktionen dieser neuartigen Mikroproteine zu entschlüsseln. Dabei sollen insbesondere die Aufklärung ihrer evolutionären Konservierungssignatur, subzellulären Lokalisierung und ihres Proteininteraktoms helfen. Die Konservierungsanalyse ergab, dass fast 90% der Mikroproteine nur in Primaten konserviert ist. Weiterhin konnte ich die Produktion von Mikroproteine in vitro und in vivo nachweisen, die subzelluläre Lokalisierung von 92 Mikroproteinen definieren, und Interaktionspartner für 60 Mikroproteine identifizieren. Dutzende dieser Mikroproteine lokalisieren in Mitochondrien. Dazu gehörte ein im Herzen angereichertes Mikroprotein, das aufgrund der Interaktions- und Lokalisationsdaten einen neuartigen Modulator der mitochondrialen Proteintranslation darstellen könnte. Der Interaktom-Screen zeigte außerdem, dass evolutionär junge Mikroproteine ähnliche Interaktionsfähigkeiten wie konservierte Kandidaten haben. Schließlich wurden kurze Sequenzmotive identifiziert, die Mikroprotein-Protein-Wechselwirkungen vermitteln, wodurch junge Mikroproteine mit zellulären Prozessen – wie z.B. Endozytose und Spleißen – in Verbindung gebracht werden konnten. Zusammenfassend wurde die Produktion vieler kleiner Proteine im menschlichen Herzen bestätigt, von denen die meisten lediglich in Primaten konserviert sind. Zusätzlich verknüpften umfangreiche Lokalisierungs- und Interaktionsdaten mehrere Mikroproteine mit Prozessen wie Spleißen, Endozytose und mitochondrialer Translation. Weitere Untersuchungen dieses zuvor verborgenen Teils des Herzproteoms werden zu einem besseren Verständnis von evolutionär jungen Proteinen und kardiologischen Prozessen beitragen. / Recently, the active translation of hundreds of previously unknown microproteins was detected using ribosome profiling on tissues of human hearts. They had remained undetected due to their small size (< 100 amino acids), and their physiological roles are still largely unknown. This dissertation aims to investigate these novel microproteins and validate their translation by independent methods. Particularly, elucidating their conservation signature, subcellular localization, and protein interactome shall aid in deciphering their potential biological role. Conservation analysis revealed that sequence conservation of almost 90% of microproteins was restricted to primates. I next confirmed microprotein production in vitro and in vivo by in vitro translation assays and mass spectrometry-based approaches, defined the subcellular localization of 92 microproteins, and identified significant interaction partners for 60 candidates. Dozens of these microproteins localized to the mitochondrion. These included a novel cardiac-enriched microprotein that may present a novel modulator of mitochondrial protein translation based on its interaction profile and subcellular localization. The interactome screen further revealed that evolutionarily young microproteins have similar interaction capacities to conserved candidates. Finally, it allowed identifying short linear motifs that may mediate microprotein-protein interactions and implicated several young microproteins in distinct cellular processes such as endocytosis and splicing. I conclude that many novel small proteins are produced in the human heart, most of which exhibit poor sequence conservation. I provide a substantial resource of microprotein localization and interaction data that links several to cellular processes such as splicing, endocytosis, and mitochondrial translation. Further investigation into this hidden part of the cardiac proteome will contribute to our understanding of recently evolved proteins and heart biology.

Mikroproteine

Ribosomen Profiling

Proteinevolution

Proteininteraktom

Herzversagen

lncRNAs

Proteintranslation

Microproteins

Short open reading frame (sORF)

Ribosome profiling

lncRNAs

sORF-encoded peptides

dilated cardiomyopathy

ORF detection

human heart

translatome

heart failure

de novo genes

protein evolution

PRISMA

short linear motifs (SLiMs)

protein interactome

primate-specific proteins

576 Genetik und Evolution

570 Biologie

ddc:576

ddc:570