Estudo do envolvimento da proteína colibistina no controle do início da tradução / Study of the involvement of collybistin in the control of translation initiation

Machado, Camila de Oliveira Freitas

11 August 2014

A proteína colibistina (CB), uma Rho GEF neuro-especifica, apresenta papel importante na formação e funcionamento das sinapses inibitórias do sistema nervoso central por interagir com a proteína scaffold gefirina e com receptores GABAA e promover o agrupamento e transporte dessas proteínas para a membrana pós-sináptica. Recentemente, nosso grupo de pesquisa identificou interação de CB com um complexo proteico que controla o início da tradução em eucariotos (complexo eIF3), o que sugeriu pela primeira vez que essa proteína pode estar envolvida também na regulação da tradução em células neurais. Ainda, já havia sido descrito que gefirina, parceira funcional de CB, interage com mTOR, uma quinase que desempenha papel fundamental no controle do início da tradução. Contudo, até o momento não havia estudos adicionais investigando o papel de CB neste cenário. Assim sendo, o presente trabalho teve como objetivo investigar o envolvimento da proteína CB no controle do início da síntese proteica mediada pela via de sinalização mTORC1. Foram utilizados dois modelos experimentais: i) um sistema de expressão heteróloga - superexpressão de CB em células HEK293T, e ii) um modelo endógeno de expressão - células neuroprogenitoras derivadas de células-tronco pluripotentes induzidas (iNPCs) provenientes de indivíduos controles e de um paciente com deleção no gene da CB. Por meio de experimentos de coimunoprecipação nós verificamos que CB interage fisicamente com mTOR nos dois modelos experimentais utilizados. Ainda, nossos resultados mostraram que CB parece modular a atividade da via mTORC1, e nas iNPCs derivadas do paciente a ausência de CB leva a um aumento na ativação desta via de sinalização. Em concordância com esses resultados, nós observamos aumento em neo-síntese proteica nas iNPCs provenientes do paciente, o que pode ser um mecanismo patofisiológico contribuindo para as alterações cognitivas e comportamentais observadas no paciente. Embora estudos adicionais sejam necessários para melhor entender os mecanismos moleculares deste controle de início de tradução mediado por CB, nós sugerimos um modelo no qual CB, por interagir fisicamente com mTOR e eIF3, sequestra estas proteínas e impede que mTOR ative seus alvos e desencadeie a formação do complexo de inicio de tradução. Em conclusão, nossos resultados oferecem novas evidências do envolvimento de CB no controle da síntese proteica / Collybistin (CB), a neural specific RhoGEF, plays key roles in inhibitory synapse formation and function that cluster and localize the scaffold protein gephyrin and GABAA receptors to the neural postsynaptic membrane. We have recently reported that CB interacts with a protein complex that controls translation initiation in eukaryotic cells (eIF3 complex), which suggested for the first time that this protein may also act as regulator of protein synthesis in neural cells. Moreover, it has been previously described that gephyrin, the CB functional partner, interacts with mTOR, a kinase that plays a pivotal role in the control of translation initiation. However, until now there were no further studies investigating the role of CB in this scenario. The purpose of this study was to investigate if CB is involved in the control of translational initiation mediated by the mTORC1 signaling pathway. Two experimental models were used: i) a heterologous expression system - overexpression of CB in HEK293T cells, and ii) an endogenous expression model - neural progenitor cells derived from induced pluripotent stem cells (iNPCs) from control individuals and a patient with a deletion of the entire CB gene. We performed coimmunoprecipitation experiments and verified that CB physically interacts with mTOR both in 293T cells and in control iNPCs. In addition, our results show that CB appears to modulate the activity of mTORC1 pathway, and the absence of CB leads to increased mTORC1 signaling activation in patient\' iNPCs. In agreement with these results, we observed increased de novo cap-dependent translation in patient cells, which could be a pathophysiological mechanism contributing to cognitive and behavioral abnormalities observed in the patient. Although further studies are needed to better understand the molecular details of CB-mediated translational control, we suggest a model whereby CB, by physically interacting with mTOR and eIF3, sequesters these proteins, thereby preventing both the ability of mTOR to activate its targets and the formation of the translational initiation complex. In conclusion, our results offer new insights into the role of CB in protein synthesis control

Colibistina

Collybistin

mTOR signalling

Protein synthesis

Sinalização mTOR

Síntese proteica

Understanding the biochemical alterations in cancer cells chronically treated with PI3K/mTOR inhibitors

Dermit, Maria

January 2017

The PI3K/mTOR signalling pathway plays a major role in biology and disease. Therefore, effective inhibitors that target proteins of this pathway have been developed. However, acquired resistance of cancer cells is a prevalent phenomenon that limits the durable response of these compounds. It is becoming apparent that experimental approaches for comprehensive biochemical analysis contribute to understand the complex mechanisms that confer drug resistance, and advances in largescale technologies including genomic sequencing and proteomics allow unprecedented molecular coverage without being biased for specific genes/cellular pathways. Initially, the phenotypic response of sensitive and resistant cells to the absence or presence of a PI3K inhibitor (PI3Ki), as well as other kinases, was examined. This study revealed that PI3Ki-resistant cells experience extensive phenotypic changes upon withdrawal of the PI3Ki from the culture media. The regulation of the proteome and phosphoproteome of sensitive and PI3Ki-resistant cells grown with or without the PI3Ki was analysed by shotgun mass spectrometry-based label-free quantitative technology. This analysis demonstrated that the proteomes and phosphoproteomes of drug-resistant cells are remodelled conditional to the presence of PI3Ki, and that the levels of enzymes with metabolic roles are modulated in resistant cells. Functional analysis of the metabolism of cells capable to survive in absence of PI3K/mTOR activity demonstrated that the bioenergetic activity of these cells is contingent on the presence of the selection drug. The complete set of protein-coding regions of the genome (exome) of sensitive and PI3Ki-resistant cells was then sequenced. This study unveiled common alterations in exome regions across PI3Kiresistant cell lines, as well as a degree of genomic heterogeneity between them. Lastly, the impact of lactic acid, a metabolic product, on a defined signalling network of the MCF7 breast cancer cell line was analysed. This study described the capacity of this metabolite to change the activity of signalling network branches.

Estudo do envolvimento da proteína colibistina no controle do início da tradução / Study of the involvement of collybistin in the control of translation initiation

Camila de Oliveira Freitas Machado

11 August 2014

A proteína colibistina (CB), uma Rho GEF neuro-especifica, apresenta papel importante na formação e funcionamento das sinapses inibitórias do sistema nervoso central por interagir com a proteína scaffold gefirina e com receptores GABAA e promover o agrupamento e transporte dessas proteínas para a membrana pós-sináptica. Recentemente, nosso grupo de pesquisa identificou interação de CB com um complexo proteico que controla o início da tradução em eucariotos (complexo eIF3), o que sugeriu pela primeira vez que essa proteína pode estar envolvida também na regulação da tradução em células neurais. Ainda, já havia sido descrito que gefirina, parceira funcional de CB, interage com mTOR, uma quinase que desempenha papel fundamental no controle do início da tradução. Contudo, até o momento não havia estudos adicionais investigando o papel de CB neste cenário. Assim sendo, o presente trabalho teve como objetivo investigar o envolvimento da proteína CB no controle do início da síntese proteica mediada pela via de sinalização mTORC1. Foram utilizados dois modelos experimentais: i) um sistema de expressão heteróloga - superexpressão de CB em células HEK293T, e ii) um modelo endógeno de expressão - células neuroprogenitoras derivadas de células-tronco pluripotentes induzidas (iNPCs) provenientes de indivíduos controles e de um paciente com deleção no gene da CB. Por meio de experimentos de coimunoprecipação nós verificamos que CB interage fisicamente com mTOR nos dois modelos experimentais utilizados. Ainda, nossos resultados mostraram que CB parece modular a atividade da via mTORC1, e nas iNPCs derivadas do paciente a ausência de CB leva a um aumento na ativação desta via de sinalização. Em concordância com esses resultados, nós observamos aumento em neo-síntese proteica nas iNPCs provenientes do paciente, o que pode ser um mecanismo patofisiológico contribuindo para as alterações cognitivas e comportamentais observadas no paciente. Embora estudos adicionais sejam necessários para melhor entender os mecanismos moleculares deste controle de início de tradução mediado por CB, nós sugerimos um modelo no qual CB, por interagir fisicamente com mTOR e eIF3, sequestra estas proteínas e impede que mTOR ative seus alvos e desencadeie a formação do complexo de inicio de tradução. Em conclusão, nossos resultados oferecem novas evidências do envolvimento de CB no controle da síntese proteica / Collybistin (CB), a neural specific RhoGEF, plays key roles in inhibitory synapse formation and function that cluster and localize the scaffold protein gephyrin and GABAA receptors to the neural postsynaptic membrane. We have recently reported that CB interacts with a protein complex that controls translation initiation in eukaryotic cells (eIF3 complex), which suggested for the first time that this protein may also act as regulator of protein synthesis in neural cells. Moreover, it has been previously described that gephyrin, the CB functional partner, interacts with mTOR, a kinase that plays a pivotal role in the control of translation initiation. However, until now there were no further studies investigating the role of CB in this scenario. The purpose of this study was to investigate if CB is involved in the control of translational initiation mediated by the mTORC1 signaling pathway. Two experimental models were used: i) a heterologous expression system - overexpression of CB in HEK293T cells, and ii) an endogenous expression model - neural progenitor cells derived from induced pluripotent stem cells (iNPCs) from control individuals and a patient with a deletion of the entire CB gene. We performed coimmunoprecipitation experiments and verified that CB physically interacts with mTOR both in 293T cells and in control iNPCs. In addition, our results show that CB appears to modulate the activity of mTORC1 pathway, and the absence of CB leads to increased mTORC1 signaling activation in patient\' iNPCs. In agreement with these results, we observed increased de novo cap-dependent translation in patient cells, which could be a pathophysiological mechanism contributing to cognitive and behavioral abnormalities observed in the patient. Although further studies are needed to better understand the molecular details of CB-mediated translational control, we suggest a model whereby CB, by physically interacting with mTOR and eIF3, sequesters these proteins, thereby preventing both the ability of mTOR to activate its targets and the formation of the translational initiation complex. In conclusion, our results offer new insights into the role of CB in protein synthesis control

Colibistina

Sinalização mTOR

Síntese proteica

Collybistin

mTOR signalling

Protein synthesis

Convergence of MTOR and glucocorticoid receptor signalling in the human placenta : effects of pre-term labour, nutrition and maternal stress

Mparmpakas, Dionisis G.

January 2011

A vital factor for foetal development is the nutrient transport at placental level. This is because any disturbances in the maternal compartments, for example due to maternal stress or nutritional status, which will affect foetal development, will involve the foetal-placental barrier. Moreover, numerous studies have linked other factors such as preterm labour as the leading cause of perinatal morbidity and mortality in the developed world. To this date, despite a numerous epidemiological and clinical studies that identify potential risk factors for the mother as well as the foetus, there is no comprehensive analysis at all these levels taken from the same cohort of patients. Our working hypothesis is that for a successful pregnancy certain events at nutritional, biochemical, genetic and molecular level could be tightly linked. Therefore, in this study we followed a “holistic” approach investigating how maternal stress, nutrition, placental mTOR and glucocorticoid receptor (GR) signalling can influence pregnancy outcome. We have decided to map in detail the components of these two signalling pathways as they appear to cross-talk as well as been implicated in stress responses. The largest part of the questionnaire was focused on the nutritional status with questions targeting the maternal dietary habits before, as well as during, pregnancy. The collection of data took place at the Department of Obstetrics and Gynecology, University of Crete Medical School. With regards to this profile, key findings included the significant reduction in the intake of alcohol, caffeine-containing and sugar-containing refreshments, whereas passive smoking during pregnancy stayed the same. Another major finding of this part of the study was the effects of maternal stress on foetal weight and how pregnancy planning was implicated in this complex relation. In our cohort, women with negative attitudes during pregnancy gave birth to infants with significantly lower birth weights (2.5Kg) than those women showing positive or neutral attitudes towards their pregnancy (2.9Kg). We then assessed how maternal stress might affect this signalling cascade using two placental models (BeWo and JEG-3 cell lines) mimicking a stress milieu in vitro. Treatment of these cell lines with cortisol (100nM and 1000nM) significantly downregulated Deptor and upregulated GAS5 at mRNA level. In an attempt to dissect further a potential gene-environment interaction, we have assessed how 4 well-characterised polymorphisms (ThtIII 1, Bcl I, ER22/23EK, N363S) of the GR gene might affect foetal and placental weight. We have demonstrated that only the maternal ThtIII 1 polymorphism was suggestive of a nature-nurture interaction since only in ThtIII 1 II (CC), maternal stress attitude predicts foetal weight-reduction, but not in ThtIII 1 (GC) independent of confounders such as BMI, pregnancy planning or fast food eating during pregnancy. This is the first time that a gene-environment interaction between a common GR polymorphism and foetal weight was noted. Finally, one of the most important findings of our study came from the preclinical studies using placental tissues. Quantitative PCR revealed that the major transcripts in the human placenta are GRα, GAS5 (decoy for GR DNA binding) and Deptor. We have shown for first time that there are marked differences in the relative mRNA abundance of these components between term and preterm labour as well as colocalisation of GRα with GAS5. With regards to placental regulation these data conclusively demonstrate that: a) there is evidence of gene-environment interaction between maternal stress, pregnancy planning, glucocorticoid receptor polymorphisms and foetal weight and b) potential cross-talk of mTOR and glucocorticoid signalling. We propose that measuring maternal stress levels in addition to circulating cortisol and mapping for known GR polymorphisms could become a useful non-invasive tool of diagnostic and prognostic value, with implications for preterm labour.

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