Characterization of a functional role of the neurokinin-3 receptor in behavioral effects of cocaine

Nwaneshiudu, Chinwe A.

January 2011

The tachykinin NK-3 receptor is a G-protein coupled receptor activated by mammalian tachykinin neuropeptides, which can modulate dopaminergic neurotransmission, and alter dopamine-mediated behaviors. The NK-3 receptor is currently under investigation as a novel therapeutic target for cocaine addiction. Our studies, as outlined in this dissertation, sought to determine if NK-3 receptors have a functional role in the acute as well as long-term behavioral effects of cocaine. Administration of NK-3 receptor agonists or antagonists potentiates or attenuates dopamine-mediated behaviors, respectively. Based on these findings, we hypothesized that blockade of neurokinin-3 receptors would alter acute and long-term behavioral responses to cocaine. We investigated whether acute and repeated administration of the NK-3 receptor antagonist SB 222200 altered hyperactivity induced by cocaine, and determined a possible mechanism involving dopamine D1 receptors in the striatum. We also determined whether NK-3 receptor blockade altered the development and expression of behavioral sensitization after repeated cocaine administration. Lastly, we investigated whether modulation of behavioral effects of acute and repeated cocaine by NK-3 receptors involved GSK3 phosphorylation in the nucleus accumbens. As described in this dissertation, we show that acute administration of the NK-3 receptor antagonist SB 222200 before a cocaine injection attenuated stereotypic responses produced by cocaine. Repeated administration of SB 222200 enhanced stereotypic activity produced by either cocaine or a low dose of SKF 82958 (0.125 mg/kg, i.p.) when administered seven days later. Dopamine receptor binding studies were performed to determine the mechanism of enhanced stereotypic responses. Binding studies showed a 19.7% increase in dopamine D1 receptor density in the striatum seven days later after repeated SB 222200 administration. These findings demonstrate that acute blockade of NK-3 receptors attenuated cocaine-induced behaviors in agreement with previous studies. Furthermore, these studies also show novel effects of repeated blockade of NK-3 receptors, which causes subsequent enhancement of cocaine and dopamine D1 receptor-mediated behaviors, possibly resulting from dopamine D1 receptor up-regulation in the striatum. In order to determine a role of NK-3 receptors in the development of cocaine-induced behavioral sensitization, the NK-3 receptor antagonist SB 222200 (2.5 or 5 mg/kg, s.c.) was administered prior to daily cocaine injections for 5 days. After a 7-day drug-free period, behavioral responses to a cocaine challenge were measured. Repeated administration of cocaine for 5 days induced a sensitized response upon a cocaine challenge 7 days later. Administration of SB 222200 prior to daily cocaine attenuated the development of behavioral sensitization. Moreover, administration of SB 222200 prior to the cocaine challenge blocked the expression of behavioral sensitization. These findings demonstrate that NK-3 receptor activity is involved in the development and expression of behavioral sensitization to cocaine. Lastly, we examined GSK3 phosphorylation in the nucleus accumbens induced by acute and repeated cocaine administration and determined if phosphorylation was altered by NK-3 receptor blockade. Similar to the drug administration regimens used in the behavioral studies, the NK-3 receptor antagonist SB 222200 was administered 30 mins prior to an acute cocaine injection. The nucleus accumbens was examined for changes in GSK3 phosphorylation by Western blot analysis. Increases in phosphorylation of the isoforms, GSK3α and GSK3β in the nucleus accumbens were detected 20 mins after an acute injection of cocaine. NK-3 receptor blockade prior to cocaine administration did not alter the cocaine-induced increase in GSK3 phosphorylation. Similar to the behavioral sensitization studies, SB 222200 was administered prior to repeated cocaine for 5 days, and 7 days later GSK3 phosphorylation was measured after a subsequent cocaine challenge. In contrast to the increases in GSK3α and GSK3β in the nucleus accumbens after an acute cocaine injection, no regulation of GSK3 phosphorylation was found after prior repeated cocaine administration and cocaine challenge. Administration of SB 222200 prior to repeated cocaine produced an increase in GSK3α and GSK3β phosphorylation after a cocaine challenge. Collectively, these data point to involvement of NK-3 receptor activity in changes in the phosphorylation of GSK3 in the nucleus accumbens produced by cocaine. In summary, functional involvement of NK-3 receptors in acute and long-term behavioral effects of cocaine was investigated. In agreement with previous findings, studies in this dissertation demonstrate that acute blockade of NK-3 receptors attenuates cocaine-induced behaviors. In addition, we found novel effects of repeated blockade of NK-3 receptors on cocaine-induced hyperactivity. There is enhancement of subsequent cocaine and dopamine D1 receptor-mediated behaviors possibly due to dopamine D1 receptor up-regulation in the striatum. NK-3 receptor activity was shown to be involved in long-term behavioral effects of cocaine and molecular changes in GSK3 phosphorylation in the nucleus accumbens. Blockade of NK-3 receptors prevented the development and expression of behavioral sensitization to cocaine and also blocked the changes in the phosphorylation of GSK3 in the nucleus accumbens. This dissertation has demonstrated a role of NK-3 receptors in modulating acute as well long-term cocaine-induced behavioral hyperactivity. Therefore, there is potential clinical relevance of NK-3 receptors in cocaine abuse and dependence as a therapeutic target for treatment, which warrants further characterization in future preclinical and clinical investigations. / Pharmacology

Health Sciences, Pharmacology

Behavioral Sciences

Biology, Neuroscience

Cd-1

Cocaine

Dopamine

Gsk3

Nk-3

Striatum

Alterações Genéticas e Epigenéticas dos Genes do Complexo de Destruição de β-Catenina e Perfil Transcricional dos Componentes da Via de Sinalização Wnt no Câncer de Mama / Genetics and Epigenetics Disturbances of β-Catenin Destruction Complex and Transcriptional Profile of Wnt Signaling Components in Breast Cancer

Aristizábal Pachón, Andrés Felipe

22 May 2015

O câncer de mama é a neoplasia responsável pelo maior número de mortes em mulheres no Brasil, portanto, é importante encontrar novos marcadores específicos e de diagnóstico precoce, utilizando procedimentos simples e rápidos. A via de sinalização Wnt regula importantes funções celulares como proliferação, sobrevida e adesão. Esta via está associada com os processos de iniciação e progressão em muitos tipos tumorais, como câncer de cólon familiar, melanoma e pulmão; sendo que mutações em β-Catenina (CTNNb1) explicam só 30% dos casos de sinalização aberrante encontrada no câncer de mama, indicando que existem outros componentes e/ou reguladores da via que possam estar envolvidos. O objetivo deste trabalho foi avaliar as variantes genéticas e epigenéticas nos genes do complexo de degradação de β-Catenina num grupo de pacientes com câncer de mama e num grupo controle; e determinar os perfis de transcrição dos componentes da via de sinalização Wnt e da molécula de expressão exclusiva do epitélio mamário, a Mamaglobina Humana (MGA), assim como associar estes resultados com as características clínicas, histológicas e patológicas do tumor. Para atingir este objetivo foram coletadas amostras de sangue periférico de 102 mulheres com câncer de mama e 102 mulheres sadias como grupo controle. A avaliação das variantes rs465899 do gene APC, rs2240308 e rs151279728 do gene AXIN2, rs5030625 do gene CDH1 e rs334558 do gene GSK3, foi realizada por meio de PCR-RFLPs e sequenciamento, a análise dos perfis de metilação dos promotores pela MS-PCR. A RT-qPCR foi usada para determinar os níveis de expressão dos componentes da via e a MGA. As variantes rs2240308 e rs151279728 do gene AXIN2 mostraram uma forte associação com o risco de desenvolver o câncer de mama. Um aumento significativo foi observado no nível de expressão de AXIN2 no grupo de mulheres com câncer de mama. Análises adicionais mostraram perfis de expressão diferencial dos genes APC, AXIN2, CTNNB1, GSK3 e CSNK1A1 associado ao status dos receptores hormonais e histogênese tumoral. MGA foi identificado exclusivamente em 38% dos pacientes com câncer de mama e foi associada com a progressão da doença. Este é o primeiro estudo que relaciona uma variante do gene AXIN2 com o câncer de mama na população brasileira. As variantes avaliadas do gene AXIN2 são marcadores promissores de susceptibilidade ao câncer de mama na população estudada, sendo importante, a avaliação desta variante genética na população e determinar o seu real efeito no processo de iniciação e/ou progressão do câncer de mama. / Background: Wnt/β-catenin signaling pathway is an important regulator of cellular functions such as proliferation, survival and cell adhesion. This pathway is associated with tumor initiation and progression; -catenin (CTNNB1) mutations explains only 30% of aberrant signaling found in breast cancer, indicating that other components and/or regulating of the Wnt/β-catenin pathway may be involved. Objective: The objective of the study was to evaluate the APC rs465899, AXIN2 rs2240308 and rs151279728, CDH1 rs5030625 and GSK3 rs334558 polymorphisms, APC, AXIN2, CDH1 and GSK3 promoter methylation status and expression profile of -Catenin destruction complex genes and MGA in peripheral blood of breast cancer patients. Methods: We collected peripheral blood samples from 102 breast cancer and 102 healthy subjects. The identification of the mutation was performed using PCR-RFLPs and DNA sequencing. MSP and HRM-MS was used to measure promoter methylation and RT-qPCR to determine expression profile. Results: We found significant association of AXIN2 rs2240308 polymorphism with breast cancer. Increased risk was observed even after stratification based on clinicpathological characteristics. AXIN2 rs151279728 polymorphism was found only in 9 breast cancer patients, but none in control group subject. APC and CDH1 polymorphisms were not associated with breast cancer. GSK3 polymorphism was weak associated with breast cancer and heterozygous status was associated with breast cancer protection after group stratification. APC and CDH1 promoter methylation in breast cancer patients was found. Significant increase was observed in AXIN2, CTNNB1 and GSK3 level expression in breast cancer patients. APC was down-regulated in breast cancer patients. Further analyses, showed APC, AXIN2, CTNNB1, GSK3 and CSKN1A1 gene expression associated to receptor status and histological type. MGA was found only in breast cancer patients and was associated with cancer progression. Conclusion: The present study reports, for the first time, that AXIN2 genetic defect and -catenin destruction complex expression disturbance may be found in breast cancer patients, providing additional support to the role of Wnt/-catenin pathway dysfunction in breast cancer tumorigenesis. However, the functional consequence of this genetic alteration remains to be determined. In another hand MGA was determined like a good biomarker for diagnosis and prognosis outcome.

β-Catenin destruction complex

APC

APC

AXIN2

AXIN2

Breast cancer

Câncer de mama

CDH1

CDH1

GSK3

GSK3

MS-PCR

MS-PCR

PCR-RFLPs

PCR-RFLPs

RTqPCR

RTqPCR.

Via de sinalização Wnt

Wnt signaling

Análise da via Wnt e seu envolvimento no processo da tumorigênese do câncer colo-retal / Analysis of the Wnt pathway and its involvement in colorectal cancer tumorigenesis

Flávia Castello Branco Vidal

08 April 2010

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O câncer colo-retal (CCR) representa o quarto tipo de câncer mais freqüente no Brasil entre homens e mulheres e a sobrevida para esse tipo de neoplasia é considerada boa, se a doença for diagnosticada em estádio inicial. Neste tipo de câncer a progressão do adenoma (tumor benigno) para o adenocarcinoma (tumor maligno) é dependente do acúmulo de mutações em diversos oncogenes e genes supressores de tumor. Estas mutações podem levar a alterações de importantes vias de sinalização que controlam estes eventos como, por exemplo, as vias Wnt e EGFR. No entanto, os mecanismos moleculares e celulares mediados por estas vias durante a progressão do CCR permanecem por serem definidos. Neste trabalho foi avaliada a participação da via Wnt e do EGFR durante a progressão do CCR usando células Caco-2, uma linhagem celular derivada de adenocarcinoma de cólon humano como modelo. As células foram tratadas com EGF, ativador da via EGFR, e cloreto de lítio (LiCl), um conhecido inibidor da enzima GSK-3β e conseqüentemente, ativador da via Wnt, ou alternativamente com a combinação de ambas drogas. Após os tratamentos, foi avaliada a morfologia celular, localização e expressão de proteínas juncionais, os padrões proliferativos e do ciclo celular e o potencial tumorigênico (migração e formação de colônias). Nossos resultados mostram que a localização subcelular das proteínas juncionais claudina-1 e β-catenina foi alterada após tratamento com EGF e LiCl, porém a expressão não foi afetada. A localização nuclear de β-catenina, um marcador da ativação da via Wnt, foi observada após tratamento com ambos os compostos, no entanto estes agentes modularam a enzima GSK-3β de forma diferencial. Além disso, tratamento com EGF aumentou a capacidade proliferativa e migratória da célula, mas não alterou a formação de colônias. LiCl, apesar de ser um conhecido ativador da via Wnt, inibiu o aumento da proliferação e migração causado pelo EGF, como visto pelo tratamento das células com EGF+LiCl, e reduziu a formação de colônias. Nossos resultados revelaram que LiCl possui uma atividade supressora de tumor o que pode representar um novo papel para este composto como um possível agente terapêutico para o tratamento do CCR. / Colorectal cancer (CCR) represents the fourth type of cancer most common in Brazil among men and women and the survival for this tumor type is considered good if the disease is diagnosed at early stage. The progression of an adenoma (benign tumor) to an adenocarcinoma (malign tumor) is dependent on the accumulation of mutations in a variety of oncogenes and tumors suppressors genes. These mutations can lead to alterations of important cell signaling pathways that control these events, such as Wnt e EGFR. However, the molecular and cellular mechanisms mediated by these pathways during CCR progression remain to be defined. In the present study we assesses the role that Wnt and EGFR pathway play during CCR progression using Caco-2 cells, a human cell line derived of colorectal cancer, as a model. Cells were treated with EGF, an EGFR pathway activator, and lithium chloride, (LiCl) a known inhibitor of the enzyme GSK-3β and, therefore a Wnt pathway activator or alternatively by using combination of both drugs. After treatments, we monitored cell morphology, localization and expression of junctional proteins, proliferative and cell cycle patterns, and the tumorigenic potential (cell migration and colony formation). We show that subcellular localization of the junctional proteins claudin-1 and β-catenin was altered after treatment with EGF and LiCl, however the expression were not affected. Nuclear localization of β-catenin, a marker of Wnt pathway activation, was observed after treatment with both compounds, however these agents modulated in a differential fashion the enzyme GSK-3β. Furthermore, EGF treatment increased the proliferative and migratory capacity of the cells, but did not alter colony formation potential. LiCl, despite being a known activator of the Wnt pathway, inhibited the increase of proliferation and migration caused by EGF, as demonstrated by the cell treatments with EGF+LiCl, and reduced the cell colony formation. Our results reveal that LiCl present a suppressor tumor activity, which may represent a new role for this compound as potential therapeutic agent in the CCR treatment.

Câncer colo-retal

Via Wnt

EGFR

GSK3-&#946

β-catenina

Claudina-1

Progressão tumoral

Colorectal cancer

Wnt/β-catenin pathway

EGFR

GSK3-&#946

β-catenina

Claudin-1

Tumoral progression

MORFOLOGIA

Alterações Genéticas e Epigenéticas dos Genes do Complexo de Destruição de β-Catenina e Perfil Transcricional dos Componentes da Via de Sinalização Wnt no Câncer de Mama / Genetics and Epigenetics Disturbances of β-Catenin Destruction Complex and Transcriptional Profile of Wnt Signaling Components in Breast Cancer

Andrés Felipe Aristizábal Pachón

22 May 2015

O câncer de mama é a neoplasia responsável pelo maior número de mortes em mulheres no Brasil, portanto, é importante encontrar novos marcadores específicos e de diagnóstico precoce, utilizando procedimentos simples e rápidos. A via de sinalização Wnt regula importantes funções celulares como proliferação, sobrevida e adesão. Esta via está associada com os processos de iniciação e progressão em muitos tipos tumorais, como câncer de cólon familiar, melanoma e pulmão; sendo que mutações em β-Catenina (CTNNb1) explicam só 30% dos casos de sinalização aberrante encontrada no câncer de mama, indicando que existem outros componentes e/ou reguladores da via que possam estar envolvidos. O objetivo deste trabalho foi avaliar as variantes genéticas e epigenéticas nos genes do complexo de degradação de β-Catenina num grupo de pacientes com câncer de mama e num grupo controle; e determinar os perfis de transcrição dos componentes da via de sinalização Wnt e da molécula de expressão exclusiva do epitélio mamário, a Mamaglobina Humana (MGA), assim como associar estes resultados com as características clínicas, histológicas e patológicas do tumor. Para atingir este objetivo foram coletadas amostras de sangue periférico de 102 mulheres com câncer de mama e 102 mulheres sadias como grupo controle. A avaliação das variantes rs465899 do gene APC, rs2240308 e rs151279728 do gene AXIN2, rs5030625 do gene CDH1 e rs334558 do gene GSK3, foi realizada por meio de PCR-RFLPs e sequenciamento, a análise dos perfis de metilação dos promotores pela MS-PCR. A RT-qPCR foi usada para determinar os níveis de expressão dos componentes da via e a MGA. As variantes rs2240308 e rs151279728 do gene AXIN2 mostraram uma forte associação com o risco de desenvolver o câncer de mama. Um aumento significativo foi observado no nível de expressão de AXIN2 no grupo de mulheres com câncer de mama. Análises adicionais mostraram perfis de expressão diferencial dos genes APC, AXIN2, CTNNB1, GSK3 e CSNK1A1 associado ao status dos receptores hormonais e histogênese tumoral. MGA foi identificado exclusivamente em 38% dos pacientes com câncer de mama e foi associada com a progressão da doença. Este é o primeiro estudo que relaciona uma variante do gene AXIN2 com o câncer de mama na população brasileira. As variantes avaliadas do gene AXIN2 são marcadores promissores de susceptibilidade ao câncer de mama na população estudada, sendo importante, a avaliação desta variante genética na população e determinar o seu real efeito no processo de iniciação e/ou progressão do câncer de mama. / Background: Wnt/β-catenin signaling pathway is an important regulator of cellular functions such as proliferation, survival and cell adhesion. This pathway is associated with tumor initiation and progression; -catenin (CTNNB1) mutations explains only 30% of aberrant signaling found in breast cancer, indicating that other components and/or regulating of the Wnt/β-catenin pathway may be involved. Objective: The objective of the study was to evaluate the APC rs465899, AXIN2 rs2240308 and rs151279728, CDH1 rs5030625 and GSK3 rs334558 polymorphisms, APC, AXIN2, CDH1 and GSK3 promoter methylation status and expression profile of -Catenin destruction complex genes and MGA in peripheral blood of breast cancer patients. Methods: We collected peripheral blood samples from 102 breast cancer and 102 healthy subjects. The identification of the mutation was performed using PCR-RFLPs and DNA sequencing. MSP and HRM-MS was used to measure promoter methylation and RT-qPCR to determine expression profile. Results: We found significant association of AXIN2 rs2240308 polymorphism with breast cancer. Increased risk was observed even after stratification based on clinicpathological characteristics. AXIN2 rs151279728 polymorphism was found only in 9 breast cancer patients, but none in control group subject. APC and CDH1 polymorphisms were not associated with breast cancer. GSK3 polymorphism was weak associated with breast cancer and heterozygous status was associated with breast cancer protection after group stratification. APC and CDH1 promoter methylation in breast cancer patients was found. Significant increase was observed in AXIN2, CTNNB1 and GSK3 level expression in breast cancer patients. APC was down-regulated in breast cancer patients. Further analyses, showed APC, AXIN2, CTNNB1, GSK3 and CSKN1A1 gene expression associated to receptor status and histological type. MGA was found only in breast cancer patients and was associated with cancer progression. Conclusion: The present study reports, for the first time, that AXIN2 genetic defect and -catenin destruction complex expression disturbance may be found in breast cancer patients, providing additional support to the role of Wnt/-catenin pathway dysfunction in breast cancer tumorigenesis. However, the functional consequence of this genetic alteration remains to be determined. In another hand MGA was determined like a good biomarker for diagnosis and prognosis outcome.

APC

AXIN2

Câncer de mama

CDH1

GSK3

MS-PCR

PCR-RFLPs

RTqPCR

Via de sinalização Wnt

β-Catenin destruction complex

APC

AXIN2

Breast cancer

CDH1

GSK3

MS-PCR

PCR-RFLPs

RTqPCR.

Wnt signaling

Efeito da suplementação de leucina sobre a via GSK3-β durante a atrofia muscular esquelética induzida por imobilização. / Effect of leucine supplementation upon GSK3-β pathway during skeletal muscle atrophy during immobilization.

Bento, Mirella Ribeiro

14 November 2017

O músculo esquelético é um tecido muito importante para a saúde, e seu desequilíbrio está relacionado com diversas doenças. Existe um grande interesse na identificação e caracterização dos agentes/mecanismos responsáveis pelo controle das vias anabólicas/catabólicas da massa muscular que contribuem para a manutenção da homeostase do músculo esquelético. A atrofia muscular é caracterizada pela perda de massa muscular, levando a redução de capacidade funcional. Dada à importância deste tecido na locomoção e muitas outras funções fisiológicas do organismo, o processo de atrofia pode inferir ao indivíduo o aumento da morbidade e perda de sua qualidade de vida, tornando assim, de grande importância a compreensão dos processos moleculares envolvidos. Neste trabalho exploramos a capacidade da suplementação de leucina em proteger a massa muscular durante a atrofia induzida por imobilização, através da inibição de vias catabólicas. A leucina é um alvo atraente, uma vez que é considerado um aminoácido anti-atrófico capaz de regular as vias intracelulares envolvidas na síntese e degradação das proteínas, desta forma, abordamos se o efeito anti-atrófico da leucina envolve modulação do eixo GSK3-β/β-Catenina. Ratos Wistar, suplementados com leucina, tiveram sua pata posterior esquerda imobilizada com o músculo sóleo em posição encurtada. Em seguida, o músculo sóleo foi removido, pesado e processado para avaliar a expressão de genes e proteínas por qPCR e Western blot, respectivamente. Além disso, secções transversais musculares foram utilizadas em ensaios de imunofluorescência para análise de localização celular. Após 1 dia de imobilização, foi observado a ativação de GSK3-β no músculo sóleo, e a suplementação de leucina foi capaz de bloquear esse efeito. Embora os níveis proteicos de β-Catenina tenham sido inalterados pela imobilização ou pela suplementação de leucina, a análise de localização celular, mostrou uma diminuição nuclear da β-Catenina causada pela imobilização, porém, a suplementação de leucina foi capaz de aumentar os níveis de β-Catenina no núcleo. A análise Confocal confirmou a translocação nuclear de β-Catenina, durante a suplementação de leucina. Também analisamos os níveis de expressão de NF-κB por ser potencialmente regulado por β-Catenina, no entanto, não foram observadas alterações nos níveis desta proteína entre os grupos. Assim, este estudo revela β-Catenina como uma nova molécula chave envolvida nos efeitos anti-atróficos da leucina. / Skeletal muscle is a very important tissue for health, and its depletion predicts the prognosis of several diseases. There is great interest in the identification and characterization of the agents/mechanisms responsible for the control of muscle mass through anabolic/catabolic pathways that contribute to maintenance of skeletal muscle homeostasis. Muscle atrophy is characterized by loss of muscle mass, leading to a reduction in functional capacity. Due the importance of this tissue in locomotion and many other physiological organism functions, the process of atrophy can infer to the individual the increase of the morbidity and loss of his quality of life, thus making of great importance to the understanding the molecular processes involved. In this work, leucine supplementation is sought to protect muscle mass during atrophy induced by immobilization through the inhibition of catabolic pathways. Leucine is an attractive target, since it is considered an anti-atrophic amino acid capable of regulating intracellular pathways involved in the synthesis and degradation of proteins. Therefore, we approached whether the anti-atrophic effect of leucine involves modulation of the GSK3-β/β-Catenin. Male Wistar rats, supplemented with leucine, had their left hind limb immobilized with the soleus muscle in a shortened position. Thereafter, the soleus muscle was removed, weighed and processed to evaluate an expression of genes and proteins by qPCR and Western blot, respectively. In addition, muscle cross-sections were performed in immunofluorescence assays for cell localization analysis. After 1 day of immobilization, activated GSK3-β in the soleus muscle was observed, and leucine supplementation was able to block this effect. Although protein levels of β-Catenin were unchanged by immobilization or by leucine supplementation, cell localization analysis showed a nuclear decrease of β-Catenin caused by immobilization, however, leucine supplementation was able to increase levels of β-Catenin in the nucleus. Confocal analysis confirmed nuclear translocation of β-Catenin during leucine supplementation. We also analyzed the expression levels of NF-B by being potentially regulated by β-Catenin, however, no changes were observed in NF-κB protein levels between the groups. Thus, this study reveals β-Catenin as a new key molecule involved in the anti-atrophic effects of leucine.

β-Catenina

β-Catenina

Atrofia

Atrophy

GSK3-β

GSK3-β

Immobilization

Imobilização

Leucina

Leucine

Músculo esquelético

NFκB

NFκB

Skeletal muscle

Análise da via Wnt e seu envolvimento no processo da tumorigênese do câncer colo-retal / Analysis of the Wnt pathway and its involvement in colorectal cancer tumorigenesis

Flávia Castello Branco Vidal

08 April 2010

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O câncer colo-retal (CCR) representa o quarto tipo de câncer mais freqüente no Brasil entre homens e mulheres e a sobrevida para esse tipo de neoplasia é considerada boa, se a doença for diagnosticada em estádio inicial. Neste tipo de câncer a progressão do adenoma (tumor benigno) para o adenocarcinoma (tumor maligno) é dependente do acúmulo de mutações em diversos oncogenes e genes supressores de tumor. Estas mutações podem levar a alterações de importantes vias de sinalização que controlam estes eventos como, por exemplo, as vias Wnt e EGFR. No entanto, os mecanismos moleculares e celulares mediados por estas vias durante a progressão do CCR permanecem por serem definidos. Neste trabalho foi avaliada a participação da via Wnt e do EGFR durante a progressão do CCR usando células Caco-2, uma linhagem celular derivada de adenocarcinoma de cólon humano como modelo. As células foram tratadas com EGF, ativador da via EGFR, e cloreto de lítio (LiCl), um conhecido inibidor da enzima GSK-3β e conseqüentemente, ativador da via Wnt, ou alternativamente com a combinação de ambas drogas. Após os tratamentos, foi avaliada a morfologia celular, localização e expressão de proteínas juncionais, os padrões proliferativos e do ciclo celular e o potencial tumorigênico (migração e formação de colônias). Nossos resultados mostram que a localização subcelular das proteínas juncionais claudina-1 e β-catenina foi alterada após tratamento com EGF e LiCl, porém a expressão não foi afetada. A localização nuclear de β-catenina, um marcador da ativação da via Wnt, foi observada após tratamento com ambos os compostos, no entanto estes agentes modularam a enzima GSK-3β de forma diferencial. Além disso, tratamento com EGF aumentou a capacidade proliferativa e migratória da célula, mas não alterou a formação de colônias. LiCl, apesar de ser um conhecido ativador da via Wnt, inibiu o aumento da proliferação e migração causado pelo EGF, como visto pelo tratamento das células com EGF+LiCl, e reduziu a formação de colônias. Nossos resultados revelaram que LiCl possui uma atividade supressora de tumor o que pode representar um novo papel para este composto como um possível agente terapêutico para o tratamento do CCR. / Colorectal cancer (CCR) represents the fourth type of cancer most common in Brazil among men and women and the survival for this tumor type is considered good if the disease is diagnosed at early stage. The progression of an adenoma (benign tumor) to an adenocarcinoma (malign tumor) is dependent on the accumulation of mutations in a variety of oncogenes and tumors suppressors genes. These mutations can lead to alterations of important cell signaling pathways that control these events, such as Wnt e EGFR. However, the molecular and cellular mechanisms mediated by these pathways during CCR progression remain to be defined. In the present study we assesses the role that Wnt and EGFR pathway play during CCR progression using Caco-2 cells, a human cell line derived of colorectal cancer, as a model. Cells were treated with EGF, an EGFR pathway activator, and lithium chloride, (LiCl) a known inhibitor of the enzyme GSK-3β and, therefore a Wnt pathway activator or alternatively by using combination of both drugs. After treatments, we monitored cell morphology, localization and expression of junctional proteins, proliferative and cell cycle patterns, and the tumorigenic potential (cell migration and colony formation). We show that subcellular localization of the junctional proteins claudin-1 and β-catenin was altered after treatment with EGF and LiCl, however the expression were not affected. Nuclear localization of β-catenin, a marker of Wnt pathway activation, was observed after treatment with both compounds, however these agents modulated in a differential fashion the enzyme GSK-3β. Furthermore, EGF treatment increased the proliferative and migratory capacity of the cells, but did not alter colony formation potential. LiCl, despite being a known activator of the Wnt pathway, inhibited the increase of proliferation and migration caused by EGF, as demonstrated by the cell treatments with EGF+LiCl, and reduced the cell colony formation. Our results reveal that LiCl present a suppressor tumor activity, which may represent a new role for this compound as potential therapeutic agent in the CCR treatment.

Câncer colo-retal

Via Wnt

EGFR

GSK3-&#946

β-catenina

Claudina-1

Progressão tumoral

Colorectal cancer

Wnt/β-catenin pathway

EGFR

GSK3-&#946

β-catenina

Claudin-1

Tumoral progression

MORFOLOGIA

IDENTIFICATION OF PHOSPHOPROTEINS INVOLVED IN SPERM MATURATION AND FERTILITY.

Goswami, Suranjana

31 July 2018

No description available.

Biology

Biochemistry

Cellular Biology

Molecular Biology

Chemical genetics

PKA

PP1g2

GSK3

PPP1R11

PPP1R7

PPP1R2

Epididymal Sperm maturation

ROLE OF GSK3a IN SPERM FUNCTION AND MALE FERTILITY

Bhattacharjee, Rahul

30 July 2018

No description available.

Biochemistry

Biology

Cellular Biology

Molecular Biology

Understanding and Exploiting Wnt5a and GSK3 Signaling in Inflammatory Disease

Bhatt, Pooja

07 June 2013

No description available.

Biomedical Research

Cellular Biology

Molecular Biology

Atherosclerosis

Wnt5a

Alzheimer's disease

inflammation

GSK3

cytokines

beta catenin

inflammatory diseases

Rôle du jeûne et de la perturbation de la cascade de signalisation de l'insuline sur le clivage du précurseur de la protéine amyloïde (APP)

Licea, Sara

09 1900

La maladie d’Alzheimer est majoritairement sporadique et peu est connu sur les mécanismes déclenchant le développement de cette forme de la maladie. Les études sur la forme familiale ont attribué une importance particulière à la bêta-amyloïde (Aβ), un produit de clivage du précurseur de la protéine amyloïde (APP). Plusieurs facteurs de risques ont été identifiés comme déclencheurs potentiels du développement de la maladie d’Alzheimer dont le diabète de type II (T2D). En effet, la déficience de la signalisation de l’insuline par la désensibilisation des récepteurs de l’insuline (IR) dans le cerveau semble être une caractéristique commune aux deux maladies. Les effets à long terme de la résistance à l’insuline sur l’accumulation d’Aβ et sur la phosphorylation de Tau ont été étudiés, mais les effets de la perturbation aiguë des IR sont moins bien caractérisés. Aussi, les désordres métaboliques sont également des caractéristiques communes aux deux maladies. Le but de notre étude est de déterminer si la perturbation aiguë des IR peut affecter le clivage de l’APP et si la privation énergétique par le jeûne peut sensibiliser ce clivage à la perturbation aiguë des IR. Pour évaluer ceci, nous avons utilisé la Tyrphostin AG1024 à faible dose pour simuler une perturbation des IR plutôt qu’un blocage complet des récepteurs. Pour quantifié le clivage de l’APP, nous avons mesuré les changements de la quantité d’APP taille pleine totale par immunobuvardage de type Western. Pour s’assurer que les changements de la quantité d’APP taille pleine traduisait bien un clivage, nous avons développé un système de lecture par luciférase. Ce système nous permet de suivre le clivage de l’APP via l’expression de la luciférase Firefly puisque le facteur de transcription GAL4 est lié à la portion C-terminale de l’APP . Tout d’abord, nous avons observé que la perturbation aiguë des IR par la Tyrphostin mène au clivage de l’APP et que le jeûne augmente la vulnérabilité au clivage de l’APP suite à une plus petite dose de Tyrphostin. Ce clivage serait imputable à la voie amyloïdogénique puisque l’inhibition de la β-secrétase et de la γ-secrétase empêche le clivage de l’APP. Nous avons aussi montré que la perturbation des IR est nécessaire alors que la perturbation spécifique des IGF-1R n’est pas suffisante. De plus, ni l’autophagie, ni les caspases et ni le protéasomes ne semblent impliqués dans le clivage de l’APP suivant la combinaison du jeûne et de la petite perturbation des IR. L’activité de mTOR n’est également pas requise. Cependant, l’activité de la GSK3 est nécessaire au clivage et semble affecter le clivage par la γ-secrétase. Nous avons ensuite confirmé dans des cultures primaires neuronales que la combinaison du jeûne et de la perturbation aiguë des IR cause le clivage de l’APP et que la GSK3 est encore une fois fortement active. Ainsi, nos résultats suggèrent que la perturbation de la signalisation de l’insuline tel qu’observé dans le T2D augmente le clivage de l’APP via la voie amyloïdogénique et, donc, contribue à la pathologie de la maladie d’Alzheimer. / Little is known about the mechanisms that trigger the onset of Alzheimer’s disease (AD), a primarily sporadic disease. Studies on the familial form of AD attributed a particular importance to Amyloid beta (Aβ), a cleavage product of the Amyloid precursor protein (APP). Many risk factors have been identified as potential triggers of the development of AD including Type 2 diabetes (T2D). Indeed, the impairment of insulin signaling by the desensitization of insulin receptors (IR) in the brain seems to be a common hallmark of both diseases. The long term effects of IR resistance on the accumulation of Aβ and Tau hyperphosphorylation have been studied, but the acute effects of IR perturbation is less characterized. Also, both diseases show metabolic defects. Our research aimed to determine whether acute perturbation of IR signaling affects APP processing and if starving (energy deprivation) could sensitize this processing to acute perturbation of IR. To assess this, we used small doses of Tyrphostin AG1024 to simulate IR perturbations rather than a complete blocakade of the receptors. To quantify APP processing, we measured the change of total full- lenght APP by Western blot. To ensure that this change reflected APP processing we developed a luciferase based readout system. This system allowed us to monitor the occurrence of APP cleavage via GAL4-UAS Firefly luciferase driven expression because we linked GAL4 transcription factor to the C-terminal region of APP. First, we showed that IR perturbation with Tyrphostin leads to APP processing and that starving increased IR susceptibility to a smaller doses of Tyrphostin. This APP processing occurs via the amyloidogenic pathway because inhibition of β- and γ-secretase inhibited APP processing. We showed that this processing absolutely requires IR perturbation, while IGF-1R perturbation alone is insufficient. Furthermore, neither autophagy, caspases nor proteasome seemed to be implicated in APP processing following starvation and small IR perturbation. The activity of mTOR is also not required. On the contrary, GSK3 activation is necessary for the processing and seems to affect γ-secretase cleavage. We then confirmed in primary cultured neurons that the combination of acute starvation and small IR perturbation causes APP cleavage and GSK3 is again strongly activated. Taken together, our results suggest that the impairment of IR signalling seen in T2D increases the processing of APP via the amyloidogenic pathway and thereby contributes to the pathology of AD.

Alzheimer

APP

GSK3

diabète

signalisation de l'insuline

vulnérabilité

jeûne

Alzheimer’s disease

Diabetes

Starving

Susceptibility

Insulin receptor signaling