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Prognosis in carcinoma in situ of the breastWärnberg, Fredrik January 2000 (has links)
The incidence of breast cancer is rising steadily in Sweden and the proportion of carcinoma in situ (CIS) has increased appreciably, most likely due to mammography screening. The aim of this study was twofold: (1) to examine risk factors for subsequent invasive breast carcinoma and breast cancer death after primary ductal carcinoma in situ (DCIS) and (2) to study the biology in the progress between in situ and invasive carcinoma. In a cohort-study based on 3,398 women with a primary CIS reported to the Swedish Cancer Registry (SCR) 1980-1992, women diagnosed in 1989-1992 ran a relative risk of 0.1 (CI 95%, 0.0-0.9) from dying of breast cancer as compared with women diagnosed in 1980-1982. Women in counties with mammography screening ran a relative risk of 0.2 (CI 95%, 0.0-2.1) for breast cancer death in comparison with women in non-screening counties. In a case-control study derived from all 4,661 women with primary CIS reported to the SCR 1960-1992, we investigated risk factors for subsequent invasive breast carcinoma (n=118) and breast cancer death (n=39). Large size and multifocality were found to increase the risk for breast cancer death. Postoperative radiotherapy and mastectomy lowered the risk for ipsilateral invasive cancer. The standardised incidence rates (SIR) for invasive breast cancer were estimated in the cohort from 1980-1992. The SIR after primary DCIS and primary lobular carcinoma in situ (LCIS) was 4.5 (CI 95%, 3.7-5.5) and 4.0 (CI 95%, 2.1-7.5), respectively. New histopathological classification systems for DCIS were evaluated in 195 women consecutively diagnosed with primary DCIS between 1986-1994. One group with highly differentiated lesions was defined with the EORTC classification system and had an excellent prognosis. Histopathological grade and expression of p53, c-erbB-2, Ki 67, hormone receptors, Bcl-2 and angiogenesis were compared in 626 women with either a pure DCIS, a small invasive carcinoma or a lesion with both an invasive and in situ component. When grade was taken into account, no change in tumour markers could be detected that signalled the progression from an in situ stage to invasiveness. All tumour markers correlated to grade and their distribution was very similar in the two components of mixed lesions.
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Unravelling Drug Resistance Mechanisms in Breast Cancervon der Heyde, Silvia 04 June 2015 (has links)
No description available.
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Topoisomerase ll-a e Her-2 em tumores malignos de mama e de ovárioMano, Max Senna January 2006 (has links)
Introdução. O receptor epidérmico humano 2 (Her-2) e a topoisomerase-IIα (T2A) são dois marcadores biológicos importantes, ambos tendo um valor prognóstico e preditivo potencial em pacientes com tumores sólidos. A amplificação dos genes Her- 2 e T2A são eventos independentes, embora o último seja mais frequente em tumores com amplificação do Her-2 (34-90%), do que em tumores sem amplificação do Her-2 (5-10%). Existe uma melhor correlação entre amplificação e superexpressão do Her-2 no câncer de mama (CM) do que em outros tumores. No entanto, no CM, a correlação entre amplificação e superexpressão da T2A tem sido inconsistente, e existe uma carência de tais dados em outros tipos de tumores. A expressão da proteína T2A tem mostrado uma boa correlação com o índice de proliferação tumoral, particularmente no CM. Objetivos. Artigo 1: Sintetizar o conhecimento atual sobre a importância dos marcadores Her-2 e T2A nos tumores sólidos. Artigo 2: Investigar a prevalência de amplificação e superexpressão do Her-2 e da T2A, a correlação entre estas variáveis e a correlação entre as variáveis e estágio clínico, em amostras de câncer de ovário (CO) fixadas em parafina. Artigo 3: Investigar a prevalência de amplificação da T2A, assim como a correlação entre esta variável e a expressão da proteína T2A e do marcador de proliferação celular Ki-67, em amostras de CM fixadas em parafina, mostrando uma amplificação do Her-2. Métodos. Artigo 1: Os dados foram identificados através de busca em bases de dados eletrônicas (medline), livros de resumos de congressos e referências de artigos de revisão e originais. Artigo 2: 73 amostras de CO foram testadas para amplificação e superexpressão do Her-2 e T2A, por hibridização in situ fluorescente (FISH) e imuno-histoquímica (IHC), respectivamente. Artigo 3: 103 amostras de CM, com amplificação do Her-2, foram testadas para amplificação do gene T2A (por FISH) e superexpressão das proteínas T2A e Ki-67 (por IHC). Resultados. Artigo 2: Com base nos pontos de corte >1.5 e >2 (relação cópias/CEP17), as taxas de amplificação do Her-2 foram 15/64(23.4%) e 8/64(12.5%), versus 16/64(25%) e 5/64(7.8 %) para a T2A. Encontramos somente 3/72(4.2%) casos de superexpressão do Her-2(3+), contra 15/70(21.4%) para a T2A (marcagem em >10% das células). Foi observada uma modesta correlação entre amplificação e superexpressão da T2A (p= 0.01) e uma forte correlação entre amplificação da T2A e do Her-2, quando analisados como variáveis contínuas (p<0.001). A amplificação da T2A correlacionou-se com estágio FIGO avançado (p= 0.02). Artigo 3: Uma amplificação do gene T2A foi observada em 36.9%(38/103) dos casos. Os níveis de amplificação do Her-2 (número de cópias) não se correlacionaram com a amplificação da T2A. A porcentagem média de células positivas para a T2A (por IHC) foi de 5% e 10%, para casos T2A não-amplificados e amplificados, respectivamente. Uma correlação fraca, mas ainda significativa, foi observada entre amplificação do gene T2A e porcentagem de células T2A-positivas por IHC (Spearman=0.23, p=0.02); a correlação entre estas duas variáveis foi mais forte em tumores Ki-67 positivos. Conclusões. Artigo 2 : A avaliação da amplificação e da superexpressão do Her-2 e da T2A, por FISH e IHC, respectivamente, é realizável em amostras de CO. Foi observada uma boa correlação entre a amplificação dos genes Her-2 e T2A, mas a correlação entre amplificação do gene e superexpressão da proteína foi fraca para ambos marcadores. As taxas de amplificação dos genes Her-2 e T2A são mais elevadas quando não é realizada correção para o número de cópias do CEP17. Parece existir uma boa correlação entre amplificação da T2A e estágio clínico avançado. Estudos adicionais serão necessários para determinar o melhor ponto de corte para estes marcadores. Artigo 3: Contrariamente ao Her-2, a amplificação do gene T2A não parece necessariamente levar à superexpressão da proteína no CM. Outros fatores, como o índice de proliferação celular, podem interferir na síntese da proteína T2A. Embora a maioria dos casos de aberrações do gene T2A ocorram em tumores Her-2 positivos, os níveis de amplificação do Her-2 não se correlacionaram com a amplificação do gene T2A. / Background. The human epidermal receptor 2 (Her-2) and topoisomerase-IIα (T2A) are two important biomarkers, with potential prognostic and predictive value in patients with solid tumours. Her-2 and T2A gene amplification are separate events, although the latter is more frequently seen in Her-2 amplified (34-90%) than in Her-2 non-amplified (5-10%) tumours. There is a better correlation between Her-2 amplification and protein overexpression in breast cancer (BC) than in other tumour types. Nevertheless, there is a doubtful correlation between T2A amplification and overexpression in BC, with virtually no data available in other tumour types. In BC, the expression of the T2A protein has shown a good correlation with tumour proliferation rate. Objectives. Article 1: To summarise the available literature on Her-2 and T2A in solid tumours. Article 2: To investigate the prevalence of Her-2 and T2A amplification and overexpression, the correlation between these variables and with clinical stage, in paraffin-embedded samples of ovarian cancer (OC). Article 3: To investigate the prevalence of T2A amplification, as well as the correlation between this variable and the expression of T2A protein and the proliferation marker Ki-67, in paraffinembedded samples of Her-2 amplified BC. Methods. Article 1: The data were identified through search in electronic databases (medline), abstract books and references from review and original articles. Article 2: 73 samples of OC were tested for Her-2 and T2A amplification and overexpression, by fluorescence in situ hybridisation (FISH) and immunohistochemistry (IHC), respectively. Article 3: 103 samples of Her-2 amplified BC were tested for T2A amplification (by FISH) and overexpression (by IHC), and Ki-67 expression (by IHC). Results. Article 2: Based on cut-offs of ≥1.5 and ≥2 (ratio copies/CEP17), amplification rates for Her-2 were 15/64(23.4%) and 8/64(12.5%) versus 16/64(25%) and 5/64(7.8%) for T2A. We found only 3/72(4.2%) cases of Her-2 overexpression(3+) versus 15/70(21.4%) for T2A (staining in >10% of the cells). There was a modest correlation between T2A amplification and overexpression (p=0.01) and a strong correlation between T2A and Her-2 amplification when these markers were analysed as continuous variables (p<0.001). T2A amplification significantly correlated with advanced FIGO stage (p=0.02). Article 3: T2A gene amplification was observed in 36.9%(38/103) of the Her-2 amplified samples. Her-2 amplification level (i.e. copy number) was not predictive of T2A amplification. The median percentage of T2A positive cells for T2A non-amplified and amplified cases were 5% and 10%, respectively. A weak but still significant correlation was observed between T2A gene amplification level and percentage of positively stained cells (Spearman=0.23, p=0.02), the observed correlation being higher in patients with positive staining for Ki-67. Conclusions. Article 2: The assessment of Her-2 and T2A amplification and overexpression by FISH and IHC, respectively, is feasible in OC samples. There was a good correlation between Her-2 and T2A gene amplification, but the correlation between gene amplification and protein overexpression was poor for both markers. Amplification rates were higher in the absence of correction for the number of copies of the CEP17. Finally, we found a good correlation between T2A amplification and advanced disease stage. Further studies should aim to determine the optimal cut-offs for these markers. Article 3: Contrary to Her-2, T2A gene amplification does not always lead to protein overexpression in BC. Other factors, especially tumour proliferation rate, may interfere with the T2A protein status. Although the majority of the cases of T2A gene aberrations are seen in Her-2 positive tumours, the level of Her-2 amplification does not predict for T2A amplification.
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Topoisomerase ll-a e Her-2 em tumores malignos de mama e de ovárioMano, Max Senna January 2006 (has links)
Introdução. O receptor epidérmico humano 2 (Her-2) e a topoisomerase-IIα (T2A) são dois marcadores biológicos importantes, ambos tendo um valor prognóstico e preditivo potencial em pacientes com tumores sólidos. A amplificação dos genes Her- 2 e T2A são eventos independentes, embora o último seja mais frequente em tumores com amplificação do Her-2 (34-90%), do que em tumores sem amplificação do Her-2 (5-10%). Existe uma melhor correlação entre amplificação e superexpressão do Her-2 no câncer de mama (CM) do que em outros tumores. No entanto, no CM, a correlação entre amplificação e superexpressão da T2A tem sido inconsistente, e existe uma carência de tais dados em outros tipos de tumores. A expressão da proteína T2A tem mostrado uma boa correlação com o índice de proliferação tumoral, particularmente no CM. Objetivos. Artigo 1: Sintetizar o conhecimento atual sobre a importância dos marcadores Her-2 e T2A nos tumores sólidos. Artigo 2: Investigar a prevalência de amplificação e superexpressão do Her-2 e da T2A, a correlação entre estas variáveis e a correlação entre as variáveis e estágio clínico, em amostras de câncer de ovário (CO) fixadas em parafina. Artigo 3: Investigar a prevalência de amplificação da T2A, assim como a correlação entre esta variável e a expressão da proteína T2A e do marcador de proliferação celular Ki-67, em amostras de CM fixadas em parafina, mostrando uma amplificação do Her-2. Métodos. Artigo 1: Os dados foram identificados através de busca em bases de dados eletrônicas (medline), livros de resumos de congressos e referências de artigos de revisão e originais. Artigo 2: 73 amostras de CO foram testadas para amplificação e superexpressão do Her-2 e T2A, por hibridização in situ fluorescente (FISH) e imuno-histoquímica (IHC), respectivamente. Artigo 3: 103 amostras de CM, com amplificação do Her-2, foram testadas para amplificação do gene T2A (por FISH) e superexpressão das proteínas T2A e Ki-67 (por IHC). Resultados. Artigo 2: Com base nos pontos de corte >1.5 e >2 (relação cópias/CEP17), as taxas de amplificação do Her-2 foram 15/64(23.4%) e 8/64(12.5%), versus 16/64(25%) e 5/64(7.8 %) para a T2A. Encontramos somente 3/72(4.2%) casos de superexpressão do Her-2(3+), contra 15/70(21.4%) para a T2A (marcagem em >10% das células). Foi observada uma modesta correlação entre amplificação e superexpressão da T2A (p= 0.01) e uma forte correlação entre amplificação da T2A e do Her-2, quando analisados como variáveis contínuas (p<0.001). A amplificação da T2A correlacionou-se com estágio FIGO avançado (p= 0.02). Artigo 3: Uma amplificação do gene T2A foi observada em 36.9%(38/103) dos casos. Os níveis de amplificação do Her-2 (número de cópias) não se correlacionaram com a amplificação da T2A. A porcentagem média de células positivas para a T2A (por IHC) foi de 5% e 10%, para casos T2A não-amplificados e amplificados, respectivamente. Uma correlação fraca, mas ainda significativa, foi observada entre amplificação do gene T2A e porcentagem de células T2A-positivas por IHC (Spearman=0.23, p=0.02); a correlação entre estas duas variáveis foi mais forte em tumores Ki-67 positivos. Conclusões. Artigo 2 : A avaliação da amplificação e da superexpressão do Her-2 e da T2A, por FISH e IHC, respectivamente, é realizável em amostras de CO. Foi observada uma boa correlação entre a amplificação dos genes Her-2 e T2A, mas a correlação entre amplificação do gene e superexpressão da proteína foi fraca para ambos marcadores. As taxas de amplificação dos genes Her-2 e T2A são mais elevadas quando não é realizada correção para o número de cópias do CEP17. Parece existir uma boa correlação entre amplificação da T2A e estágio clínico avançado. Estudos adicionais serão necessários para determinar o melhor ponto de corte para estes marcadores. Artigo 3: Contrariamente ao Her-2, a amplificação do gene T2A não parece necessariamente levar à superexpressão da proteína no CM. Outros fatores, como o índice de proliferação celular, podem interferir na síntese da proteína T2A. Embora a maioria dos casos de aberrações do gene T2A ocorram em tumores Her-2 positivos, os níveis de amplificação do Her-2 não se correlacionaram com a amplificação do gene T2A. / Background. The human epidermal receptor 2 (Her-2) and topoisomerase-IIα (T2A) are two important biomarkers, with potential prognostic and predictive value in patients with solid tumours. Her-2 and T2A gene amplification are separate events, although the latter is more frequently seen in Her-2 amplified (34-90%) than in Her-2 non-amplified (5-10%) tumours. There is a better correlation between Her-2 amplification and protein overexpression in breast cancer (BC) than in other tumour types. Nevertheless, there is a doubtful correlation between T2A amplification and overexpression in BC, with virtually no data available in other tumour types. In BC, the expression of the T2A protein has shown a good correlation with tumour proliferation rate. Objectives. Article 1: To summarise the available literature on Her-2 and T2A in solid tumours. Article 2: To investigate the prevalence of Her-2 and T2A amplification and overexpression, the correlation between these variables and with clinical stage, in paraffin-embedded samples of ovarian cancer (OC). Article 3: To investigate the prevalence of T2A amplification, as well as the correlation between this variable and the expression of T2A protein and the proliferation marker Ki-67, in paraffinembedded samples of Her-2 amplified BC. Methods. Article 1: The data were identified through search in electronic databases (medline), abstract books and references from review and original articles. Article 2: 73 samples of OC were tested for Her-2 and T2A amplification and overexpression, by fluorescence in situ hybridisation (FISH) and immunohistochemistry (IHC), respectively. Article 3: 103 samples of Her-2 amplified BC were tested for T2A amplification (by FISH) and overexpression (by IHC), and Ki-67 expression (by IHC). Results. Article 2: Based on cut-offs of ≥1.5 and ≥2 (ratio copies/CEP17), amplification rates for Her-2 were 15/64(23.4%) and 8/64(12.5%) versus 16/64(25%) and 5/64(7.8%) for T2A. We found only 3/72(4.2%) cases of Her-2 overexpression(3+) versus 15/70(21.4%) for T2A (staining in >10% of the cells). There was a modest correlation between T2A amplification and overexpression (p=0.01) and a strong correlation between T2A and Her-2 amplification when these markers were analysed as continuous variables (p<0.001). T2A amplification significantly correlated with advanced FIGO stage (p=0.02). Article 3: T2A gene amplification was observed in 36.9%(38/103) of the Her-2 amplified samples. Her-2 amplification level (i.e. copy number) was not predictive of T2A amplification. The median percentage of T2A positive cells for T2A non-amplified and amplified cases were 5% and 10%, respectively. A weak but still significant correlation was observed between T2A gene amplification level and percentage of positively stained cells (Spearman=0.23, p=0.02), the observed correlation being higher in patients with positive staining for Ki-67. Conclusions. Article 2: The assessment of Her-2 and T2A amplification and overexpression by FISH and IHC, respectively, is feasible in OC samples. There was a good correlation between Her-2 and T2A gene amplification, but the correlation between gene amplification and protein overexpression was poor for both markers. Amplification rates were higher in the absence of correction for the number of copies of the CEP17. Finally, we found a good correlation between T2A amplification and advanced disease stage. Further studies should aim to determine the optimal cut-offs for these markers. Article 3: Contrary to Her-2, T2A gene amplification does not always lead to protein overexpression in BC. Other factors, especially tumour proliferation rate, may interfere with the T2A protein status. Although the majority of the cases of T2A gene aberrations are seen in Her-2 positive tumours, the level of Her-2 amplification does not predict for T2A amplification.
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Estudo sobre o tamoxifeno : papel dos receptores de estrogênio na resposta terapêutica e efeitos cognitivos do tratamentoLichtenfels, Martina January 2016 (has links)
Introdução: Estimativas mostram que mais de dois terços das mulheres com câncer de mama possuem receptores hormonais positivos, e recebem terapia endócrina como tratamento, sendo tamoxifeno (TAM) o tratamento padrão (EBCTCG 2005; Davies et al., 2012). Porém, muitas pacientes se tornam resistentes com o passar do tempo. Estudos prévios mostraram que a expressão do receptor de estrogênio β (REβ) aumenta a resposta ao tratamento com TAM em células de câncer de mama, assim como a coexpressão de REα e REβ esta associada com maior ação proliferativa de TAM (Treeck et al., 2010; Sun et al., 2014). Também foi observada a existência de “cross-talk” entre os RE e a família do receptor do fator de crescimento epidérmico (HER) na resposta ao tratamento com TAM (Lindberg et al., 2011; Blows et al., 2010). Objetivo: Verificar a expressão do REβ, e suas interações com REα e receptores HER, durante o tratamento com TAM e em células resistentes ao TAM. Métodos: A expressão do REβ foi analisada em dois bancos de dados contendo informações de pacientes com câncer de mama. A expressão de RNAm dos RE, receptores HER e vias de sinalização PTEN, Akt e MAPK foram avaliadas após tratamento com TAM, em células resistentes ao TAM e em células silenciadas para os genes dos RE. Também foi avaliada a viabilidade celular após tratamento com TAM e nas células silenciadas para os genes dos RE. Resultados: Pacientes com câncer de mama apresentaram expressão reduzida do REβ, e os subtipos de câncer de mama REα positivos apresentaram baixa expressão do REβ quando comparados aos subtipos REα negativos. Células expressando níveis moderados de REβ apresentaram melhor resposta ao tratamento com TAM. Diminuição nos níveis dos RE é acompanhada por aumento nos níveis dos receptores ErbB2 e ErbB3, aumento de PTEN e diminuição de Akt e MAPK3 após tratamento com TAM. ERβ modula a ação antiproliferativa do TAM através da via de MAPK3. Células resistentes ao TAM apresentaram baixos níveis dos RE e altos níveis dos receptores EGFR, ErbB3 e ErbB4. Conclusão: Estes resultados demonstram que o REβ, e suas interações com REα e receptores HER, possuem papel importante na resposta ao tratamento com TAM. / Introduction: Approximately two-thirds of all breast cancer patients overexpress hormonal receptors, and are treated with endocrine therapy, being tamoxifen (TAM) the standard treatment. However many of initial responders to TAM as first-line experience relapse. Several mechanisms have been proposed to explain the occurrence of acquired TAM resistance. Previous studies showed that estrogen receptor β (ERβ) expression is associated with better response to tamoxifen treatment, as the co-expression of ERα and ERβ is associated with TAM antiproliferative effects. Moreover, there is growing interest about the cross-talk between ERs and ErbB family in response to endocrine therapy. Suggesting that TAM can acts through ERβ and/or ErbB family as compensatory pathways. Objective: To evaluate the expression of ERβ and the relation of ERβ with ERα and ErbB family in response to TAM treatment and in TAM resistant cells. Methods: ERβ expression was analyzed in two different databases of breast cancer patients. The mRNA levels of ER, HER receptors and PTEN, Akt and MAPK signal pathways were measured after TAM treatment, in TAM resistance cells and in cells silenced for ER genes. The cellular viability was also measured after TAM treatment, in TAM resistance cells and in cells silenced for ER genes. Results: Breast cancer patients presented reduced ERβ expression and the ERα-positive breast cancer subtypes presented lower ERβ levels when compared to ERα-negative breast cancer subtypes. Cells expressing moderates levels of ERβ presented better response to TAM treatment. Down-regulation of ERs induced by TAM treatment are accompanied with an increase in ErbB2 and ErbB3, reduced AKT and MAPK3 mRNA levels and increased PTEN levels. ERβ modulates TAM anti-proliferative effects through MAPK3 pathway. TAM– resistant cells expressed decreased ER mRNA levels and increased EGFR, ErbB3 and ErbB4 levels. Demonstrating that the cross-talk between ERs and HER family influence the response to TAM treatment. Conclusion: These results provide additional data indicating the importance of ERβ, and the relation with ERα and HER receptors, to predict TAM responsiveness.
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Estudo sobre o tamoxifeno : papel dos receptores de estrogênio na resposta terapêutica e efeitos cognitivos do tratamentoLichtenfels, Martina January 2016 (has links)
Introdução: Estimativas mostram que mais de dois terços das mulheres com câncer de mama possuem receptores hormonais positivos, e recebem terapia endócrina como tratamento, sendo tamoxifeno (TAM) o tratamento padrão (EBCTCG 2005; Davies et al., 2012). Porém, muitas pacientes se tornam resistentes com o passar do tempo. Estudos prévios mostraram que a expressão do receptor de estrogênio β (REβ) aumenta a resposta ao tratamento com TAM em células de câncer de mama, assim como a coexpressão de REα e REβ esta associada com maior ação proliferativa de TAM (Treeck et al., 2010; Sun et al., 2014). Também foi observada a existência de “cross-talk” entre os RE e a família do receptor do fator de crescimento epidérmico (HER) na resposta ao tratamento com TAM (Lindberg et al., 2011; Blows et al., 2010). Objetivo: Verificar a expressão do REβ, e suas interações com REα e receptores HER, durante o tratamento com TAM e em células resistentes ao TAM. Métodos: A expressão do REβ foi analisada em dois bancos de dados contendo informações de pacientes com câncer de mama. A expressão de RNAm dos RE, receptores HER e vias de sinalização PTEN, Akt e MAPK foram avaliadas após tratamento com TAM, em células resistentes ao TAM e em células silenciadas para os genes dos RE. Também foi avaliada a viabilidade celular após tratamento com TAM e nas células silenciadas para os genes dos RE. Resultados: Pacientes com câncer de mama apresentaram expressão reduzida do REβ, e os subtipos de câncer de mama REα positivos apresentaram baixa expressão do REβ quando comparados aos subtipos REα negativos. Células expressando níveis moderados de REβ apresentaram melhor resposta ao tratamento com TAM. Diminuição nos níveis dos RE é acompanhada por aumento nos níveis dos receptores ErbB2 e ErbB3, aumento de PTEN e diminuição de Akt e MAPK3 após tratamento com TAM. ERβ modula a ação antiproliferativa do TAM através da via de MAPK3. Células resistentes ao TAM apresentaram baixos níveis dos RE e altos níveis dos receptores EGFR, ErbB3 e ErbB4. Conclusão: Estes resultados demonstram que o REβ, e suas interações com REα e receptores HER, possuem papel importante na resposta ao tratamento com TAM. / Introduction: Approximately two-thirds of all breast cancer patients overexpress hormonal receptors, and are treated with endocrine therapy, being tamoxifen (TAM) the standard treatment. However many of initial responders to TAM as first-line experience relapse. Several mechanisms have been proposed to explain the occurrence of acquired TAM resistance. Previous studies showed that estrogen receptor β (ERβ) expression is associated with better response to tamoxifen treatment, as the co-expression of ERα and ERβ is associated with TAM antiproliferative effects. Moreover, there is growing interest about the cross-talk between ERs and ErbB family in response to endocrine therapy. Suggesting that TAM can acts through ERβ and/or ErbB family as compensatory pathways. Objective: To evaluate the expression of ERβ and the relation of ERβ with ERα and ErbB family in response to TAM treatment and in TAM resistant cells. Methods: ERβ expression was analyzed in two different databases of breast cancer patients. The mRNA levels of ER, HER receptors and PTEN, Akt and MAPK signal pathways were measured after TAM treatment, in TAM resistance cells and in cells silenced for ER genes. The cellular viability was also measured after TAM treatment, in TAM resistance cells and in cells silenced for ER genes. Results: Breast cancer patients presented reduced ERβ expression and the ERα-positive breast cancer subtypes presented lower ERβ levels when compared to ERα-negative breast cancer subtypes. Cells expressing moderates levels of ERβ presented better response to TAM treatment. Down-regulation of ERs induced by TAM treatment are accompanied with an increase in ErbB2 and ErbB3, reduced AKT and MAPK3 mRNA levels and increased PTEN levels. ERβ modulates TAM anti-proliferative effects through MAPK3 pathway. TAM– resistant cells expressed decreased ER mRNA levels and increased EGFR, ErbB3 and ErbB4 levels. Demonstrating that the cross-talk between ERs and HER family influence the response to TAM treatment. Conclusion: These results provide additional data indicating the importance of ERβ, and the relation with ERα and HER receptors, to predict TAM responsiveness.
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Topoisomerase ll-a e Her-2 em tumores malignos de mama e de ovárioMano, Max Senna January 2006 (has links)
Introdução. O receptor epidérmico humano 2 (Her-2) e a topoisomerase-IIα (T2A) são dois marcadores biológicos importantes, ambos tendo um valor prognóstico e preditivo potencial em pacientes com tumores sólidos. A amplificação dos genes Her- 2 e T2A são eventos independentes, embora o último seja mais frequente em tumores com amplificação do Her-2 (34-90%), do que em tumores sem amplificação do Her-2 (5-10%). Existe uma melhor correlação entre amplificação e superexpressão do Her-2 no câncer de mama (CM) do que em outros tumores. No entanto, no CM, a correlação entre amplificação e superexpressão da T2A tem sido inconsistente, e existe uma carência de tais dados em outros tipos de tumores. A expressão da proteína T2A tem mostrado uma boa correlação com o índice de proliferação tumoral, particularmente no CM. Objetivos. Artigo 1: Sintetizar o conhecimento atual sobre a importância dos marcadores Her-2 e T2A nos tumores sólidos. Artigo 2: Investigar a prevalência de amplificação e superexpressão do Her-2 e da T2A, a correlação entre estas variáveis e a correlação entre as variáveis e estágio clínico, em amostras de câncer de ovário (CO) fixadas em parafina. Artigo 3: Investigar a prevalência de amplificação da T2A, assim como a correlação entre esta variável e a expressão da proteína T2A e do marcador de proliferação celular Ki-67, em amostras de CM fixadas em parafina, mostrando uma amplificação do Her-2. Métodos. Artigo 1: Os dados foram identificados através de busca em bases de dados eletrônicas (medline), livros de resumos de congressos e referências de artigos de revisão e originais. Artigo 2: 73 amostras de CO foram testadas para amplificação e superexpressão do Her-2 e T2A, por hibridização in situ fluorescente (FISH) e imuno-histoquímica (IHC), respectivamente. Artigo 3: 103 amostras de CM, com amplificação do Her-2, foram testadas para amplificação do gene T2A (por FISH) e superexpressão das proteínas T2A e Ki-67 (por IHC). Resultados. Artigo 2: Com base nos pontos de corte >1.5 e >2 (relação cópias/CEP17), as taxas de amplificação do Her-2 foram 15/64(23.4%) e 8/64(12.5%), versus 16/64(25%) e 5/64(7.8 %) para a T2A. Encontramos somente 3/72(4.2%) casos de superexpressão do Her-2(3+), contra 15/70(21.4%) para a T2A (marcagem em >10% das células). Foi observada uma modesta correlação entre amplificação e superexpressão da T2A (p= 0.01) e uma forte correlação entre amplificação da T2A e do Her-2, quando analisados como variáveis contínuas (p<0.001). A amplificação da T2A correlacionou-se com estágio FIGO avançado (p= 0.02). Artigo 3: Uma amplificação do gene T2A foi observada em 36.9%(38/103) dos casos. Os níveis de amplificação do Her-2 (número de cópias) não se correlacionaram com a amplificação da T2A. A porcentagem média de células positivas para a T2A (por IHC) foi de 5% e 10%, para casos T2A não-amplificados e amplificados, respectivamente. Uma correlação fraca, mas ainda significativa, foi observada entre amplificação do gene T2A e porcentagem de células T2A-positivas por IHC (Spearman=0.23, p=0.02); a correlação entre estas duas variáveis foi mais forte em tumores Ki-67 positivos. Conclusões. Artigo 2 : A avaliação da amplificação e da superexpressão do Her-2 e da T2A, por FISH e IHC, respectivamente, é realizável em amostras de CO. Foi observada uma boa correlação entre a amplificação dos genes Her-2 e T2A, mas a correlação entre amplificação do gene e superexpressão da proteína foi fraca para ambos marcadores. As taxas de amplificação dos genes Her-2 e T2A são mais elevadas quando não é realizada correção para o número de cópias do CEP17. Parece existir uma boa correlação entre amplificação da T2A e estágio clínico avançado. Estudos adicionais serão necessários para determinar o melhor ponto de corte para estes marcadores. Artigo 3: Contrariamente ao Her-2, a amplificação do gene T2A não parece necessariamente levar à superexpressão da proteína no CM. Outros fatores, como o índice de proliferação celular, podem interferir na síntese da proteína T2A. Embora a maioria dos casos de aberrações do gene T2A ocorram em tumores Her-2 positivos, os níveis de amplificação do Her-2 não se correlacionaram com a amplificação do gene T2A. / Background. The human epidermal receptor 2 (Her-2) and topoisomerase-IIα (T2A) are two important biomarkers, with potential prognostic and predictive value in patients with solid tumours. Her-2 and T2A gene amplification are separate events, although the latter is more frequently seen in Her-2 amplified (34-90%) than in Her-2 non-amplified (5-10%) tumours. There is a better correlation between Her-2 amplification and protein overexpression in breast cancer (BC) than in other tumour types. Nevertheless, there is a doubtful correlation between T2A amplification and overexpression in BC, with virtually no data available in other tumour types. In BC, the expression of the T2A protein has shown a good correlation with tumour proliferation rate. Objectives. Article 1: To summarise the available literature on Her-2 and T2A in solid tumours. Article 2: To investigate the prevalence of Her-2 and T2A amplification and overexpression, the correlation between these variables and with clinical stage, in paraffin-embedded samples of ovarian cancer (OC). Article 3: To investigate the prevalence of T2A amplification, as well as the correlation between this variable and the expression of T2A protein and the proliferation marker Ki-67, in paraffinembedded samples of Her-2 amplified BC. Methods. Article 1: The data were identified through search in electronic databases (medline), abstract books and references from review and original articles. Article 2: 73 samples of OC were tested for Her-2 and T2A amplification and overexpression, by fluorescence in situ hybridisation (FISH) and immunohistochemistry (IHC), respectively. Article 3: 103 samples of Her-2 amplified BC were tested for T2A amplification (by FISH) and overexpression (by IHC), and Ki-67 expression (by IHC). Results. Article 2: Based on cut-offs of ≥1.5 and ≥2 (ratio copies/CEP17), amplification rates for Her-2 were 15/64(23.4%) and 8/64(12.5%) versus 16/64(25%) and 5/64(7.8%) for T2A. We found only 3/72(4.2%) cases of Her-2 overexpression(3+) versus 15/70(21.4%) for T2A (staining in >10% of the cells). There was a modest correlation between T2A amplification and overexpression (p=0.01) and a strong correlation between T2A and Her-2 amplification when these markers were analysed as continuous variables (p<0.001). T2A amplification significantly correlated with advanced FIGO stage (p=0.02). Article 3: T2A gene amplification was observed in 36.9%(38/103) of the Her-2 amplified samples. Her-2 amplification level (i.e. copy number) was not predictive of T2A amplification. The median percentage of T2A positive cells for T2A non-amplified and amplified cases were 5% and 10%, respectively. A weak but still significant correlation was observed between T2A gene amplification level and percentage of positively stained cells (Spearman=0.23, p=0.02), the observed correlation being higher in patients with positive staining for Ki-67. Conclusions. Article 2: The assessment of Her-2 and T2A amplification and overexpression by FISH and IHC, respectively, is feasible in OC samples. There was a good correlation between Her-2 and T2A gene amplification, but the correlation between gene amplification and protein overexpression was poor for both markers. Amplification rates were higher in the absence of correction for the number of copies of the CEP17. Finally, we found a good correlation between T2A amplification and advanced disease stage. Further studies should aim to determine the optimal cut-offs for these markers. Article 3: Contrary to Her-2, T2A gene amplification does not always lead to protein overexpression in BC. Other factors, especially tumour proliferation rate, may interfere with the T2A protein status. Although the majority of the cases of T2A gene aberrations are seen in Her-2 positive tumours, the level of Her-2 amplification does not predict for T2A amplification.
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A expressão imuno-histoquímica do marcador molecular Citoqueratina 19 e da proteína Her-2/neu (C-erbB2) em bócios operados na Fundação Hospital Adriano Jorge, em ManausCattebeke, Lesemky Carlile Herculano 12 December 2012 (has links)
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Previous issue date: 2012-12-12 / Cytokeratin 19 (CK 19) is a molecular marker that express cell replication and differentiation, and HER-2 oncogene (Human Epidermal Growth factor receptor-Type 2) is the second member of the human epidermal growth factor receptor (EGFR) family. Its overexpression can mean aggressiveness and poor prognostic in various kinds of tumors, as breast, lung and prostate. In last few decades the diagnostic of morphological changes of the thyroid gland was increased. When being diagnosed with ultrasound, the thyroid nodule prevalence reaches 20% to 30% in the general population. The aim of this prospective study is verify the presence of these markers in thyroid glands in operated non-coastal Amazon inhabitants, and its relationship with pathologic findings. We selected 34 samples of formalin-fixed, paraffin-embedded thyroid tumor tissues, from patients treated at Hospital Adriano Jorge, Manaus, Amazonas. The patients consisted of six men and 28 women, aged between 25 and 76 years, average 47 years. The tissues corresponded to nine multinodular goiter (MNG), seven colloid goiters (CG), five nodular hyperplasia (NH) four adenomatous goiters (AG), three papillary thyroid microcarcinoma (PTMC) and five papillary thyroid carcinomas (PTC). Immunohistochemistry (IHC) staining with CK 19 and HER-2 were performed using the labeled streptavidin biotin peroxidase complex system (LSAB2, DAKO, USA) on all tissues using monoclonal antibodies BA17 mab mouse (Dako M0772, USA) and SP3 rabbit mab (Spring M3034, USA) and inferential statistical analysis applying (Fisher exact test with 5% significance level). HER-2 IHC was not found in all samples. We found a strong positive reactivity for IHC CK19 in all 3 patients with PTMC, in four with PTC, one with MNG, and one with CG. We found focal positivity for CK 19 in one PTC, two MNG, 4 CG and one AG. Statistical significance was found only between CK 19 and histopathology. The results suggest thats HER-2 oncogene has no predictive or prognostic value in thyroid tissues and CK 19 marker showed affinity for PTC, although it is also found in benign tissues with less intensity. / A citoqueratina 19 (CK 19) é um marcador molecular que expressa diferenciação e replicação celular e o oncogene HER-2 (Human Epidermal Growth factor receptor-Type 2), membro da família Fator de Crescimento Epidérmico Humano (EGFR), uma proteína que quando sobre-expressa pode significar maior ploriferação celular e agressividade em vários tipos de tumores, dentre eles mama, pulmão e próstata. Nas últimas décadas vêm aumentando o diagnóstico de alterações morfológicas da glândula tireoide, sendo que quando diagnosticado à ultrassonografia a prevalência do nódulo tireoideano chega a 20% a 30% na população geral. Objetivamos neste estudo prospectivo verificar a presença destes marcadores em glândulas tireoideas operadas em pacientes habitantes em região amazônica não litorânea, e sua relação com as alterações morfológicas encontradas. Foram selecionadas 34 amostras de tecido tireoidiano preservados em formol e armazenados em parafina, de pacientes operados na Fundação Hospital Adriano Jorge, de Manaus, Amazonas. Os pacientes corresponderam a seis homens e 28 mulheres, com idade entre 25 e 76 anos e média de 47 anos. Os tecidos corresponderam a nove bócios multinodulares (BMN), sete bócios coloides (BC), cinco hiperplasias nodulares (HN) quatro bócios adenomatosos (BA), três microcarcinomas papilíferos (MCP) e cinco carcinomas papilíferos da tireóide (CPT). Exames de imuno-histoquímica em busca dos marcadores CK19 e HER-2 foram realizados em todos os tecidos usando anticorpos monoclonais BA17 (mab rato, Dako M0772, EUA) e SP3 (policlonal em coelho, Spring M3034, EUA) e o método esteptavidina-biotina-peroxidade (Kit LSAB, Dako, EUA) e análise estatística inferencial aplicando o teste Exato de Fisher com nível de significância de 5%. Não foi encontrada positividade para o marcador HER-2 em tecidos tireoidianos malignos ou benignos. Foram encontrados positividade média a forte intensidade para CK19 em todos os três pacientes com MCP, quatro CPT, um BMN e um BC. Foram encontrados positividade focal em um CPT, dois BMN, quatro BC e um BA. A análise estatística demonstrou significância estatística somente entre as variáveis CK 19 e tipo histopatológico. Os resultados da amostra analisada demonstraram que a pesquisa no oncogene HER-2 não apresentou presença deste marcador em nenhum dos tecidos tireoidianos, e o marcador CK 19 foi presente em maior intensidade nos casos de Carcinoma que nos tecidos benignos onde foi encontrado.
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Rôle de HCaRG/COMMD5 dans le carcinome à cellules rénales : une histoire de transition.Verissimo, Thomas 03 1900 (has links)
Dans les années 2000, la Dre Johanne Tremblay et son équipe identifient un gène régulé négativement par le calcium extracellulaire dans les glandes parathyroïdiennes de rat hypertendu (SHR). Initialement nommé Hypertension-related calcium regulated gene (HCaRG), puis COMM domain-containing 5 (COMMD5), ce gène codant pour une petite protéine de 24,67 kDa fait partie d’une famille de 10 protéines ayant une structure carboxy-terminale homologue nommée domaine COMM. De nombreux rôles ont été associés à cette famille de protéines et l’analyse expressionnelle dans différents types de cancers montre une modulation, laissant penser qu’elles auraient un rôle oncogénique ou suppresseur de tumeurs.
Les études ont démontré que COMMD5 entraine une maturation des jonctions cellulaires, une diminution de la prolifération et favorise la migration cellulaire. La surexpression de COMMD5 dans les tubules proximaux de rein accélère la réparation suite à un dommage aigu en limitant d’une part la prolifération tout en favorisant la migration et la re-différenciation cellulaire. Partant de ces observations, nous avons focalisé nos études sur le développement du carcinome à cellules rénales, une pathologie affectant 300 000 personnes chaque année dans le monde.
L’hypothèse que nous avons émise était que COMMD5 puisse potentiellement jouer un rôle anti-oncogénique dans le cancer du rein en contrôlant la prolifération et la différenciation cellulaires. Afin de vérifier notre hypothèse, nous avons étudié le rôle de COMMD5 dans le maintien de l’intégrité épithéliale des cellules via la régulation de la transition épithélio-mésenchymateuse (EMT) et le contrôle du récepteur du facteur de croissance épidermique (EGFR).
Nos résultats ont démontré que COMMD5 est diminuée dans les carcinomes rénaux et est corrélée avec la survie des patients. La présence du facteur de transcription induit par l’hypoxie 1 (HIF1α), exprimé dans la majorité des tumeurs solides rénales a induit une diminution de COMMD5. La perte de COMMD5 dans les cellules de tubules proximaux de reins humains (HK-2) a favorisé la dé-différenciation et la tumorigénicité des cellules, médiées par l’activation de la transition épithélio-mésenchymateuse. De plus, cette perte de COMMD5 a entrainé également une réorganisation du cytosquelette d’actine ayant pour conséquence la dérégulation endosomale du récepteur de l’EGF et favorisant une activation prolongée. Dans les carcinomes rénaux, la surexpression de COMMD5 a diminué la prolifération cellulaire suivie d’une re-différenciation grâce à deux mécanismes. D’une part, COMMD5 a régulé négativement la protéine HIF1α, induisant ainsi une transition mésenchymo-épithéliale (MET), tout en séquestrant le facteur de transcription SNAIL dans le cytoplasme. D’autre part, COMMD5 contrôle négativement l’expression transcriptionnelle des récepteurs ErbB par une hyperméthylation de leurs promoteurs.
Dans son ensemble, les résultats innovant de cette thèse démontrent que COMMD5 est un gène ayant des caractéristiques anti-oncogéniques en contrôlant la différenciation cellulaire via le mécanisme de transition épithélio-mésenchymateux et la régulation de l’expression des récepteurs ErbB. / In the 2000s, Dr. Johanne Tremblay and her team identified a gene that was negatively
regulated by extracellular calcium in hypertensive rat parathyroid glands. Originally named
Hypertension-related calcium regulated gene (HCaRG) and renamed COMM Domaincontaining
5 (COMMD5), this gene encoding a small protein of 24.67 kDa is part of a family of
10 proteins sharing a homologous structure in the carboxy-terminal position named COMM
domain. Many roles have been associated and expressional analysis of different types of
cancer shows a modulation suggesting that they have an oncogenic or tumor suppressor roles.
Studies have shown that COMMD5 induces maturation of the cell junctions, decreased cell
proliferation and promotes migration. The overexpression of COMMD5 in the renal proximal
tubules accelerates repair by promoting cell proliferation and ultimately induces cell migration
and redifferentiation after acute injury. Based on these observations, we focused on the
development of renal cell carcinoma, a disease affecting 300,000 people each year worldwide.
Our hypothesis is that COMMD5 plays a tumor suppressor role in kidney cancer by
controlling cell proliferation and differentiation. To test our hypothesis, we investigated the
role of COMMD5 in maintaining the epithelial integrity of cells through the regulation of
epithelial to mesenchymal transition (EMT) and the control of epidermal growth factor
receptors (EGFR).
The results showed that COMMD5 is decreased in kidney carcinomas resulting of a
great negative indicator of the survival prognostic. The presence of hypoxia-inducible factor
1a (HIF1α), expressed in the majority of solid tumors, leads to a decrease of COMMD5 in the proximal tubule cells (HK-2). Inhibition of COMMD5 promotes dedifferentiation and
tumorigenicity of cells mediated by epithelial to mesenchymal transition. The loss of COMMD5
induces a reorganization of the actin cytoskeleton resulting in endosomal dysregulation of the
EGFR receptor and promoting its activation.
In renal cell carcinoma, COMMD5 overexpression decreases cell proliferation and
induces their redifferentiation by two mechanisms: firstly, COMMD5 induces an inhibition of
the HIF1α protein expression resulting in a mesenchymal to epithelial transition and
sequesters the SNAIL transcription factor in the cytoplasm; secondly, COMMD5 negatively
regulates the transcriptional expression of the ErbB receptors.
Taken together, these results of this thesis show that COMMD5 is a gene showing
tumor suppressor characteristics by controlling cellular differentiation and by regulating the
expression of ErbB receptors.
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Growth factor activation of ErbB2/ErbB3 signaling pathways regulate the activity of Estrogen Receptors (ER)Sanchez, Melanie 04 1900 (has links)
La signalisation par l’estrogène a longtemps été considérée comme jouant un rôle critique dans le développement et la progression des cancers hormono-dépendants tel que le cancer du sein. Deux tiers des cancers du sein expriment le récepteur des estrogènes (ER) qui constitue un élément indiscutable dans cette pathologie. L’acquisition d’une résistance endocrinienne est cependant un obstacle majeur au traitement de cette forme de cancer. L’émergence de cancers hormono-indépendants peut est produite par l’activation de ER en absence d’estrogène, l’hypersensibilité du récepteur aux faibles concentrations plasmique d’estrogène ainsi que l’activation de ER par des modulateurs sélectifs. L’activité du ER est fortement influencée par l’environnement cellulaire tel que l’activation de voie de signalisation des facteurs de croissances, la disponibilité de protéines co-régulatrices et des séquences promotrices ciblées. Présentement, les études ont principalement considérées le rôle de ERα, cependant avec la découverte de ERβ, notre compréhension de la diversité des mécanismes potentiels impliquant des réponses ER-dépendantes s’est améliorée. L’activation des voies des kinases par les facteurs de croissance entraîne le développement d’un phénotype tumoral résistant aux traitements actuels. Nos connaissances des voies impliquées dans l’activation de ER sont restreintes. ERα est considéré comme le sous-type dominant et corrèle avec la plupart des facteurs de pronostic dans le cancer du sein. Le rôle de ERβ reste imprécis. Les résultats présentés dans cette thèse ont pour objectif de mieux comprendre l’implication de ERβ dans la prolifération cellulaire par l’étude du comportement de ERβ et ERα suite à l’activation des voies de signalisation par les facteurs de croissance.
Nous démontrons que l’activation des récepteurs de surfaces de la famille ErbB, spécifiquement ErbB2/ErbB3, inhibe l’activité transcriptionnelle de ERβ, malgré la présence du coactivateur CBP, tout en activant ERα. De plus, l’inhibition de ERβ est attribuée à un résidu sérine (Ser-255) situé dans la région charnière, absente dans ERα. Des études supplémentaires de ErbB2/ErbB3 ont révélé qu’ils activent la voie PI3K/Akt ciblant à son tour la Ser-255. En effet, cette phosphorylation de ERβ par PI3K/Akt induit une augmentation de l’ubiquitination du récepteur qui promeut sa dégradation par le système ubiquitine-protéasome. Cette dégradation est spécifique pour ERβ. De façon intéressante, la dégradation par le protéasome requiert la présence du coactivateur CBP normalement requis pour l’activité transcriptionnelle des récepteurs nucléaires. Malgré le fait que l’activation de la voie PI3K/Akt corrèle avec une diminution de l’expression des gènes sous le contrôle de ERβ, on observe une augmentation de la prolifération des cellules cancéreuses. L’inhibition de la dégradation de ERβ réduit cette prolifération excessive causée par le traitement avec Hrgβ1, un ligand de ErbB3. Un nombre croissant d’évidences indique que les voies de signalisations des facteurs de croissance peuvent sélectivement réguler l’activité transcriptionnelle de sous-types de ER. De plus, le ratio ERα/ERβ dans les cancers du sein devient un outil de diagnostique populaire afin de déterminer la sévérité d’une tumeur. En conclusion, la caractérisation moléculaire du couplage entre la signalisation des facteurs de croissance et la fonction des ERs permettra le développement de nouveaux traitements afin de limiter l’apparition de cellules tumorales résistantes aux thérapies endocriniennes actuelles. / It has long been appreciated that estrogenic signaling plays a critical role in the development of hormone-dependent cancers such as breast cancer. Two-thirds of breast cancers express estrogen receptor (ER) which has been demonstrated to play an irrefutable role in tumour development and progression. However the acquisition of endocrine resistance has become a major obstacle in the treatment of hormone-dependent cancers that have acquired a hormone-independent state.
Hormone-independent cancers emerge from an array of pathways involving ER activation in the absence of estrogen, hypersensitivity of ER to low serum levels of estrogen and activation by estrogen antagonists. The activity of ER is critically influenced by the cellular environment such as growth factor signaling pathways, availability of coregulatory proteins and the promoter sequence of target genes. The mechanisms studied have mostly considered the role of ERα, however with the discovery of the second subtype, ERβ, the understanding on the diversity of potential mechanisms involving ER-dependent responses have improved. Hormonal-independent activation of ER can occur in estrogen-dependent breast tumours, with concomitant rise in kinase signaling pathways, resulting in the acquisition of a therapeutic resistant phenotype in treated women. Our knowledge is relatively limited on which pathways trigger ER signaling and how these phosphorylation-coupled events affect ER activity. ERα is considered the dominant subtype and correlates with most of the prognostic factors in breast cancers. Conversely the role of ERβ remains unclear. The results presented in this thesis were carried out with the objective of gaining a better understanding of ERβ’s role in cellular proliferation by examining the behavior of ERβ and ERα during the activation of growth factor signaling pathways by cell-surface receptor-tyrosine kinases.
We demonstrate here that the activation of cell surface receptors of the ErbB family, specifically ErbB2/ErbB3, inhibits the transcriptional activity of ERβ despite the presence of the coactivator CBP, yet activated ERα. Furthermore the inhibition of ERβ was attributed to a specific serine residue located within the hinge region, not present in ERα. Additional studies of ErbB2/ErbB3-initiated signaling revealed that it triggered the activation of the PI3K/Akt pathway which targeted the serine residue within the hinge region of ERβ. In fact, phosphorylation of ERβ by the PI3K/Akt pathway led to an increase in receptor ubiquitination which promoted its degradation by the ubiquitin-proteasome system which was subtype specific. Interestingly, proteasomal degradation required the presence of the coactivator CBP, which is normally involved in assisting nuclear receptor transcriptional activity. Although the activation of the PI3K/Akt pathway correlated with a decrease in the expression of ERβ target genes it led to an increase in the proliferation of breast cancer cells. Inhibiting the degradation of ERβ reduced the enhanced proliferation of breast cancer cells brought about by the treatment of ErbB3’s ligand, Hrgβ1.
Increasing evidence indicates that growth factor signaling pathways can selectively regulate the transcriptional activity of ER subtypes, and the ratio of ERα/ERβ expression in breast tumours is becoming a popular prognostic factor to evaluate the severity of the tumour. Therefore the molecular characterization of the coupling between growth factor signaling and ER function should provide improved therapeutical approaches to overcome or delay the onset of resistance to endocrine therapy in hormone-dependent cancers.
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