Your search keyword '"Soares, Raquel"' showing total 5 results

1. Does body mass index influence surgical options and overall survival in breast cancer patients?

Author

Luís, Carla, Fernandes, Rute, Dias, João, Pereira, Deolinda, Machado, Firmino, Baylina, Pilar, Fernandes, Rúben, and Soares, Raquel

Published

2023

2. A retrospective study in tumour characteristics and clinical outcomes of overweight and obese women with breast cancer

Author

Luís, Carla, Dias, João, Firmino-Machado, João, Fernandes, Rute, Pereira, Deolinda, Baylina, Pilar, Fernandes, Rúben, and Soares, Raquel

Published

2023

3. Breast Cancer Molecular Subtypes Differentially Express Gluconeogenic Rate-Limiting Enzymes—Obesity as a Crucial Player.

Author

Luís, Carla, Schmitt, Fernando, Fernandes, Rute, Coimbra, Nuno, Rigor, Joana, Dias, Paula, Leitão, Dina, Fernandes, Rúben, and Soares, Raquel

Subjects

OBESITY complications, HYPERTENSION, IMMUNOHISTOCHEMISTRY, MOLECULAR pathology, PHOSPHATASES, CELL physiology, DIABETES, LYASES, GENE expression, HYPERLIPIDEMIA, WARBURG Effect (Oncology), COMPARATIVE studies, FAT cells, DESCRIPTIVE statistics, RESEARCH funding, CELL lines, BODY mass index, DATA analysis software, BREAST tumors, GLYCOLYSIS

Abstract

Simple Summary: Breast cancer is a complex pathology characterized by several features including molecular subtype (MS). Immunohistochemistry assays were used to investigate the expression of enzymes involved in glycolysis and gluconeogenesis. The analysis involved stratifying the data based on MS, body mass index (BMI), and the combination of BMI with MS (mBMI). This study revealed significant differences in the expression of three specific enzymes—pyruvate carboxylase (PC), phosphoenolpyruvate carboxykinase (PCK), and fructose-1,6-bisphosphatase (FBP)—among tumor cells when stratified by MS and mBMI. Moreover, the expression levels of these enzymes were found to be closely related to hormonal receptor and HER2 status, as well as correlated pathological stage and histological grade. Obesity appeared to have an impact on these differences, particularly in the expression of PC. However, it was observed that these differences were not influenced by the presence of adipocyte deposition or inflammatory infiltration within the tumor microenvironment. Nevertheless, the expression of PCK and FBP was also influenced by the presence of obesity-related conditions such as diabetes, hypertension, and dyslipidemia. In summary, this study highlights the existence of distinct metabolic profiles for breast cancer based on its molecular subtypes, and how these profiles are affected by obesity and related health conditions. Breast cancer is a heterogeneous entity, where different molecular subtypes (MS) exhibit distinct prognostic and therapeutic responses. A series of 62 breast cancer samples stratified by MS was obtained from the tumor biobank of IPO-Porto. The expression of glycolysis and gluconeogenesis-regulating enzymes was investigated by immunohistochemistry. Data analysis included stratification according to MS, body mass index (BMI), and BMI with MS (mBMI). We observed significant differences in pyruvate carboxylase (PC), phosphoenolpyruvate carboxykinase (PCK), and fructose-1,6-bisphosphatase (FBP) tumor cell expression when stratified by MS and mBMI. The expression of these enzymes was also statistically dependent on hormonal receptors and HER2 status and correlated with pathological stage and histological grade. Obesity tended to attenuate these differences, particularly in PC expression, although these were not affected by adipocyte deposition or inflammatory infiltration at the tumor microenvironment. Nonetheless, PCK and FBP expression was also modified by the presence of obesity-associated disorders like diabetes, hypertension, and dyslipidemia. Taken together, these findings identify metabolic fingerprints for breast cancer as distinct histological types, which are affected by the presence of obesity and obesity-associated conditions. Despite the biological role of the differential expression of enzymes remaining unknown, the current study highlights the need to identify the expression of gluconeogenic-regulating enzymes as a tool for personalized medicine. [ABSTRACT FROM AUTHOR]

Published

2023

4. The Influence of Adipocyte Secretome on Selected Metabolic Fingerprints of Breast Cancer Cell Lines Representing the Four Major Breast Cancer Subtypes.

Author

Luís, Carla, Guerra-Carvalho, Bárbara, Braga, Patrícia C., Guedes, Carla, Patrício, Emília, Alves, Marco G., Fernandes, Ruben, and Soares, Raquel

Subjects

METABOLOMIC fingerprinting, CELL lines, CANCER cells, FAT cells, BREAST cancer, ADIPOGENESIS, METABOLOMICS

Abstract

Molecular subtype (MS) is one of the most used classifications of breast cancer (BC). Four MSs are widely accepted according to receptor expression of estrogen, progesterone, and HER2. The impact of adipose tissue on BC MS metabolic impairment is still unclear. The present work aims to elucidate the metabolic alterations in breast cancer cell lines representing different MSs subjected to adipocyte associated factors. Preadipocytes isolated from human subcutaneous adipose tissue were differentiated into mature adipocytes. MS representative cell lines were exposed to mature adipocyte secretome. Extracellular medium was collected for metabolomics and RNA was extracted to evaluate enzymatic expression by RT-PCR. Adipocyte secretome exposure resulted in a decrease in the Warburg effect rate and an increase in cholesterol release. HER2+ cell lines (BT-474 and SK-BR-3) exhibited a similar metabolic pattern, in contrast to luminal A (MCF-7) and triple negative (TN) (MDA-MB-231), both presenting identical metabolisms. Anaplerosis was found in luminal A and TN representative cells, whereas cataplerotic reactions were likely to occur in HER2+ cell lines. Our results indicate that adipocyte secretome affects the central metabolism distinctly in each BC MS representative cell line. [ABSTRACT FROM AUTHOR]

Published

2023

5. Warburg Effect Inversion: Adiposity shifts central primary metabolism in MCF-7 breast cancer cells.

Author

Luis, Carla, Duarte, Fernanda, Faria, Isabel, Jarak, Ivana, Oliveira, Pedro F., Alves, Marco G., Soares, Raquel, and Fernandes, Rúben

Subjects

*METABOLISM, *CANCER cells, *BREAST cancer, *CELL metabolism, *OBESITY, *CELL survival

Abstract

Abstract Aims Obesity is a complex health disorder and a trigger to many diseases like Diabetes mellitus (DM) and breast cancer (BrCa), both leading causes of morbidity and mortality worldwide. Also evidence demonstrates that abnormal glucose metabolism termed 'the Warburg effect' in cancer cell is closely associated with malignant phenotypes and promote the aggressiveness of several types of cancer, including BrCa. In this study, we evaluated the breast cancer cell metabolism in normoglycemia, hyperglycemia and in an obesity condition in order to clarify the potential underlined mechanisms that link these disorders. Materials and methods MCF-7 cells were exposed to low and high glucose levels, the latter either in the presence of 3T3-L1 adipocyte conditioned medium (CM), thus mimicking the adiposity observed in obese patients. Cell viability, migration, proliferation, cytotoxicity and cell death assays were performed under the different culture conditions. Hormonal and lipid profile were also characterized by biochemical assays and primary metabolism was determined by Nuclear Magnetic Resonance (NMR)-based metabolomics. Results Our results show an increased aggressiveness in the condition mimicking diabetogenic obesity with an altered energy/lipid metabolism. Interestingly in the experimental obesity-mimicking status, lipids and amino acids were expended while glucose was produced by tumor cells from lactate. These findings reveal a shift on tumor cells metabolism that is opposite to 'the Warburg effect'. Conclusions Overall, this experimentally obesity-mimicking condition not only revealed an increased tumor proliferation and aggressiveness but also disclosed a new mechanism of cancer metabolism, the 'Warburg Effect Inversion'. [ABSTRACT FROM AUTHOR]

Published

2019