Your search keyword '"Mancini, Mariana Camargo Silva"' showing total 3 results

1. STAT3 contributes to cisplatin resistance, modulating EMT markers, and the mTOR signaling in lung adenocarcinoma.

Author

Morelli, Ana Paula, Tortelli, Tharcísio Citrângulo, Mancini, Mariana Camargo Silva, Pavan, Isadora Carolina Betim, Silva, Luiz Guilherme Salvino, Severino, Matheus Brandemarte, Granato, Daniela Campos, Pestana, Nathalie Fortes, Ponte, Luis Gustavo Saboia, Peruca, Guilherme Francisco, Pauletti, Bianca Alves, dos Santos, Daniel Francisco Guimarães, de Moura, Leandro Pereira, Bezerra, Rosângela Maria Neves, Leme, Adriana Franco Paes, Chammas, Roger, and Simabuco, Fernando Moreira

Subjects

*STAT proteins, *CISPLATIN, *RAPAMYCIN, *LUNGS, *CELLULAR signal transduction, *NON-small-cell lung carcinoma, *OTOTOXICITY

Abstract

• SILAC proteomics approach yielded important cisplatin resistance biomarkers in NSCLC. • Cisplatin resistance upregulated NER-based repair and downregulated mRNA splicing-related pathways. • STAT3 KO conferred epithelial morphology and sensitized to mTOR inhibition. • Cisplatin responsiveness is dependent on STAT3 and mTOR crosstalk in NSCLC cells. • Synergistically inhibition of STAT3 and mTOR is possibly a potential approach against NSCLC. Lung cancer is the second leading cause of cancer death worldwide and is strongly associated with cisplatin resistance. The transcription factor signal transducer and activator of transcription 3 (STAT3) is constitutively activated in cancer cells and coordinates critical cellular processes as survival, self-renewal, and inflammation. In several types of cancer, STAT3 controls the development, immunogenicity, and malignant behavior of tumor cells while it dictates the responsiveness to radio- and chemotherapy. It is known that STAT3 phosphorylation at Ser727 by mechanistic target of rapamycin (mTOR) is necessary for its maximal activation, but the crosstalk between STAT3 and mTOR signaling in cisplatin resistance remains elusive. In this study, using a proteomic approach, we revealed important targets and signaling pathways altered in cisplatin-resistant A549 lung adenocarcinoma cells. STAT3 had increased expression in a resistance context, which can be associated with a poor prognosis. STAT3 knockout (SKO) resulted in a decreased mesenchymal phenotype in A549 cells, observed by clonogenic potential and by the expression of epithelial-mesenchymal transition markers. Importantly, SKO cells did not acquire the mTOR pathway overactivation induced by cisplatin resistance. Consistently, SKO cells were more responsive to mTOR inhibition by rapamycin and presented impairment of the feedback activation loop in Akt. Therefore, rapamycin was even more potent in inhibiting the clonogenic potential in SKO cells and sensitized to cisplatin treatment. Mechanistically, STAT3 partially coordinated the cisplatin resistance phenotype via the mTOR pathway in non-small cell lung cancer. Thus, our findings reveal important targets and highlight the significance of the crosstalk between STAT3 and mTOR signaling in cisplatin resistance. The synergic inhibition of STAT3 and mTOR potentially unveil a potential mechanism of synthetic lethality to be explored for human lung cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2021

2. NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells.

Author

Pavan, Isadora Carolina Betim, Basei, Fernanda Luisa, Severino, Matheus Brandemarte, Rosa e Silva, Ivan, Issayama, Luidy Kazuo, Mancini, Mariana Camargo Silva, Góis, Mariana Marcela, da Silva, Luiz Guilherme Salvino, Bezerra, Rosangela Maria Neves, Simabuco, Fernando Moreira, and Kobarg, Jörg

Subjects

*DNA repair, *CANCER cells, *GENE expression, *CASTRATION-resistant prostate cancer, *PROSTATE cancer, *CELL death

Abstract

NEK6 is a central kinase in developing castration-resistant prostate cancer (CRPC). However, the pathways regulated by NEK6 in CRPC are still unclear. Cancer cells have high reactive oxygen species (ROS) levels and easily adapt to this circumstance and avoid cell death by increasing antioxidant defenses. We knocked out the NEK6 gene and evaluated the redox state and DNA damage response in DU-145 cells. The knockout of NEK6 decreases the clonogenic capacity, proliferation, cell viability, and mitochondrial activity. Targeting the NEK6 gene increases the level of intracellular ROS; decreases the expression of antioxidant defenses (SOD1, SOD2, and PRDX3); increases JNK phosphorylation, a stress-responsive kinase; and increases DNA damage markers (p-ATM and γH2AX). The exogenous overexpression of NEK6 also increases the expression of these same antioxidant defenses and decreases γH2AX. The depletion of NEK6 also induces cell death by apoptosis and reduces the antiapoptotic Bcl-2 protein. NEK6-lacking cells have more sensitivity to cisplatin. Additionally, NEK6 regulates the nuclear localization of NF-κB2, suggesting NEK6 may regulate NF-κB2 activity. Therefore, NEK6 alters the redox balance, regulates the expression of antioxidant proteins and DNA damage, and its absence induces the death of DU-145 cells. NEK6 inhibition may be a new strategy for CRPC therapy. [ABSTRACT FROM AUTHOR]

Published

2023

3. The Hallmarks of Flavonoids in Cancer.

Author

Ponte, Luis Gustavo Saboia, Pavan, Isadora Carolina Betim, Mancini, Mariana Camargo Silva, da Silva, Luiz Guilherme Salvino, Morelli, Ana Paula, Severino, Matheus Brandemarte, Bezerra, Rosangela Maria Neves, Simabuco, Fernando Moreira, and Giampieri, Francesca

Subjects

*FLAVONOIDS, *INHIBITION of cellular proliferation, *CELL cycle, *DISEASE progression, *CELL growth

Abstract

Flavonoids represent an important group of bioactive compounds derived from plant-based foods and beverages with known biological activity in cells. From the modulation of inflammation to the inhibition of cell proliferation, flavonoids have been described as important therapeutic adjuvants against several diseases, including diabetes, arteriosclerosis, neurological disorders, and cancer. Cancer is a complex and multifactor disease that has been studied for years however, its prevention is still one of the best known and efficient factors impacting the epidemiology of the disease. In the molecular and cellular context, some of the mechanisms underlying the oncogenesis and the progression of the disease are understood, known as the hallmarks of cancer. In this text, we review important molecular signaling pathways, including inflammation, immunity, redox metabolism, cell growth, autophagy, apoptosis, and cell cycle, and analyze the known mechanisms of action of flavonoids in cancer. The current literature provides enough evidence supporting that flavonoids may be important adjuvants in cancer therapy, highlighting the importance of healthy and balanced diets to prevent the onset and progression of the disease. [ABSTRACT FROM AUTHOR]

Published

2021