Your search keyword '"Esposito, Franca"' showing total 6 results

1. TRAP1 Is Involved in BRAF Regulation and Downstream Attenuation of ERK Phosphorylation and Cell-Cycle Progression: A Novel Target for BRAF-Mutated Colorectal Tumors

Author

Condelli, Valentina, primary, Piscazzi, Annamaria, additional, Sisinni, Lorenza, additional, Matassa, Danilo Swann, additional, Maddalena, Francesca, additional, Lettini, Giacomo, additional, Simeon, Vittorio, additional, Palladino, Giuseppe, additional, Amoroso, Maria Rosaria, additional, Trino, Stefania, additional, Esposito, Franca, additional, and Landriscina, Matteo, additional

Published

2014

2. Sorcin Induces a Drug-Resistant Phenotype in Human Colorectal Cancer by Modulating Ca2+ Homeostasis

Author

Maddalena, Francesca, primary, Laudiero, Gabriella, additional, Piscazzi, Annamaria, additional, Secondo, Agnese, additional, Scorziello, Antonella, additional, Lombardi, Valentina, additional, Matassa, Danilo Swann, additional, Fersini, Alberto, additional, Neri, Vincenzo, additional, Esposito, Franca, additional, and Landriscina, Matteo, additional

Published

2011

3. Mitochondrial Chaperone Trap1 and the Calcium Binding Protein Sorcin Interact and Protect Cells against Apoptosis Induced by Antiblastic Agents

Author

Landriscina, Matteo, primary, Laudiero, Gabriella, additional, Maddalena, Francesca, additional, Amoroso, Maria Rosaria, additional, Piscazzi, Annamaria, additional, Cozzolino, Flora, additional, Monti, Maria, additional, Garbi, Corrado, additional, Fersini, Alberto, additional, Pucci, Piero, additional, and Esposito, Franca, additional

Published

2010

4. Sorcin Induces a Drug-Resistant Phenotype in Human Colorectal Cancer by Modulating Ca2+ Homeostasis.

Author

Maddalena, Francesca, Laudiero, Gabriella, Piscazzi, Annamaria, Secondo, Agnese, Scorziello, Antonella, Lombardi, Valentina, Matassa, Danilo Swann, Fersini, Alberto, Neri, Vincenzo, Esposito, Franca, and Landriscina, Matteo

Subjects

*SORCIN, *COLON cancer, *HOMEOSTASIS, *CARRIER proteins, *OXALIPLATIN, *ENDOPLASMIC reticulum

Abstract

The Ca2+-binding protein sorcin regulates intracellular calcium homeostasis and plays a role in the induction of drug resistance in human cancers. Recently, an 18 kDa mitochondrial isoform of sorcin was reported to participate in antiapoptosis in human colorectal cancer (CRC), but information remains lacking about the functional role of the more abundant 22 kDa isoform of sorcin expressed in CRC. We found the 22 kDa isoform to be widely expressed in human CRC cells, whether or not they were drug resistant. Its upregulation in drugsensitive cells induced resistance to 5-fluorouracil, oxaliplatin, and irinotecan, whereas its downregulation sensitized CRC cells to these chemotherapeutic agents. Sorcin enhances the accumulation of Ca2+ in the endoplasmic reticulum (ER), preventing ER stress, and, in support of this function, we found that the 22 kDa isoform of sorcin was upregulated under conditions of ER stress. In contrast, RNAi-mediated silencing of sorcin activated caspase-3, caspase-12, and GRP78/BiP, triggering apoptosis through the mitochondrial pathway. Our findings establish that CRC cells overexpress sorcin as an adaptive mechanism to prevent ER stress and escape apoptosis triggered by chemotherapeutic agents, prompting its further investigation as a novel molecular target to overcome MDR. [ABSTRACT FROM AUTHOR]

Published

2011

5. TRAP1 Is Involved in BRAF Regulation and Downstream Attenuation of ERK Phosphorylation and Cell-Cycle Progression: A Novel Target for BRAF-Mutated Colorectal Tumors

Author

Francesca Maddalena, Matteo Landriscina, Vittorio Simeon, Giacomo Lettini, Maria Rosaria Amoroso, Danilo Swann Matassa, Valentina Condelli, Stefania Trino, Lorenza Sisinni, Franca Esposito, Giuseppe Palladino, Annamaria Piscazzi, Condelli, V., Piscazzi, A., Sisinni, L., Matassa, DANILO SWANN, Maddalena, F., Lettini, G., Simeon, V., Palladino, G., Amoroso, M. R., Trino, S., Esposito, Franca, Landriscina, M., Condelli, Valentina, Piscazzi, Annamaria, Sisinni, Lorenza, Matassa, Danilo Swann, Maddalena, Francesca, Lettini, Giacomo, Simeon, Vittorio, Palladino, Giuseppe, Amoroso, Maria Rosaria, Trino, Stefania, and Landriscina, Matteo

Subjects

Proto-Oncogene Proteins B-raf, Cancer Research, Colorectal cancer, Cell, Biology, Bioinformatics, TRAP1, Cell Line, Tumor, medicine, Humans, Gene silencing, HSP90 Heat-Shock Proteins, Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Cell growth, Cell Cycle, Ubiquitination, Cell cycle, medicine.disease, Hsp90, medicine.anatomical_structure, Oncology, Mutation, Cancer cell, biology.protein, Cancer research, Colorectal Neoplasms

Abstract

Human BRAF-driven tumors are aggressive malignancies with poor clinical outcome and lack of sensitivity to therapies. TRAP1 is a HSP90 molecular chaperone deregulated in human tumors and responsible for specific features of cancer cells, i.e., protection from apoptosis, drug resistance, metabolic regulation, and protein quality control/ubiquitination. The hypothesis that TRAP1 plays a regulatory function on the BRAF pathway, arising from the observation that BRAF levels are decreased upon TRAP1 interference, was tested in human breast and colorectal carcinoma in vitro and in vivo. This study shows that TRAP1 is involved in the regulation of BRAF synthesis/ubiquitination, without affecting its stability. Indeed, BRAF synthesis is facilitated in a TRAP1-rich background, whereas increased ubiquitination occurs upon disruption of the TRAP1 network that correlates with decreased protein levels. Remarkably, BRAF downstream pathway is modulated by TRAP1 regulatory activity: indeed, TRAP1 silencing induces (i) ERK phosphorylation attenuation, (ii) cell-cycle inhibition with cell accumulation in G0–G1 and G2–M transitions, and (iii) extensive reprogramming of gene expression. Interestingly, a genome-wide profiling of TRAP1-knockdown cells identified cell growth and cell-cycle regulation as the most significant biofunctions controlled by the TRAP1 network. It is worth noting that TRAP1 regulation on BRAF is conserved in human colorectal carcinomas, with the two proteins being frequently coexpressed. Finally, the dual HSP90/TRAP1 inhibitor HSP990 showed activity against the TRAP1 network and high cytostatic potential in BRAF-mutated colorectal carcinoma cells. Therefore, this novel TRAP1 function represents an attractive therapeutic window to target dependency of BRAF-driven tumors on TRAP1 translational/quality control machinery. Cancer Res; 74(22); 6693–704. ©2014 AACR.

Published

2014

6. Mitochondrial chaperone Trap1 and the calcium binding protein Sorcin interact and protect cells against apoptosis induced by antiblastic agents

Author

Maria Rosaria Amoroso, Franca Esposito, Piero Pucci, Alberto Fersini, Annamaria Piscazzi, Corrado Garbi, Flora Cozzolino, Matteo Landriscina, Francesca Maddalena, Maria Chiara Monti, Gabriella Laudiero, Landriscina, M, Laudiero, G, Maddalena, F, Amoroso, MARIA ROSARIA, Piscazzi, A, Cozzolino, Flora, Monti, Maria, Garbi, Corrado, Fersini, A, Pucci, Pietro, and Esposito, Franca

Subjects

Cancer Research, Programmed cell death, Small interfering RNA, Cell, Apoptosis, Bone Neoplasms, Mitochondrion, Substrate Specificity, Small hairpin RNA, Calcium-binding protein, Cell Line, Tumor, medicine, Humans, HSP90 Heat-Shock Proteins, Osteosarcoma, biology, Binding protein, Calcium-Binding Proteins, HCT116 Cells, Cell biology, Mitochondria, Protein Structure, Tertiary, medicine.anatomical_structure, Oncology, Drug Resistance, Neoplasm, Chaperone (protein), Colonic Neoplasms, biology.protein, Calcium

Abstract

TRAP1, a mitochondrial chaperone (Hsp75) with antioxidant and antiapoptotic functions, is involved in multidrug resistance in human colorectal carcinoma cells. Through a proteomic analysis of TRAP1 coimmunoprecipitation complexes, the Ca2+-binding protein Sorcin was identified as a new TRAP1 interactor. This result prompted us to investigate the presence and role of Sorcin in mitochondria from human colon carcinoma cells. Using fluorescence microscopy and Western blot analysis of purified mitochondria and submitochondrial fractions, we showed the mitochondrial localization of an isoform of Sorcin with an electrophoretic motility lower than 20 kDa that specifically interacts with TRAP1. Furthermore, the effects of overexpressing or downregulating Sorcin and/or TRAP1 allowed us to demonstrate a reciprocal regulation between these two proteins and to show that their interaction is required for Sorcin mitochondrial localization and TRAP1 stability. Indeed, the depletion of TRAP1 by short hairpin RNA in colorectal carcinoma cells lowered Sorcin levels in mitochondria, whereas the depletion of Sorcin by small interfering RNA increased TRAP1 degradation. We also report several lines of evidence suggesting that intramitochondrial Sorcin plays a role in TRAP1 cytoprotection. Finally, preliminary evidence that TRAP1 and Sorcin are both implicated in multidrug resistance and are coupregulated in human colorectal carcinomas is provided. These novel findings highlight a new role for Sorcin, suggesting that some of its previously reported cytoprotective functions may be explained by involvement in mitochondrial metabolism through the TRAP1 pathway. Cancer Res; 70(16); 6577–86. ©2010 AACR.

Published

2010