Your search keyword '"DI GRIGOLI, G"' showing total 2 results

1. Divergent in vitro/in vivo responses to drug treatments of highly aggressive NIH-Ras cancer cells: A PET imaging and metabolomics-mass-spectrometry study

Author

Gaglio, D, Valtorta, S, Ripamonti, M, Bonanomi, M, Damiani, C, Todde, S, Negri, A, Sanvito, F, Mastroianni, F, Di Campli, A, Turacchio, G, Di Grigoli, G, Belloli, S, Luini, A, Gilardi, M, Colangelo, A, Alberghina, L, Moresco, R, Negri, AS, Valtorta, Silvia, BONANOMI, MARCELLA, DAMIANI, CHIARA, TODDE, SERGIO CAMILLO, MASTROIANNI, FABRIZIA, GILARDI, MARIA CARLA, COLANGELO, ANNA MARIA, ALBERGHINA, LILIA, MORESCO, ROSA MARIA, Gaglio, D, Valtorta, S, Ripamonti, M, Bonanomi, M, Damiani, C, Todde, S, Negri, A, Sanvito, F, Mastroianni, F, Di Campli, A, Turacchio, G, Di Grigoli, G, Belloli, S, Luini, A, Gilardi, M, Colangelo, A, Alberghina, L, Moresco, R, Negri, AS, Valtorta, Silvia, BONANOMI, MARCELLA, DAMIANI, CHIARA, TODDE, SERGIO CAMILLO, MASTROIANNI, FABRIZIA, GILARDI, MARIA CARLA, COLANGELO, ANNA MARIA, ALBERGHINA, LILIA, and MORESCO, ROSA MARIA

Abstract

Oncogenic K-ras is capable to control tumor growth and progression by rewiring cancer metabolism. In vitro NIH-Ras cells convert glucose to lactate and use glutamine to sustain anabolic processes, but their in vivo environmental adaptation and multiple metabolic pathways activation ability is poorly understood. Here, we show that NIHRas cancer cells and tumors are able to coordinate nutrient utilization to support aggressive cell proliferation and survival. Using PET imaging and metabolomics-mass spectrometry, we identified the activation of multiple metabolic pathways such as: Glycolysis, autophagy recycling mechanism, glutamine and serine/glycine metabolism, both under physiological and under stress conditions. Finally, differential responses between in vitro and in vivo systems emphasize the advantageous and uncontrolled nature of the in vivo environment, which has a pivotal role in controlling the responses to therapy.

Published

2016

2. Divergent in vitro/in vivo responses to drug treatments of highly aggressive NIH-Ras cancer cells: A PET imaging and metabolomics-mass-spectrometry study

Author

Daniela Gaglio 1, 2, 6, 8, Silvia Valtorta 1, 3, 4, Marilena Ripamonti 1, Marcella Bonanomi 2, Chiara Damiani 2, Sergio Todde 5, Alfredo Simone Negri 6, Francesca Sanvito 7, Fabrizia Mastroianni 2, Antonella Di Campli 8, Gabriele Turacchio 8, Giuseppe Di Grigoli 1, Sara Belloli 1, Alberto Luini 8, Maria Carla Gilardi 1, Anna Maria Colangelo 2, 9, Lilia Alberghina 2, Rosa Maria Moresco 2, Gaglio, D, Valtorta, S, Ripamonti, M, Bonanomi, M, Damiani, C, Todde, S, Negri, A, Sanvito, F, Mastroianni, F, Di Campli, A, Turacchio, G, Di Grigoli, G, Belloli, S, Luini, A, Gilardi, M, Colangelo, A, Alberghina, L, and Moresco, R

Subjects

0301 basic medicine, Oncology, Gerontology, medicine.medical_specialty, Mice, Nude, Mass Spectrometry, Metabolomics-mass-spectrometry, Mice, 03 medical and health sciences, Metabolomics, Internal medicine, medicine, Tumor, metabolic rewaring, PET imaging, metabolomics-mass-spectrometry, oncogenic-K-ras, Animals, Tumor growth, PET-imaging, In vitro in vivo, Oncogenic-K-ra, Tumor, business.industry, Environmental adaptation, Neoplasms, Experimental, Pet imaging, 3. Good health, Genes, ras, 030104 developmental biology, Positron-Emission Tomography, Cancer metabolism, Cancer cell, NIH 3T3 Cells, oncogenic-K-ras, Stress conditions, Metabolic rewiring, business, Glycolysis, Research Paper

Abstract

// Daniela Gaglio 1, 2, 6, 8 , Silvia Valtorta 1, 2, 3, 4 , Marilena Ripamonti 1, 2 , Marcella Bonanomi 2 , Chiara Damiani 2 , Sergio Todde 5 , Alfredo Simone Negri 6 , Francesca Sanvito 7 , Fabrizia Mastroianni 2 , Antonella Di Campli 8 , Gabriele Turacchio 8 , Giuseppe Di Grigoli 1, 2, 3 , Sara Belloli 1, 2, 3 , Alberto Luini 8 , Maria Carla Gilardi 1, 2 , Anna Maria Colangelo 2, 9 , Lilia Alberghina 2, 9, * , Rosa Maria Moresco 2, 3, 4, * 1 Institute of Molecular Bioimaging and Physiology, National Research Council (IBFM-CNR), Segrate, Italy 2 SYSBIO.IT, Centre of Systems Biology, Milano, Italy 3 Experimental Imaging Center, IRCCS San Raffaele Scientific Institute, Milan, Italy 4 Department of Medicine and Surgery, University of Milano-Bicocca, Monza, Italy 5 Tecnomed Foundation of University of Milano-Bicocca, Monza, Italy 6 Department of Agricultural and Environmental Sciences - Production, Landscape, Agroenergy University of Milan, Milan, Italy 7 Mouse Histopathology Unit, Department of Pathology, IRCCS San Raffaele Scientific Institute, Milan, Italy 8 Institute of Protein Biochemistry, National Research Council, Naples, Italy 9 Department of Biotechnology and Biosciences, University of Milano-Bicocca, Milan, Italy * These authors have contributed equally to this work Correspondence to: Daniela Gaglio, email: daniela.gaglio@ibfm.cnr.it Rosa Maria Moresco, email: moresco.rosamaria@hsr.it Keywords: tumor, metabolic rewiring, PET-imaging, metabolomics-mass-spectrometry, oncogenic-K-ras Received: February 02, 2016 Accepted: June 17, 2016 Published: July 07, 2016 ABSTRACT Oncogenic K-ras is capable to control tumor growth and progression by rewiring cancer metabolism. In vitro NIH-Ras cells convert glucose to lactate and use glutamine to sustain anabolic processes, but their in vivo environmental adaptation and multiple metabolic pathways activation ability is poorly understood. Here, we show that NIH-Ras cancer cells and tumors are able to coordinate nutrient utilization to support aggressive cell proliferation and survival. Using PET imaging and metabolomics-mass spectrometry, we identified the activation of multiple metabolic pathways such as: glycolysis, autophagy recycling mechanism, glutamine and serine/glycine metabolism, both under physiological and under stress conditions. Finally, differential responses between in vitro and in vivo systems emphasize the advantageous and uncontrolled nature of the in vivo environment, which has a pivotal role in controlling the responses to therapy.

Published

2016