MENGA, ALESSIO

MENGA, ALESSIO  

Dipartimento di Scienze della Salute  

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Risultati 1 - 20 di 46 (tempo di esecuzione: 0.024 secondi).
Titolo Data di pubblicazione Autore(i) File
A key role of the mitochondrial citrate carrier (SLC25A1) in TNFα- and IFNγ-triggered inflammation 1-gen-2014 Infantino, V.; Iacobazzi, V.; Menga, A.; Avantaggiati, M. L.; Palmieri, F.
Acetylation of Human Mitochondrial Citrate Carrier Modulates Citrate/Malate Exchange to Sustain NADPH Production During Macrophage Activation 1-gen-2015 Palmieri, E; Menga, A; Porcelli, V; Pierri, C; Hooper, D; Castegna, A.
Acetylation of Human Mitochondrial Citrate Carrier Modulates Citrate/Malate Exchange to Sustain NADPH Production During Macrophage Activation 1-gen-2015 Palmieri, E; Menga, A; Porcelli, V; Pierri, C; Hooper, D; Castegna, A
Acetylation of human mitochondrial citrate carrier modulates mitochondrial citrate/malate exchange activity to sustain NADPH production during macrophage activation 1-gen-2015 Palmieri, E. M.; Spera, I.; Menga, A.; Infantino, V.; Porcelli, V.; Iacobazzi, V.; Pierri, C. L.; Hooper, D. C.; Palmieri, F.; Castegna, A.
ATP-citrate lyase is essential for macrophage inflammatory response 1-gen-2013 Infantino, V.; Iacobazzi, V.; Palmieri, F.; Menga, A.
Blockade of glutamine synthetase enhances inflammatory response 1-gen-2018 Menga, Alessio; Palmieri, E. M.; Lebrun, A.; Hooper, D. C.; Butterfield, D. A.; Mazzone, M.; Castegna, A
Blockade of Glutamine Synthetase Enhances Inflammatory Response in Microglial Cells 1-gen-2017 Palmieri, E. M.; Menga, A.; Lebrun, A.; Hooper, D. C.; Butterfield, D. A.; Mazzone, M.; Castegna, A.
BLOCKADE OF GLUTAMINE SYNTHETASE SKEWS MACROPHAGES TOWARDS AN M1-LIKE PHENOTYPE AND INHIBITS TUMOR METASTASIS 1-gen-2016 Castegna, A; Palmieri, Em; Martín-Pérez, R; Menga, A; Ghesquière, B; Mazzone, M.
BLOCKADE OF GLUTAMINE SYNTHETASE SKEWS MACROPHAGES TOWARDS AN M1-LIKE PHENOTYPE AND INHIBITS TUMOR METASTASIS 1-gen-2016 Castegna, A; Palmieri, Em; Martín-Pérez, R; Menga, A; Ghesquière, B; Mazzone, M.
BLOCKADE OF GLUTAMINE SYNTHETASE SKEWS MACROPHAGES TOWARDS AN M1-LIKE PHENOTYPE AND INHIBITS TUMOR METASTASIS 1-gen-2016 Castegna, A; Palmieri, Em; Martín-Pérez, R; Menga, A; Ghesquière, B; Mazzone, M.
Cachexia, a systemic disease beyond muscle atrophy 1-gen-2020 Wyart, E.; Bindels, L. B.; Mina, E.; Menga, A.; Stanga, S.; Porporato, P. E.
Editorial: Metabolism Meets Function: Untangling the Cross-Talk Between Signaling and Metabolism 1-gen-2020 Castegna, A.; Mcvicar, D. W.; Campanella, A.; Palmieri, E. M.; Menga, A.; Porporato, P. E.
Editorial: Understanding how myeloid cell development and function meet tissue distinct metabolic requirements 1-gen-2024 Palmieri, E. M.; Salmond, R. J.; Menga, A.
Elements in support of the 'non-identity' of the PGRMC1 protein with the σ2 receptor 1-gen-2015 Abate, C.; Niso, M.; Infantino, V.; Menga, A.; Berardi, F.
FK506 bypasses the effect of erythroferrone in cancer cachexia skeletal muscle atrophy 1-gen-2023 Mina, E.; Wyart, E.; Sartori, R.; Angelino, E.; Zaggia, I.; Rausch, V.; Maldotti, M.; Pagani, A.; Hsu, M. Y.; Friziero, A.; Sperti, C.; Menga, A.; Graziani, A.; Hirsch, E.; Oliviero, S.; Sandri, M.; Conti, L.; Kautz, L.; Silvestri, L.; Porporato, P. E.
FOXD3 acts as a repressor of the mitochondrial S-adenosylmethionine carrier (SLC25A26) gene expression in cancer cells 1-gen-2018 Cianciulli, Antonia; Menga, Alessio; Palmieri, Ferdinando; Iacobazzi., Vito
Glufosinate constrains synchronous and metachronous metastasis by promoting anti-tumor macrophages 1-gen-2020 Menga, Alessio.; Serra, Marina.; Todisco, S.; Riera-Domingo, C.; Ammarah, U.; Ehling, M.; Palmieri, E. M.; Di Noia, M. A.; Gissi, R.; Favia, M.; Pierri, C. L.; Porporato Paolo, Ettore; Castegna, A.; Mazzone, Massimiliano.
Glutamine synthetase desensitizes differentiated adipocytes to proinflammatory stimuli by raising intracellular glutamine levels 1-gen-2014 Palmieri, E. M.; Spera, I.; Menga, A.; Infantino, V.; Iacobazzi, V.; Castegna, A.
Glutamine synthetase: Localization dictates outcome 1-gen-2018 Castegna, A.; Menga, A.
Histamine catabolism contributes to cardiac injury by sustaining monoamine oxidase-dependent oxidative stress 1-gen-2018 Gissi, Rosanna; Costiniti, V.; Spera, I.; Menabò, R.; Palmieri, E. M.; Menga, A.; Scarcia, P.; Porcelli, V.; Castegna, A.; Canton, M.