Metabolismo Molecular
Universidad de Salamanca
Salamanca, EspañaPublicacións en colaboración con investigadores/as de Universidad de Salamanca (11)
2024
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p63 controls metabolic activation of hepatic stellate cells and fibrosis via an HER2-ACC1 pathway
Cell Reports Medicine, Vol. 5, Núm. 2
2023
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Myeloid p38 activation maintains macrophage-liver crosstalk and BAT thermogenesis through IL-12-FGF21 axis
Hepatology, Vol. 77, Núm. 3, pp. 874-887
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The outcome of boosting mitochondrial activity in alcohol-associated liver disease is organ-dependent
Hepatology (Baltimore, Md.), Vol. 78, Núm. 3, pp. 878-895
2022
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Metabolic-associated fatty liver disease: From simple steatosis toward liver cirrhosis and potential complications. Proceedings of the Third Translational Hepatology Meeting, organized by the Spanish Association for the Study of the Liver (AEEH)
Gastroenterologia y Hepatologia, Vol. 45, Núm. 9, pp. 724-734
2021
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Neddylation inhibition ameliorates steatosis in NAFLD by boosting hepatic fatty acid oxidation via the DEPTOR-mTOR axis
Molecular Metabolism, Vol. 53
2020
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Vav2 catalysis-dependent pathways contribute to skeletal muscle growth and metabolic homeostasis
Nature Communications, Vol. 11, Núm. 1
2019
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Vagal afferents contribute to sympathoexcitation-driven metabolic dysfunctions
Journal of Endocrinology, Vol. 240, Núm. 3, pp. 483-496
2017
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MKK6 controls T3-mediated browning of white adipose tissue
Nature Communications, Vol. 8, Núm. 1
2016
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P38γ and p38δ reprogram liver metabolism by modulating neutrophil infiltration
EMBO Journal, Vol. 35, Núm. 5, pp. 536-552
2013
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Chronic sympathoexcitation through loss of vav3, a rac1 activator, results in divergent effects on metabolic syndrome and obesity depending on diet
Cell Metabolism, Vol. 18, Núm. 2, pp. 199-211
2012
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Diarrea del viajero que regresa: III. Criptosporidiosis, ciclosporosis y otras protozoosis intestinales
Manual de enfermedades importadas (Elsevier Masson), pp. 303-309