Your search keyword '"Giada DiNunzio"' showing total 2 results

1. Hypothalamic JNK1-hepatic fatty acid synthase axis mediates a metabolic rewiring that prevents hepatic steatosis in male mice treated with olanzapine via intraperitoneal: Additional effects of PTP1B inhibition

Author

Vitor Ferreira, Cintia Folgueira, María García-Altares, Maria Guillén, Mónica Ruíz-Rosario, Giada DiNunzio, Irma Garcia-Martinez, Rosa Alen, Christoph Bookmeyer, John G. Jones, Juan C. Cigudosa, Pilar López-Larrubia, Xavier Correig-Blanchar, Roger J. Davis, Guadalupe Sabio, Patricia Rada, and Ángela M. Valverde

Subjects

Olanzapine, Hypothalamus, Inter-organ crosstalk, Metabolic side-effects, Liver, PTP1B, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Olanzapine (OLA), a widely used second-generation antipsychotic (SGA), causes weight gain and metabolic alterations when administered orally to patients. Recently, we demonstrated that, contrarily to the oral treatment which induces weight gain, OLA administered via intraperitoneal (i.p.) in male mice resulted in body weight loss. This protection was due to an increase in energy expenditure (EE) through a mechanism involving the modulation of hypothalamic AMPK activation by higher OLA levels reaching this brain region compared to those of the oral treatment. Since clinical studies have shown hepatic steatosis upon chronic treatment with OLA, herein we further investigated the role of the hypothalamus-liver interactome upon OLA administration in wild-type (WT) and protein tyrosine phosphatase 1B knockout (PTP1B–KO) mice, a preclinical model protected against metabolic syndrome. WT and PTP1B–KO male mice were fed an OLA-supplemented diet or treated via i.p. Mechanistically, we found that OLA i.p. treatment induces mild oxidative stress and inflammation in the hypothalamus in a JNK1-independent and dependent manner, respectively, without features of cell dead. Hypothalamic JNK activation up-regulated lipogenic gene expression in the liver though the vagus nerve. This effect concurred with an unexpected metabolic rewiring in the liver in which ATP depletion resulted in increased AMPK/ACC phosphorylation. This starvation-like signature prevented steatosis. By contrast, intrahepatic lipid accumulation was observed in WT mice treated orally with OLA; this effect being absent in PTP1B–KO mice. We also demonstrated an additional benefit of PTP1B inhibition against hypothalamic JNK activation, oxidative stress and inflammation induced by chronic OLA i.p. treatment, thereby preventing hepatic lipogenesis. The protection conferred by PTP1B deficiency against hepatic steatosis in the oral OLA treatment or against oxidative stress and neuroinflammation in the i.p. treatment strongly suggests that targeting PTP1B might be also a therapeutic strategy to prevent metabolic comorbidities in patients under OLA treatment in a personalized manner.

Published

2023

2. Determining the contribution of a high-fructose corn syrup formulation to hepatic glycogen synthesis during ad-libitum feeding in mice

Author

Alejandra N. Torres, Cristina Barosa, João Gabriel Silva, Ludgero C. Tavares, Luís P. da Silva, John G. Jones, Getachew Debas Belew, Giada DiNunzio, Fundação para a Ciência e a Tecnologia (Portugal), and European Commission

Subjects

0301 basic medicine, Male, medicine.medical_specialty, food.ingredient, Citric Acid Cycle, lcsh:Medicine, 030209 endocrinology & metabolism, Diet, High-Fat, Biochemistry, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, food, Insulin resistance, Internal medicine, medicine, Animals, Glycogen synthase, lcsh:Science, 2. Zero hunger, Multidisciplinary, biology, Glycogen, Fatty liver, lcsh:R, Fructose, medicine.disease, Chemical biology, 3. Good health, Liver Glycogen, Citric acid cycle, Corn syrup, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, chemistry, Liver, Glycogenesis, biology.protein, lcsh:Q, Animal Nutritional Physiological Phenomena, High Fructose Corn Syrup

Abstract

Excessive sugar intake including high-fructose corn syrup (HFCS) is implicated in the rise of obesity, insulin resistance and non-alcoholic fatty liver disease. Liver glycogen synthesis is influenced by both fructose and insulin signaling. Therefore, the effect of HFCS on hepatic glycogenesis was evaluated in mice feeding ad-libitum. Using deuterated water: the fraction of glycogen derived from triose-P sources, Krebs cycle substrates, and direct pathway + cycling, was measured in 9 normal-chow fed mice (NC) and 12 mice fed normal chow plus a 55% fructose/45% glucose mix in the drinking water at 30% w/v (HFCS-55). This was enriched with [U-13C]fructose or [U-13C]glucose to determine the contribution of each to glycogenesis. For NC, direct pathway + cycling, Krebs cycle, and triose-P sources accounted for 66 ± 0.7%, 23 ± 0.8% and 11 ± 0.4% of glycogen synthesis, respectively. HFCS-55 mice had similar direct pathway + cycling (64 ± 1%) but lower Krebs cycle (12 ± 1%, p, Te authors acknowledge fnancial support from the Portuguese Foundation for Science and Technology (Research Grant FCT-FEDER-02/SAICT/2017/028147). Structural funding for the Center for Neurosciences and Cell Biology and the UC-NMR facility is supported in part by FEDER—European Regional Development Fund through the COMPETE Programme, Centro 2020 Regional Operational Programme, and the Portuguese Foundation for Science and Technology through Grants UIDB/04539/2020; POCI-01-0145-FEDER-007440; REEQ/481/QUI/2006, RECI/QEQ-QFI/0168/2012, CENTRO-07-CT62-FEDER-002012, and Rede Nacional de Ressonancia Magnética Nuclear. GDB is supported by the European Union’s Horizon 2020 Research and Innovation programme under the Marie Skłodowska-Curie Grant Agreement No. 722619 (Project FOIE GRAS). GDN and ANT are supported by Marie Skłodowska-Curie Grant Agreement No. 721236 (Project TREATMENT).