Your search keyword '"Chiara De Filippo"' showing total 16 results

1. Milk From Cow Fed With High Forage/Concentrate Ratio Diet: Beneficial Effect on Rat Skeletal Muscle Inflammatory State and Oxidative Stress Through Modulation of Mitochondrial Functions and AMPK Activity

Author

Giovanna Trinchese, Gina Cavaliere, Eduardo Penna, Chiara De Filippo, Fabiano Cimmino, Angela Catapano, Nadia Musco, Raffaella Tudisco, Pietro Lombardi, Federico Infascelli, Giovanni Messina, Laura Muredda, Sebastiano Banni, Marcellino Monda, Marianna Crispino, and Maria Pina Mollica

Subjects

milk, high forage/concentrate ratio, mitochondrial functions, skeletal muscle, oxidative stress, inflammation, Physiology, QP1-981

Abstract

Milk and dairy products are relevant components of daily diet and are part of dietary recommendation in many countries due to their content of key nutrients. However, the relatively high content of saturated fat of the milk and its extensive usage for every age group raises concerns about its potential negative health effects. Therefore, in the last years, several researchers dedicated their attention to milk production and quality. Milk fatty acids profile depend on cow feeding and in particular on the type of forage and concentrate and forage/concentrate ratio. It was demonstrated that feeding dairy cows with a 70/30 forage/concentrate ratio yields milk with a low ω6:ω3 ratio and high CLA levels. In this work, we demonstrated that the supplementation of rats diet with this high forage milk (HFM) results, in the skeletal muscle of these animals, in a reduced lipid content and inflammation levels, and an improved mitochondrial lipid oxidation, and redox status through modulation of AMPK activity.

Published

2019

2. Long Feeding High-Fat Diet Induces Hypothalamic Oxidative Stress and Inflammation, and Prolonged Hypothalamic AMPK Activation in Rat Animal Model

Author

Gina Cavaliere, Emanuela Viggiano, Giovanna Trinchese, Chiara De Filippo, Antonietta Messina, Vincenzo Monda, Anna Valenzano, Raffaele I. Cincione, Christian Zammit, Fabiano Cimmino, Angela Catapano, Francesco Sessa, Giovanni Messina, Marcellino Monda, Marianna Crispino, and Maria Pina Mollica

Subjects

age, obesity, hypothalamic oxidative stress, inflammation, AMPK activation, Physiology, QP1-981

Abstract

Scope: The hypothalamus is a key brain region involved in the control of feeding and energy expenditure. Hypothalamic inflammation and oxidative stress are landmarks of both obesity and aging processes, although the molecular mechanisms are still unknown. Therefore, with the aim to understand the neurobiological mechanisms of energy homeostasis during aging, we evaluate the effects of long feeding high-fat diet (HFD) in rats, at different age, on modulation of hypothalamic molecular pathway, oxidative stress, and inflammation.Procedures: Male Wistar rats were divided into two groups: control group, receiving standard diet (CD), and treated group, receiving HFD. Both groups were treated with the appropriate diet for 1, 3, 6, 12, or 18 weeks. We investigated energy balance and body composition, as well as lipid profile, homeostatic model assessment index, and inflammatory state in serum. Furthermore, we also analyzed, at hypothalamic level, inflammation and oxidative stress, and adenosine monophosphate-dependent kinase (AMPK) and pAMPK expression levels.Results: Our data showed that aging and HFD induce increased energy intake and energy efficiency and decreased energy expenditure associated, at hypothalamic level, with inflammation and oxidative stress and activation of AMPK.Conclusion: Our results indicate that the age at which HFD feeding starts and the diet duration are critical in obesity development. The prolonged activation of hypothalamic AMPK may be related to the alterations in energy homeostasis.

Published

2018

3. Human Milk and Donkey Milk, Compared to Cow Milk, Reduce Inflammatory Mediators and Modulate Glucose and Lipid Metabolism, Acting on Mitochondrial Function and Oleylethanolamide Levels in Rat Skeletal Muscle

Author

Giovanna Trinchese, Gina Cavaliere, Chiara De Filippo, Serena Aceto, Marina Prisco, Jong Tai Chun, Eduardo Penna, Rossella Negri, Laura Muredda, Andrea Demurtas, Sebastiano Banni, Roberto Berni-Canani, Giuseppina Mattace Raso, Antonio Calignano, Rosaria Meli, Luigi Greco, Marianna Crispino, and Maria P. Mollica

Subjects

human milk, donkey milk, mitochondrial functions, mitochondrial dynamics, oxidative stress, inflammation, Physiology, QP1-981

Abstract

Scope: Milk from various species differs in nutrient composition. In particular, human milk (HM) and donkey milk (DM) are characterized by a relative high level of triacylglycerol enriched in palmitic acid in sn-2 position. These dietary fats seem to exert beneficial nutritional properties through N-acylethanolamine tissue modulation. The aim of this study is to compare the effects of cow milk (CM), DM, and HM on inflammation and glucose and lipid metabolism, focusing on mitochondrial function, efficiency, and dynamics in skeletal muscle, which is the major determinant of resting metabolic rate. Moreover, we also evaluated the levels of endocannabinoids and N-acylethanolamines in liver and skeletal muscle, since tissue fatty acid profiles can be modulated by nutrient intervention.Procedures: To this aim, rats were fed with CM, DM, or HM for 4 weeks. Then, glucose tolerance and insulin resistance were analyzed. Pro-inflammatory and anti-inflammatory cytokines were evaluated in serum and skeletal muscle. Skeletal muscle was also processed to estimate mitochondrial function, efficiency, and dynamics, oxidative stress, and antioxidant/detoxifying enzyme activities. Fatty acid profiles, endocannabinoids, and N-acylethanolamine congeners were determined in liver and skeletal muscle tissue.Results: We demonstrated that DM or HM administration reducing inflammation status, improves glucose disposal and insulin resistance and reduces lipid accumulation in skeletal muscle. Moreover, HM or DM administration increases redox status, and mitochondrial uncoupling, affecting mitochondrial dynamics in the skeletal muscle. Interestingly, HM and DM supplementation increase liver and muscle levels of the N-oleoylethanolamine (OEA), a key regulator of lipid metabolism and inflammation.Conclusions: HM and DM have a healthy nutritional effect, acting on inflammatory factors and glucose and lipid metabolism. This beneficial effect is associated to a modulation of mitochondrial function, efficiency, and dynamics and to an increase of OEA levels in skeletal muscle.

Published

2018

4. c9,t11-Conjugated linoleic acid ameliorates steatosis by modulating mitochondrial uncoupling and Nrf2 pathway[S]

Author

Maria Pina Mollica, Giovanna Trinchese, Gina Cavaliere, Chiara De Filippo, Ennio Cocca, Marcello Gaita, Antonio Della-Gatta, Angela Marano, Giuseppe Mazzarella, and Paolo Bergamo

Subjects

nuclear factor E2-related factor-2, fatty acids, mitochondrial efficiency, Biochemistry, QD415-436

Abstract

Oxidative stress, hepatic steatosis, and mitochondrial dysfunction are key pathophysiological features of nonalcoholic fatty liver disease. A conjugated linoleic acid (CLA) mixture of cis9,trans11 (9,11-CLA) and trans10,cis12 (10,12-CLA) isomers enhanced the antioxidant/detoxifying mechanism via the activation of nuclear factor E2-related factor-2 (Nrf2) and improved mitochondrial function, but less is known about the actions of specific isomers. The differential ability of individual CLA isomers to modulate these pathways was explored in Wistar rats fed for 4 weeks with a lard-based high-fat diet (L) or with control diet (CD), and, within each dietary treatment, two subgroups were daily administered with 9,11-CLA or 10,12-CLA (30 mg/day). The 9,11-CLA, but not 10,12-CLA, supplementation to CD rats improves the GSH/GSSG ratio in the liver, mitochondrial functions, and Nrf2 activity. Histological examination reveals a reduction of steatosis in L-fed rats supplemented with both CLA isomers, but 9,11-CLA downregulated plasma concentrations of proinflammatory markers, mitochondrial dysfunction, and oxidative stress markers in liver more efficiently than in 10,12-CLA treatment. The present study demonstrates the higher protective effect of 9,11-CLA against diet-induced pro-oxidant and proinflammatory signs and suggests that these effects are determined, at least in part, by its ability to activate the Nrf2 pathway and to improve the mitochondrial functioning and biogenesis.

Published

2014

5. Polyunsaturated Fatty Acids Attenuate Diet Induced Obesity and Insulin Resistance, Modulating Mitochondrial Respiratory Uncoupling in Rat Skeletal Muscle.

Author

Gina Cavaliere, Giovanna Trinchese, Paolo Bergamo, Chiara De Filippo, Giuseppina Mattace Raso, Giorgio Gifuni, Rosalba Putti, Bottu Heleena Moni, Roberto Berni Canani, Rosaria Meli, and Maria Pina Mollica

Subjects

Medicine, Science

Abstract

OBJECTIVES:Omega (ω)-3 polyunsaturated fatty acids (PUFA) are dietary compounds able to attenuate insulin resistance. Anyway, the precise actions of ω-3PUFAs in skeletal muscle are overlooked. We hypothesized that PUFAs, modulating mitochondrial function and efficiency, would ameliorate pro-inflammatory and pro-oxidant signs of nutritionally induced obesity. STUDY DESIGN:To this aim, rats were fed a control diet (CD) or isocaloric high fat diets containing either ω-3 PUFA (FD) or lard (LD) for 6 weeks. RESULTS:FD rats showed lower weight, lipid gain and energy efficiency compared to LD-fed animals, showing higher energy expenditure and O2 consumption/CO2 production. Serum lipid profile and pro-inflammatory parameters in FD-fed animals were reduced compared to LD. Accordingly, FD rats exhibited a higher glucose tolerance revealed by an improved glucose and insulin tolerance tests compared to LD, accompanied by a restoration of insulin signalling in skeletal muscle. PUFAs increased lipid oxidation and reduced energy efficiency in subsarcolemmal mitochondria, and increase AMPK activation, reducing both endoplasmic reticulum and oxidative stress. Increased mitochondrial respiration was related to an increased mitochondriogenesis in FD skeletal muscle, as shown by the increase in PGC1-α and -β. CONCLUSIONS:our data strengthened the association of high dietary ω3-PUFA intake with reduced mitochondrial energy efficiency in the skeletal muscle.

Published

2016

6. High-lard and high-fish-oil diets differ in their effects on function and dynamic behaviour of rat hepatic mitochondria.

Author

Lillà Lionetti, Maria Pina Mollica, Immacolata Donizzetti, Giorgio Gifuni, Raffaella Sica, Angelica Pignalosa, Gina Cavaliere, Marcello Gaita, Chiara De Filippo, Antonio Zorzano, and Rosalba Putti

Subjects

Medicine, Science

Abstract

Mitochondria are dynamic organelles that frequently undergo fission and fusion processes, and imbalances in these processes may be involved in obesity and insulin resistance.The present work had the following aims: (a) to evaluate whether the mitochondrial dysfunction present in the hepatic steatosis induced by a high-fat diet is associated with changes in mitochondrial dynamics and morphology; (b) to evaluate whether effects on the above parameters differ between high-lard and high-fish-oil diets, as it has been suggested that fish oil may have anti-obesity and anti-steatotic effects by stimulating fatty acids utilisation.The development of hepatic steatosis and insulin resistance was monitored in rats fed a high-lard or high-fish-oil diet. Immunohistochemical and electronic microscopic observations were performed on liver sections. In isolated liver mitochondria, assessments of fatty acids oxidation rate, proton conductance and oxidative stress (by measuring H2O2 release and aconitase activity) were performed. Western blot and immunohistochemical analyses were performed to evaluate the presence of proteins involved in mitochondrial dynamics (i.e., fusion and fission processes). To investigate the fusion process, mitofusin 2 and autosomal dominant optic atrophy-1 (OPA1) were analysed. To investigate the fission process, the presence of dynamin-related protein 1 (Drp1) and fission 1 protein (Fis1) was assessed.High-lard feeding elicited greater hepatic lipid accumulation, insulin resistance with associated mitochondrial dysfunction, greater oxidative stress and a shift towards mitochondrial fission processes (versus high-fish-oil feeding, which had an anti-steatotic effect associated with increased mitochondrial fusion processes).Different types of high-fat diets differ in their effect on mitochondrial function and dynamic behaviour, leading to different cellular adaptations to over-feeding.

Published

2014

7. Human Milk and Donkey Milk, Compared to Cow Milk, Reduce Inflammatory Mediators and Modulate Glucose and Lipid Metabolism, Acting on Mitochondrial Function and Oleylethanolamide Levels in Rat Skeletal Muscle

Author

Rosaria Meli, Laura Muredda, Eduardo Penna, Serena Aceto, Marianna Crispino, Marina Prisco, Antonio Calignano, Gina Cavaliere, Sebastiano Banni, Luigi Greco, Giuseppina Mattace Raso, Rossella Negri, Chiara De Filippo, Jong Tai Chun, Maria Pina Mollica, Roberto Berni-Canani, Giovanna Trinchese, Andrea Demurtas, Trinchese, Giovanna, Cavaliere, Gina, De Filippo, Chiara, Aceto, Serena, Prisco, Marina, Chun, Jong Tai, Penna, Eduardo, Negri, Rossella, Muredda, Laura, Demurtas, Andrea, Banni, Sebastiano, Berni-Canani, Roberto, Mattace Raso, Giuseppina, Calignano, Antonio, Meli, Rosaria, Greco, Luigi, Crispino, Marianna, and Mollica, Maria P.

Subjects

0301 basic medicine, medicine.medical_specialty, Physiology, Inflammation, medicine.disease_cause, lcsh:Physiology, Palmitic acid, 03 medical and health sciences, chemistry.chemical_compound, Insulin resistance, Physiology (medical), Internal medicine, medicine, oxidative stress, Original Research, 2. Zero hunger, chemistry.chemical_classification, 030109 nutrition & dietetics, lcsh:QP1-981, Skeletal muscle, Fatty acid, human milk, Lipid metabolism, medicine.disease, mitochondrial dynamics, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, chemistry, Donkey milk, Human milk, Inflammation, Mitochondrial dynamics, Mitochondrial functions, Oxidative stress, inflammation, Basal metabolic rate, donkey milk, medicine.symptom, Oxidative stress, mitochondrial functions

Abstract

Scope: Milk from various species differs in nutrient composition. In particular, human milk (HM) and donkey milk (DM) are characterized by a relative high level of triacylglycerol enriched in palmitic acid in sn-2 position. These dietary fats seem to exert beneficial nutritional properties through N-acylethanolamine tissue modulation. The aim of this study is to compare the effects of cow milk (CM), DM, and HM on inflammation and glucose and lipid metabolism, focusing on mitochondrial function, efficiency, and dynamics in skeletal muscle, which is the major determinant of resting metabolic rate. Moreover, we also evaluated the levels of endocannabinoids and N-acylethanolamines in liver and skeletal muscle, since tissue fatty acid profiles can be modulated by nutrient intervention. Procedures: To this aim, rats were fed with CM, DM, or HM for 4 weeks. Then, glucose tolerance and insulin resistance were analyzed. Pro-inflammatory and anti-inflammatory cytokines were evaluated in serum and skeletal muscle. Skeletal muscle was also processed to estimate mitochondrial function, efficiency, and dynamics, oxidative stress, and antioxidant/detoxifying enzyme activities. Fatty acid profiles, endocannabinoids, and N-acylethanolamine congeners were determined in liver and skeletal muscle tissue. Results: We demonstrated that DM or HM administration reducing inflammation status, improves glucose disposal and insulin resistance and reduces lipid accumulation in skeletal muscle. Moreover, HM or DM administration increases redox status, and mitochondrial uncoupling, affecting mitochondrial dynamics in the skeletal muscle. Interestingly, HM and DM supplementation increase liver and muscle levels of the N-oleoylethanolamine (OEA), a key regulator of lipid metabolism and inflammation. Conclusions: HM and DM have a healthy nutritional effect, acting on inflammatory factors and glucose and lipid metabolism. This beneficial effect is associated to a modulation of mitochondrial function, efficiency, and dynamics and to an increase of OEA levels in skeletal muscle.

Published

2018

8. Milk from cows fed a diet with a high forage:concentrate ratio improves inflammatory state, oxidative stress, and mitochondrial function in rats

Author

Raffaella Tudisco, Giovanni Messina, Monica Isabella Cutrignelli, Giovanna Trinchese, Nadia Musco, Serena Calabrò, Chiara De Filippo, Marcellino Monda, Vincenzo Monda, Marianna Crispino, Pietro Lombardi, Vincenzo Mastellone, Heleena B. Moni, Antonietta Messina, Gina Cavaliere, Micaela Grossi, Federico Infascelli, Valeria Maria Morittu, L Stradella, Maria Pina Mollica, Cavaliere, G, Trinchese, G, Musco, N, Infascelli, F, De Filippo, C, Mastellone, V, Morittu, Vm, Lombardi, P, Tudisco, R, Grossi, M, Monda, V, Cutrignelli, Mi, Messina, A, Calabrò, S, Moni, Hb, Stradella, L, Messina, G, Monda, M, Crispino, M, Mollica, Mp., Cavaliere, Gina, Trinchese, Giovanna, Musco, Nadia, Infascelli, Federico, De Filippo, Chiara, Mastellone, Vincenzo, Morittu, Valeria Maria, Lombardi, Pietro, Tudisco, Raffaella, Grossi, Micaela, Monda, Vincenzo, Cutrignelli, Monica I., Messina, Antonietta, Calabrò, Serena, Moni, Heleena B., Stradella, Luigi, Messina, Giovanni, Monda, Marcellino, Crispino, Marianna, and Mollica, Maria Pina

Subjects

Male, 0301 basic medicine, Animal feed, Linoleic acid, Conjugated linoleic acid, redox status, inflammatory status, mitochondrial function, n-6:n-3 ratio, redox status, Animals, Inflammation, Milk, Mitochondria, Dairying, Dietary Supplements, Oxidative Stress, medicine.disease_cause, 03 medical and health sciences, chemistry.chemical_compound, mitochondrial function, inflammatory status, n-6:n-3 ratio, Genetics, medicine, Animals, Food science, Rats, Wistar, Dietary Supplement, Inflammation, Adiponectin, redox statu, Animal, Chemistry, Leptin, 0402 animal and dairy science, food and beverages, Oxidative Stre, Lipid metabolism, 04 agricultural and veterinary sciences, Animal Feed, 040201 dairy & animal science, Rats, Mitochondria, Dairying, Oxidative Stress, 030104 developmental biology, Human nutrition, Milk, Dietary Supplements, Rat, Cattle, Female, Animal Science and Zoology, inflammatory statu, Oxidative stress, Food Science

Abstract

Excessive energy intake may evoke complex biochemical processes characterized by inflammation, oxidative stress, and impairment of mitochondrial function that represent the main factors underlying noncommunicable diseases. Because cow milk is widely used for human nutrition and in food industry processing, the nutritional quality of milk is of special interest with respect to human health. In our study, we analyzed milk produced by dairy cows fed a diet characterized by a high forage:concentrate ratio (high forage milk, HFM). In view of the low n-6:n-3 ratio and high content of conjugated linoleic acid of HFM, we studied the effects of this milk on lipid metabolism, inflammation, mitochondrial function, and oxidative stress in a rat model. To this end, we supplemented for 4 wk the diet of male Wistar rats with HFM and with an isocaloric amount (82 kJ, 22 mL/d) of milk obtained from cows fed a diet with low forage:concentrate ratio, and analyzed the metabolic parameters of the animals. Our results indicate that HFM may positively affect lipid metabolism, leptin:adiponectin ratio, inflammation, mitochondrial function, and oxidative stress, providing the first evidence of the beneficial effects of HFM on rat metabolism.

Published

2018

9. Human, donkey and cow milk differently affects energy efficiency and inflammatory state by modulating mitochondrial function and gut microbiota

Author

Serena Aceto, Chiara De Filippo, Paolo Bergamo, Gina Cavaliere, Luigi Greco, Roberto Berni Canani, Marcello Gaita, Patrice D. Cani, Rossella Negri, Sébastien Matamoros, Pellegrino Cerino, Maria Pina Mollica, Giovanna Trinchese, Trinchese, Giovanna, Cavaliere, Gina, BERNI CANANI, Roberto, Matamoros, Sebastien, Bergamo, Paolo, DE FILIPPO, Chiara, Aceto, Serena, Gaita, Marcello, Cerino, Pellegrino, Negri, Rossella, Greco, Luigi, Cani, Patrice D, Mollica, MARIA PINA, and UCL - SSS/LDRI - Louvain Drug Research Institute

Subjects

Male, SCFAs, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Microbiota, Milk, Mitochondria, Redox-status, SCFAs, Animals, Antioxidants, Body Composition, Energy Metabolism, Humans, Inflammation, Lipid Metabolism, Male, Mitochondria, Oxidative Stress, Gastrointestinal Microbiome, Butyrate, Redox-statu, Carbohydrate metabolism, Mitochondrion, Gut flora, medicine.disease_cause, 7. Clean energy, Biochemistry, Antioxidants, Proinflammatory cytokine, fluids and secretions, Species Specificity, medicine, Animals, Humans, Food science, Rats, Wistar, Molecular Biology, 2. Zero hunger, Inflammation, Nutrition and Dietetics, biology, Microbiota, Equidae, biology.organism_classification, Lipid Metabolism, Redox-status, Gastrointestinal Microbiome, Mitochondria, Oxidative Stress, Glutathione S-transferase, Milk, biology.protein, Body Composition, Donkey, Energy Metabolism, Oxidative stress

Abstract

Different nutritional components are able, by modulating mitochondrial function and gut microbiota composition, to influence body composition, metabolic homeostasis and inflammatory state. In this study, we aimed to evaluate the effects produced by the supplementation of different milks on energy balance, inflammatory state, oxidative stress and antioxidant/detoxifying enzyme activities and to investigate the role of the mitochondrial efficiency and the gut microbiota in the regulation of metabolic functions in an animal model. We compared the intake of human milk, gold standard for infant nutrition, with equicaloric supplementation of donkey milk, the best substitute for newborns due to its nutritional properties, and cow milk, the primary marketed product. The results showed a hypolipidemic effect produced by donkey and human milk intake in parallel with enhanced mitochondrial activity/proton leakage. Reduced mitochondrial energy efficiency and proinflammatory signals (tumor necrosis factor α, interleukin-1 and lipopolysaccharide levels) were associated with a significant increase of antioxidants (total thiols) and detoxifying enzyme activities (glutathione-S-transferase, NADH quinone oxidoreductase) in donkey- and human milk-treated animals. The beneficial effects were attributable, at least in part, to the activation of the nuclear factor erythroid-2-related factor-2 pathway. Moreover, the metabolic benefits induced by human and donkey milk may be related to the modulation of gut microbiota. In fact, milk treatments uniquely affected the proportions of bacterial phyla and genera, and we hypothesized that the increased concentration of fecal butyrate in human and donkey milk-treated rats was related to the improved lipid and glucose metabolism and detoxifying activities.

Published

2015

10. Butyrate Regulates Liver Mitochondrial Function, Efficiency, and Dynamics in Insulin-Resistant Obese Mice

Author

Marianna Crispino, Francesca Guida, Adriano Lama, Gina Cavaliere, Giovanna Trinchese, Marina Prisco, Rosaria Meli, Diana Tronino, Serena Aceto, Paola Di Vaio, Claudio Pirozzi, Chiara De Filippo, Antonio Calignano, Roberto Berni Canani, Maria Pina Mollica, Giuseppina Mattace Raso, Mollica, MARIA PINA, MATTACE RASO, Giuseppina, Cavaliere, Gina, Trinchese, Giovanna, DE FILIPPO, Chiara, Aceto, Serena, Prisco, Marina, Pirozzi, Claudio, Di Guida, Francesca, Lama, Adriano, Crispino, Marianna, Tronino, Diana, DI VAIO, Paola, BERNI CANANI, Roberto, Calignano, Antonio, and Meli, Rosaria

Subjects

0301 basic medicine, Male, Endocrinology, Diabetes and Metabolism, Mitochondria, Liver, Mitochondrion, AMP-Activated Protein Kinases, medicine.disease_cause, Mitochondrial Dynamics, Mice, Glucose homeostasis, Homeostasis, Beta oxidation, Fatty liver, Fatty Acids, Hep G2 Cells, Blotting Western, Mitochondria, Butyrates, Biochemistry, Liver, Body Composition, Oxidation-Reduction, medicine.medical_specialty, AMP-Activated Protein Kinases, Acetyl-CoA Carboxylase, Animals, Blotting Western, Body Composition, Butyrates, Diet High-Fat, Energy Metabolism, Fatty Acids, Glucose Tolerance Test, Hep G2 Cells, Homeostasis, Lipid Metabolism, Mitochondria, Liver, NF-E2-Related Factor 2, Blotting, Western, Butyrate, Carbohydrate metabolism, Biology, Diet, High-Fat, Real-Time Polymerase Chain Reaction, 03 medical and health sciences, Insulin resistance, Microscopy, Electron, Transmission, Internal medicine, Internal Medicine, medicine, Animals, Humans, Obesity, Diet High-Fat, Glucose Tolerance Test, medicine.disease, Lipid Metabolism, Oxidative Stress, 030104 developmental biology, Endocrinology, Glucose, Insulin Resistance, Energy Metabolism, Oxidative stress, Acetyl-CoA Carboxylase

Abstract

Fatty liver, oxidative stress, and mitochondrial dysfunction are key pathophysiological features of insulin resistance and obesity. Butyrate, produced by fermentation in the large intestine by gut microbiota, and its synthetic derivative, the N-(1-carbamoyl-2-phenyl-ethyl) butyramide, FBA, have been demonstrated to be protective against insulin resistance and fatty liver. Here, hepatic mitochondria were identified as the main target of the beneficial effect of both butyrate-based compounds in reverting insulin resistance and fat accumulation in diet-induced obese mice. In particular, butyrate and FBA improved respiratory capacity and fatty acid oxidation, activated the AMPK–acetyl-CoA carboxylase pathway, and promoted inefficient metabolism, as shown by the increase in proton leak. Both treatments consistently increased utilization of substrates, especially fatty acids, leading to the reduction of intracellular lipid accumulation and oxidative stress. Finally, the shift of the mitochondrial dynamic toward fusion by butyrate and FBA resulted in the improvement not only of mitochondrial cell energy metabolism but also of glucose homeostasis. In conclusion, butyrate and its more palatable synthetic derivative, FBA, modulating mitochondrial function, efficiency, and dynamics, can be considered a new therapeutic strategy to counteract obesity and insulin resistance.

Published

2016

11. Effects of an high-fat diet enriched in lard or in fish oil on the hypothalamic amp-activated protein kinase and inflammatory mediators

Author

Marcellino Monda, Giovanna Trinchese, Chiara De Filippo, Gina Cavaliere, Marcello Gaita, Lillà Lionetti, Emanuela Viggiano, Bruno De Luca, Sergio Chieffi, Maria Pina Mollica, A. Barletta, Marianna Crispino, Viggiano, Emanuela, Mollica, MARIA PINA, Lionetti, Lillà, Cavaliere, Gina, Trinchese, Giovanna, Filippo, Chiarade, Chieffi, Sergio, Gaita, Marcello, Barletta, Antonio, de Luca, Bruno, Crispino, Marianna, Monda, Marcellino, Mollica, Mariapina, and Luca, Brunode

Subjects

0301 basic medicine, AMPK, medicine.medical_specialty, medicine.medical_treatment, medicine.disease_cause, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Insulin resistance, AMP-activated protein kinase, Internal medicine, ω3-PUFA, medicine, ɷ3-PUFA, Original Research, chemistry.chemical_classification, Inflammation, biology, high fat diet, inflammation, oxidative stress, Insulin, High fat diet, medicine.disease, Fish oil, 030104 developmental biology, Endocrinology, chemistry, Oxidative stress, biology.protein, Homeostatic model assessment, Oxidative stre, AMPK, High fat diet, Inflammation, Oxidative stress, ɷ3-PUFA, 030217 neurology & neurosurgery, Polyunsaturated fatty acid, Neuroscience

Abstract

The high fat diet (HFD) rich in lard induces obesity, inflammation and oxidative stress, and the deregulation of hypothalamic nuclei plays an important role in this mechanism. One important factor involved in the food intake and inflammation is adenosine monophosphate-dependent kinase (AMPK), a serine/threonine kinase activated by phosphorylation. Omega (&)3-polyunsaturated fatty acids (PUFA) are dietary compounds known to attenuate the obesity-related diseases, although the molecular mechanisms underlying their actions in the hypothalamus are not completely understood. We hypothesized that the beneficial effects of PUFA may be mediated by AMPK in the hypothalamus. To this aim, rats were fed a control diet (CD), or isocaloric HFD containing either fish oil (FD; rich in &3-PUFA) or lard (LD) for 6 weeks, and the activation of AMPK, inflammatory state (IKKb, TNF-a) and oxidative stress were analyzed in the hypothalamus. In addition, we also studied serum lipid profile, homeostatic model assessment (HOMA) index, and pro-inflammatory parameters. Our results showed, at the hypothalamic level of LD-fed rats, an increase of AMPK activation, inflammation and oxidative stress, while no modifications were detected in FD-fed animals compared to CD. In addition body weight gain, serum lipid profile, pro-inflammatory parameters and insulin resistance were reduced in FD animals compared to LD. In conclusion, our data indicate that the substitution of saturated by unsaturated fatty acids in the diet has beneficial effects on modulation of hypothalamic inflammation and function in obesity, underlying, at hypothalamic level, the interaction among insulin and/or leptin resistance, AMPK activation and hyperphagia.

Published

2016

12. Polyunsaturated Fatty Acids Attenuate Diet Induced Obesity and Insulin Resistance, Modulating Mitochondrial Respiratory Uncoupling in Rat Skeletal Muscle

Author

Giovanna Trinchese, Giorgio Gifuni, Chiara De Filippo, Gina Cavaliere, Bottu Heleena Moni, Maria Pina Mollica, Giuseppina Mattace Raso, Paolo Bergamo, Roberto Berni Canani, Rosalba Putti, Rosaria Meli, Cavaliere, Gina, Trinchese, Giovanna, Bergamo, Paolo, DE FILIPPO, Chiara, MATTACE RASO, Giuseppina, Gifuni, Giorgio, Putti, Rosalba, Moni, Bottu Heleena, BERNI CANANI, Roberto, Meli, Rosaria, and Mollica, MARIA PINA

Subjects

0301 basic medicine, Male, Bioenergetics, Physiology, Wistar, lcsh:Medicine, Mitochondrion, medicine.disease_cause, Biochemistry, Fats, Endocrinology, Medicine and Health Sciences, Respiratory system, lcsh:Science, Musculoskeletal System, Energy-Producing Organelles, chemistry.chemical_classification, Omega-3, Multidisciplinary, Muscles, Fatty Acids, Endoplasmic Reticulum Stress, Lipids, Mitochondria, medicine.anatomical_structure, Cellular Structures and Organelles, Anatomy, Research Article, Polyunsaturated fatty acid, medicine.medical_specialty, Biology, 03 medical and health sciences, Insulin resistance, Oxygen Consumption, Internal medicine, Fatty Acids, Omega-3, medicine, Animals, Animals, Dietary Fats, Endoplasmic Reticulum Stress, Fatty Acids, Omega-3, Male, Mitochondria, Obesity, Oxidative Stress, Oxygen Consumption, Rats, Wistar, Obesity, Rats, Wistar, Muscle, Skeletal, Nutrition, Endocrine Physiology, lcsh:R, Biology and Life Sciences, Skeletal muscle, Cell Biology, medicine.disease, Dietary Fats, Mitochondria, Muscle, Diet, Rats, Oxidative Stress, 030104 developmental biology, Skeletal Muscles, chemistry, lcsh:Q, Insulin Resistance, Oxidative stress

Abstract

OBJECTIVES:Omega (ω)-3 polyunsaturated fatty acids (PUFA) are dietary compounds able to attenuate insulin resistance. Anyway, the precise actions of ω-3PUFAs in skeletal muscle are overlooked. We hypothesized that PUFAs, modulating mitochondrial function and efficiency, would ameliorate pro-inflammatory and pro-oxidant signs of nutritionally induced obesity. STUDY DESIGN:To this aim, rats were fed a control diet (CD) or isocaloric high fat diets containing either ω-3 PUFA (FD) or lard (LD) for 6 weeks. RESULTS:FD rats showed lower weight, lipid gain and energy efficiency compared to LD-fed animals, showing higher energy expenditure and O2 consumption/CO2 production. Serum lipid profile and pro-inflammatory parameters in FD-fed animals were reduced compared to LD. Accordingly, FD rats exhibited a higher glucose tolerance revealed by an improved glucose and insulin tolerance tests compared to LD, accompanied by a restoration of insulin signalling in skeletal muscle. PUFAs increased lipid oxidation and reduced energy efficiency in subsarcolemmal mitochondria, and increase AMPK activation, reducing both endoplasmic reticulum and oxidative stress. Increased mitochondrial respiration was related to an increased mitochondriogenesis in FD skeletal muscle, as shown by the increase in PGC1-α and -β. CONCLUSIONS:our data strengthened the association of high dietary ω3-PUFA intake with reduced mitochondrial energy efficiency in the skeletal muscle.

Published

2016

13. Metabolic responses to isoenergetic intake of cow, donkey or human milk in rats

Author

Chiara De Filippo, Gina Cavaliere, Marcello Gaita, F. De Seta, TRINCHESE, GIOVANNA, BERGAMO, PAOLO, MOLLICA, MARIA PINA, SIF 2014 azuleon, Chiara De, Filippo, Trinchese, Giovanna, Gina, Cavaliere, Marcello, Gaita, F., De Seta, Bergamo, Paolo, and Mollica, MARIA PINA

Published

2013

14. Human, donkey and cow milk differently affects insulin sensitivity by modulating skeletal muscle mitochondrial function, efficiency and dynamics

Author

Maria Pina Mollica, Anna De Angelis, Gina Cavaliere, Chiara De Filippo, Giovanna Trinchese, Antonio Della Gatta, and Salvatore Di Scala

Subjects

medicine.medical_specialty, Biophysics, Skeletal muscle, Insulin sensitivity, Cell Biology, Biology, Biochemistry, Cow milk, Endocrinology, medicine.anatomical_structure, Internal medicine, medicine, Donkey, Function (biology)

Published

2016

15. C9, t11-Conjugated linoleic acid ameliorates steatosis by modulating mitochondrial uncoupling and Nrf2 pathway

Author

Antonio Della-Gatta, Giovanna Trinchese, Angela Marano, Giuseppe Mazzarella, Ennio Cocca, Gina Cavaliere, Marcello Gaita, Chiara De Filippo, Paolo Bergamo, Maria Pina Mollica, Mollica, MARIA PINA, Trinchese, Giovanna, Cavaliere, Gina, DE FILIPPO, Chiara, E., Cocca, Gaita, Marcello, A., Della Gatta, A., Marano, Mazzarella, Giuseppe, and Bergamo, Paolo

Subjects

Antioxidant, Conjugated, medicine.medical_treatment, Conjugated linoleic acid, medicine.disease_cause, Biochemistry, Nuclear factor E2-related factor-2, Ion Channels, chemistry.chemical_compound, Endocrinology, Non-alcoholic Fatty Liver Disease, Nonalcoholic fatty liver disease, Linoleic Acids, Conjugated, Research Articles, Uncoupling Protein 1, integumentary system, food and beverages, Thermogenin, Liver, Linoleic Acids, Cytokines, lipids (amino acids, peptides, and proteins), Oxidation-Reduction, Signal Transduction, medicine.medical_specialty, NF-E2-Related Factor 2, QD415-436, Biology, Diet, High-Fat, Fatty acids, Mitochondrial efficiency, Nuclear factor E2-related factor-2, Biomarkers, Cytokines, Cytoprotection, Diet, High-Fat, Linoleic Acids, Conjugated, Mitochondrial Proteins, NF-E2-Related Factor 2, Oxidative Stress, rats, Signal Transduction, Proinflammatory cytokine, Mitochondrial Proteins, Internal medicine, medicine, Animals, Rats, Wistar, Fatty acids, Cell Biology, Glutathione, medicine.disease, Mitochondrial efficiency, Diet, rats, High-Fat, Oxidative Stress, chemistry, Gene Expression Regulation, Cytoprotection, Dietary Supplements, Steatosis, Oxidative stress, Biomarkers

Abstract

Oxidative stress, hepatic steatosis, and mitochondrial dysfunction are key pathophysiological features of nonalcoholic fatty liver disease. A conjugated linoleic acid (CLA) mixture of cis 9, trans 11 (9,11-CLA) and trans 10, cis 12 (10,12-CLA) isomers enhanced the antioxidant/detoxifying mechanism via the activation of nuclear factor E2-related factor-2 (Nrf2) and improved mitochondrial function, but less is known about the actions of specific isomers. The differential ability of individual CLA isomers to modulate these pathways was explored in Wistar rats fed for 4 weeks with a lard-based high-fat diet (L) or with control diet (CD), and, within each dietary treatment, two subgroups were daily administered with 9,11-CLA or 10,12-CLA (30 mg/ day). The 9,11-CLA, but not 10,12-CLA, supplementation to CD rats improves the GSH/GSSG ratio in the liver, mitochondrial functions, and Nrf2 activity. Histological examination reveals a reduction of steatosis in L-fed rats supplemented with both CLA isomers, but 9,11-CLA downregulated plasma concentrations of proinflammatory markers, mitochondrial dysfunction, and oxidative stress markers in liver more efficiently than in 10,12-CLA treatment. The present study demonstrates the higher protective effect of 9,11-CLA against diet-induced pro-oxidant and proinflammatory signs and suggests that these effects are determined, at least in part, by its ability to activate the Nrf2 pathway and to improve the mitochondrial functioning and biogenesis.-Mollica, M. P., G. Trinchese, G. Cavaliere, C. De Filippo, E. Cocca, M. Gaita, A. Della-Gatta, A. Marano, G. Mazzarella, and P. Bergamo. c 9, t 11-Conjugated linoleic acid ameliorates steatosis by modulating mitochondrial uncoupling and Nrf2 pathway. J. Lipid Res . 2014. 55: 837-849. Copyright © 2014 by the American Society for Biochemistry and Molecular Biology, Inc.

Published

2014

16. Diet supplementation with donkey milk upregulates liver mitochondrial uncoupling, reduces energy efficiency and improves antioxidant and antiinflammatory defences in rats

Author

Rosalba Putti, Chiara De Filippo, Rossella Di Palo, Giorgio Gifuni, Giovanna Trinchese, Marcello Gaita, Gina Cavaliere, Lillà Lionetti, Paolo Bergamo, A. Barletta, Angelica Pignalosa, Maria Pina Mollica, Immacolata Donizzetti, Lionetti, Lilla', Cavaliere, Gina, Bergamo, P, Trinchese, Giovanna, De Filippo, C, Gifuni, G, Gaita, M, Pignalosa, A, Donizzetti, I, Putti, Rosalba, DI PALO, Rossella, Barletta, Antonio, and Mollica, MARIA PINA

Subjects

medicine.medical_specialty, Antioxidant, Donkey milk / Energy expenditure / Inflammatory parameters / Mitochondrial efficiency / Redox status, medicine.medical_treatment, Energy balance, Anti-Inflammatory Agents, Biology, Antioxidants, Ion Channels, Proinflammatory cytokine, Mitochondrial Proteins, Downregulation and upregulation, Internal medicine, Fatty Acids, Omega-3, medicine, Transferase, Animals, Uncoupling Protein 2, Carnitine, Glutathione Transferase, Omega-3, chemistry.chemical_classification, Reactive oxygen species, Carnitine O-Palmitoyltransferase, Tumor Necrosis Factor-alpha, Inflammatory parameters, Fatty Acids, Lipid metabolism, Equidae, Mitochondrial efficiency, Lipid Metabolism, Donkey milk, Diet, Mitochondria, Rats, Up-Regulation, Endocrinology, Milk, Redox status, chemistry, Liver, Dietary Supplements, Energy expenditure, Energy Metabolism, Food Science, Biotechnology, medicine.drug

Abstract

Dietary PUFA, mainly those of the n-3 family, are known to play essential roles in the maintenance of energy balance and in the reduction of body fat deposition through the up regulation of mitochondrial uncoupling that is the main source of reactive oxygen species. We hypothesized that rat supplementation with raw donkey's milk (DM), characterized by low-fat content and higher n3:n6 ratio, may affect energy balance, lipid metabolism, and pro oxidant status as compared to animals treated with cow's milk. In the present study, the effects of drinking raw DM (for 4 weeks) on energy balance, lipid metabolism, antiinflammatory, and antioxidant/ detoxifying defences was compared to that produced by rat intake of an iso-energetic amount of raw cow's milk. The hypolipidemic effect produced by DM paralleled with the enhanced mitochondrial activity/proton leakage and with the increased activity or expression of mitochondrial markers namely, carnitine palmitoyl transferase and uncoupling protein 2. The association of decreased energy efficiency with reduced proinflammatory signs (TNF- and LPS levels) with the significant increase antioxidant (total thiols) and detoxifying enzyme activities (glutathione-S-transferase NADH quinone oxidoreductase) in DM-treated animals, indicated that beneficial effects were attributable, at least in part, to the activation of nuclear factor 2 erythroid-related factor 2 pathway.

Published

2012