Your search keyword '"Moni, Bottu Heleena"' showing total 2 results

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

Author

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

Subjects

UNSATURATED fatty acids, DIETARY supplements, INSULIN resistance, OBESITY treatment, SKELETAL muscle, LABORATORY rats

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. [ABSTRACT FROM AUTHOR]

Published

2016

2. 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