Browsing by Author "Troncoso, Rodrigo"
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- ItemAggregate estimation of the price elasticity of demand for public transport in integrated fare systems : the case of Transantiago(2013) De Grange, Louis; González, Felipe; Muñoz Abogabir, Juan Carlos; Troncoso, Rodrigo
- ItemAutophagy and oxidative stress in non-communicable diseases: A matter of the inflammatory state?(2018) Pena-Oyarzun, Daniel; Bravo-Sagua, Roberto; Diaz-Vega, Alexis; Aleman, Larissa; Chiong, Mario; Garcia, Lorena; Bambs S., Claudia; Troncoso, Rodrigo; Cifuentes, Mariana; Morselli, Eugenia; Ferreccio Readi, Catterina; Quest, Andrew F. G.; Criollo, Alfred
- ItemBasal autophagy protects cardiomyocytes from doxorubicin-induced toxicity(2016) Pizarro, Marcela; Troncoso, Rodrigo; Martínez, Gonzalo; Chiong, Mario; Castro Gálvez, Pablo Federico
- Itembeta-Hydroxybutyrate Increases Exercise Capacity Associated with Changes in Mitochondrial Function in Skeletal Muscle(MDPI, 2020) Monsalves Alvarez, Matias; Morales, Pablo Esteban; Castro Sepulveda, Mauricio; Sepulveda, Carlos; Rodriguez, Juan Manuel; Chiong, Mario; Eisner, Veronica; Lavandero, Sergio; Troncoso, Rodrigobeta-hydroxybutyrate is the main ketone body generated by the liver under starvation. Under these conditions, it can sustain ATP levels by its oxidation in mitochondria. As mitochondria can modify its shape and function under different nutritional challenges, we study the chronic effects of beta-hydroxybutyrate supplementation on mitochondrial morphology and function, and its relation to exercise capacity. Male C57BL/6 mice were supplemented with beta-hydroxybutyrate mineral salt (3.2%) or control (CT, NaCl/KCl) for six weeks and submitted to a weekly exercise performance test. We found an increase in distance, maximal speed, and time to exhaustion at two weeks of supplementation. Fatty acid metabolism and OXPHOS subunit proteins declined at two weeks in soleus but not in tibialis anterior muscles. Oxygen consumption rate on permeabilized fibers indicated a decrease in the presence of pyruvate in the short-term treatment. Both the tibialis anterior and soleus showed decreased levels of Mitofusin 2, while electron microscopy assessment revealed a significant reduction in mitochondrial cristae shape in the tibialis anterior, while a reduction in the mitochondrial number was observed only in soleus. These results suggest that short, but not long-term, beta-hydroxybutyrate supplementation increases exercise capacity, associated with modifications in mitochondrial morphology and function in mouse skeletal muscle.
- ItemEffects of Aerobic Exercise in Hepatic Lipid Droplet-Mitochondria interaction in Non-alcoholic Fatty Liver Disease(2023) Bórquez, Juan Carlos; Díaz-Castro, Francisco; La Fuente, Francisco Pino-De; Espinoza, Karla; Figueroa Toledo, Ana María; Martínez-Ruíz, Inma; Hernández, Vanessa; López-Soldado, Iliana; Ventura, Raúl; Espinosa, Alejandra; Cortés Mora, Víctor Antonio; Hernández-Alvarez, María Isabel; Troncoso, RodrigoLipid Droplets (LD) are highly dynamic storage organelles. In the liver, its accumulation causes non-alcoholic fatty liver (NAFL) that can progress to a more severe disease stage, nonalcoholic steatohepatitis (NASH). In hepatic and non-hepatic tissues LD interacts with mitochondria impacting lipid homeostasis. However, whether exercise modulates this interaction in the liver has not been studied yet. Our objective is to determine whether exercise modifies LD-mitochondria interaction in hepatocytes and if this interaction has an association with the severity of the disease. Two different models of NAFLD, a high fat diet (HFD) to evaluate NAFL and a methionine choline deficient diet (MCD) to evaluate NASH, were used to analyze the effects of aerobic exercise in the liver. Our results in the NAFL model showed that exercise decreased the severity of the disease and improved physical capacity compared to sedentary HFD mice. In this regard, although exercise increased the number of LD in hepatocytes, LD were smaller in size than in the sedentary HFD mice. Notably, while sedentary HFD mice increased hepatic lipid droplet (LD)-mitochondria interaction, in exercised animals, this interaction was decreased. Additionally, exercise decreased the size of the LD bound to mitochondria, and this peridroplet mitochondria (PDM) exhibited higher basal respiration and ATP synthesis capacity than PDM from sedentary HFD mice. Besides, we found a positive correlation that predicts the severity of NAFL between LD-mitochondria interaction in the liver and plasmatic ALT transaminases. This correlation is also positive between hepatic LD-mitochondria interaction and the area under the glucose tolerance test curve in this model. Our results in the NASH model resemble, to a greater extent, what we observed in the NAFL model. In NASH, exercise also reduced collagen accumulation, decreased LD-mitochondria interaction, and reduced the size of LD coupled to mitochondria compared to sedentary MCD mice. In all, our results show that aerobic exercise decreases LD-mitochondria interaction in hepatocytes and this interaction is associated with less severity of NAFL and NASH. We propose that exercise provokes an improvement of NAFLD by reduction of the hepatic LD-mitochondria interaction that in turn increase peridroplet mitochondria activity. The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. All rights reserved. No reuse allowed without permission.
- ItemEffects of environmental alerts and pre-emergencies on pollutant concentrations in Santiago, Chile(PERGAMON-ELSEVIER SCIENCE LTD, 2012) Troncoso, Rodrigo; de Grange, Louis; Cifuentes, Luis A.To reduce air pollution levels in Santiago, Chile on days when the weather is expected to create poor ventilation conditions and increased air pollutant concentrations, the responsible authorities impose temporary restrictions on motor vehicles and certain industrial activities. We estimate the impact of these restrictions on the city's air quality using data collected by a network of monitoring stations. The estimates show that the restrictions do reduce the average concentrations of coarse and fine particulate matter, carbon monoxide and nitrogen oxide (both gases are emitted mainly by vehicles). However, no significant changes were found in the sulfur dioxide concentrations, which are primarily the result of industrial processes. (C) 2012 Elsevier Ltd. All rights reserved.
- ItemEnergy-preserving effects of IGF-1 antagonize starvation-induced cardiac autophagy(2012) Troncoso, Rodrigo; Vicencio, Jose Miguel; Parra, Valentina; Nemchenko, Andriy; Kawashima, Yuki; Del Campo, Andrea; Toro, Barbra; Battiprolu, Pavan K.; Aranguiz, Pablo; Chiong, Mario; Yakar, Shoshana; Gillette, Thomas G.; Hill, Joseph A.; Abel, Evan Dale; LeRoith, Derek; Lavandero, Sergio
- ItemEnmascaramiento Clínico: Una revisión de la literatura(2016) Troncoso, Rodrigo; Fuentes López, Eduardo; Aracena Carmona, Karina Andrea; Rivera B., Carla
- ItemGln(27)-> Glu beta(2)-Adrenergic Receptor Polymorphism in Heart Failure Patients: Differential Clinical and Oxidative Response to Carvedilol(2009) Troncoso, Rodrigo; Moraga, Francisco; Chiong, Mario; Roldán Saelzer, Juan; Bravo, Roberto; Valenzuela Bassi, Rodrigo Andrés; Diaz-Araya, Guillermo; Del Campo, Andrea; Sanhueza, Carlos; Rodriguez, Andrea; Vukasovic, Jose Luis; Mellado Suazo, Rosemarie; Greig, Douglas; Castro Gálvez, Pablo Federico
- ItemIncreased ER-mitochondrial coupling promotes mitochondrial respiration and bioenergetics during early phases of ER stress(COMPANY BIOLOGISTS LTD, 2011) Bravo, Roberto; Miguel Vicencio, Jose; Parra, Valentina; Troncoso, Rodrigo; Pablo Munoz, Juan; Bui, Michael; Quiroga, Clara; Rodriguez, Andrea E.; Verdejo, Hugo E.; Ferreira, Jorge; Iglewski, Myriam; Chiong, Mario; Simmen, Thomas; Zorzano, Antonio; Hill, Joseph A.; Rothermel, Beverly A.; Szabadkai, Gyorgy; Lavandero, SergioIncreasing evidence indicates that endoplasmic reticulum (ER) stress activates the adaptive unfolded protein response (UPR), but that beyond a certain degree of ER damage, this response triggers apoptotic pathways. The general mechanisms of the UPR and its apoptotic pathways are well characterized. However, the metabolic events that occur during the adaptive phase of ER stress, before the cell death response, remain unknown. Here, we show that, during the onset of ER stress, the reticular and mitochondrial networks are redistributed towards the perinuclear area and their points of connection are increased in a microtubule-dependent fashion. A localized increase in mitochondrial transmembrane potential is observed only in redistributed mitochondria, whereas mitochondria that remain in other subcellular zones display no significant changes. Spatial re-organization of these organelles correlates with an increase in ATP levels, oxygen consumption, reductive power and increased mitochondrial Ca2+ uptake. Accordingly, uncoupling of the organelles or blocking Ca2+ transfer impaired the metabolic response, rendering cells more vulnerable to ER stress. Overall, these data indicate that ER stress induces an early increase in mitochondrial metabolism that depends crucially upon organelle coupling and Ca2+ transfer, which, by enhancing cellular bioenergetics, establishes the metabolic basis for the adaptation to this response.
- ItemInsulin Stimulates Mitochondrial Fusion and Function in Cardiomyocytes via the Akt-mTOR-NF kappa B-Opa-1 Signaling Pathway(AMER DIABETES ASSOC, 2014) Parra, Valentina; Verdejo, Hugo E.; Iglewski, Myriam; del Campo, Andrea; Troncoso, Rodrigo; Jones, Deborah; Zhu, Yi; Kuzmicic, Jovan; Pennanen, Christian; Lopez Crisosto, Camila; Jana, Fabian; Ferreira, Jorge; Noguera, Eduard; Chiong, Mario; Bernlohr, David A.; Klip, Amira; Hill, Joseph A.; Rothermel, Beverly A.; Abel, Evan Dale; Zorzano, Antonio; Lavandero, SergioInsulin regulates heart metabolism through the regulation of insulin-stimulated glucose uptake. Studies have indicated that insulin can also regulate mitochondrial function. Relevant to this idea, mitochondrial function is impaired in diabetic individuals. Furthermore, the expression of Opa-1 and mitofusins, proteins of the mitochondrial fusion machinery, is dramatically altered in obese and insulin-resistant patients. Given the role of insulin in the control of cardiac energetics, the goal of this study was to investigate whether insulin affects mitochondrial dynamics in cardiomyocytes. Confocal microscopy and the mitochondrial dye MitoTracker Green were used to obtain three-dimensional images of the mitochondrial network in cardiomyocytes and L6 skeletal muscle cells in culture. Three hours of insulin treatment increased Opa-1 protein levels, promoted mitochondrial fusion, increased mitochondrial membrane potential, and elevated both intracellular ATP levels and oxygen consumption in cardiomyocytes in vitro and in vivo. Consequently, the silencing of Opa-1 or Mfn2 prevented all the metabolic effects triggered by insulin. We also provide evidence indicating that insulin increases mitochondrial function in cardiomyocytes through the Akt-mTOR-NFB signaling pathway. These data demonstrate for the first time in our knowledge that insulin acutely regulates mitochondrial metabolism in cardiomyocytes through a mechanism that depends on increased mitochondrial fusion, Opa-1, and the Akt-mTOR-NFB pathway.
- ItemPalmitic acid control of ciliogenesis modulates insulin signaling in hypothalamic neurons through an autophagy-dependent mechanism(SPRINGERNATURE, 2022) Avalos, Yenniffer; Paz Hernandez-Caceres, Maria; Lagos, Pablo; Pinto-Nunez, Daniela; Rivera, Patricia; Burgos, Paulina; Diaz-Castro, Francisco; Joy-Immediato, Michelle; Venegas-Zamora, Leslye; Lopez-Gallardo, Erik; Kretschmar, Catalina; Batista-Gonzalez, Ana; Cifuentes-Araneda, Flavia; Toledo-Valenzuela, Lilian; Rodriguez-Pena, Marcelo; Espinoza-Caicedo, Jasson; Perez-Leighton, Claudio; Bertocchi, Cristina; Cerda, Mauricio; Troncoso, Rodrigo; Parra, Valentina; Budini, Mauricio; Burgos, Patricia, V; Criollo, Alfredo; Morselli, EugeniaPalmitic acid (PA) is significantly increased in the hypothalamus of mice, when fed chronically with a high-fat diet (HFD). PA impairs insulin signaling in hypothalamic neurons, by a mechanism dependent on autophagy, a process of lysosomal-mediated degradation of cytoplasmic material. In addition, previous work shows a crosstalk between autophagy and the primary cilium (hereafter cilium), an antenna-like structure on the cell surface that acts as a signaling platform for the cell. Ciliopathies, human diseases characterized by cilia dysfunction, manifest, type 2 diabetes, among other features, suggesting a role of the cilium in insulin signaling. Cilium depletion in hypothalamic pro-opiomelanocortin (POMC) neurons triggers obesity and insulin resistance in mice, the same phenotype as mice deficient in autophagy in POMC neurons. Here we investigated the effect of chronic consumption of HFD on cilia; and our results indicate that chronic feeding with HFD reduces the percentage of cilia in hypothalamic POMC neurons. This effect may be due to an increased amount of PA, as treatment with this saturated fatty acid in vitro reduces the percentage of ciliated cells and cilia length in hypothalamic neurons. Importantly, the same effect of cilia depletion was obtained following chemical and genetic inhibition of autophagy, indicating autophagy is required for ciliogenesis. We further demonstrate a role for the cilium in insulin sensitivity, as cilium loss in hypothalamic neuronal cells disrupts insulin signaling and insulin-dependent glucose uptake, an effect that correlates with the ciliary localization of the insulin receptor (IR). Consistently, increased percentage of ciliated hypothalamic neuronal cells promotes insulin signaling, even when cells are exposed to PA. Altogether, our results indicate that, in hypothalamic neurons, impairment of autophagy, either by PA exposure, chemical or genetic manipulation, cause cilia loss that impairs insulin sensitivity.
- ItemRegulation of cardiomyocyte autophagy by calcium(2016) Shaikh, Soni; Troncoso, Rodrigo; Criollo, Alfredo; Bravo Sagua, Roberto; García, Lorena; Morselli, Eugenia; Cifuentes, Mariana; Quest, Andrew F. G.; Hill, Joseph A.; Lavandero, Sergio
- ItemSoluble Interleukin-6 Receptor Regulates Interleukin-6-Dependent Vascular Remodeling in Long-Distance Runners(Frontiers Media S.A., 2021) Villar Fincheira, Paulina; Paredes, Aaron J.; Hernandez Diaz, Tomas; Norambuena Soto, Ignacio; Cancino Arenas, Nicole; Sanhueza Olivares, Fernanda; Contreras Briceño, Felipe; Mandiola Ovalle, Jorge; Bruneau, Nicole; Garcia, Lorena; Ocaranza, María Paz; Troncoso, Rodrigo; Gabrielli, Luigi; Chiong, MarioLittle is known about the effects of training load on exercise-induced plasma increase of interleukin-6 (IL-6) and soluble IL-6 receptor (sIL-6R) and their relationship with vascular remodeling. We sought to evaluate the role of sIL 6R as a regulator of IL-6-induced vascular remodeling. Forty-four male marathon runners were recruited and allocated into two groups: low-training (LT, <100 km/week) and high-training (HT, >= 100 km/week), 22 athletes per group. Twenty-one sedentary participants were used as reference. IL-6, sIL-6R and sgp130 levels were measured in plasma samples obtained before and immediately after finishing a marathon (42.2-km). Aortic diameter was measured by echocardiography. The inhibitory effect of sIL-6R on IL-6-induced VSMC migration was assessed using cultured A7r5 VSMCs. Basal plasma IL-6 and sIL-6R levels were similar among sedentary and athlete groups. Plasma IL-6 and sIL-6R levels were elevated after the marathon, and HT athletes had higher post-race plasma sIL-6R, but not IL-6, level than LT athletes. No changes in sgp130 plasma levels were found in LT and HT groups before and after running the marathon. Athletes had a more dilated ascending aorta and aortic root than sedentary participants with no differences between HT and LT athletes. However, a positive correlation between ascending aorta diameter and plasma IL-6 levels corrected by training load and years of training was observed. IL-6 could be responsible for aorta dilation because IL-6 stimulated VSMC migration in vitro, an effect that is inhibited by sIL-6R. However, IL-6 did not modify cell proliferation, collagen type I and contractile protein of VSMC. Our results suggest that exercise induces vascular remodeling. A possible association with IL-6 is proposed. Because sIL-6R inhibits IL-6-induced VSMC migration, a possible mechanism to regulate IL-6-dependent VSMC migration is also proposed.