Mitochondrial and cellular mechanisms for managing lipid excess

Aon, Miguel A.; Bhatt, Nilesh; Cortassa, Sonia

doi:10.3389/fphys.2014.00282

Cited by 202 publications

(186 citation statements)

References 150 publications

(253 reference statements)

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“…In addition, fatty acid metabolites such as diacylglycerol and ceramides can induce perturbations in metabolism and contribute to insulin resistance in metabolic tissues (46). Fatty acids can also be incorporated in other cellular lipids that accumulate in membranes or lipid droplets (2). In contrast to those findings in tissues that actively metabolize fatty acids, we found that HAMEC do not take in or oxidize significant amounts of fatty acids.…”

Section: E41 Palmitate Impairs Adipose Microvascular Endothelium Funccontrasting

confidence: 56%

Palmitate-induced inflammatory pathways in human adipose microvascular endothelial cells promote monocyte adhesion and impair insulin transcytosis

Pillon

Azizi

et al. 2015

American Journal of Physiology-Endocrinology and Metabolism

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Section: E41 Palmitate Impairs Adipose Microvascular Endothelium Funccontrasting

confidence: 56%

Palmitate-induced inflammatory pathways in human adipose microvascular endothelial cells promote monocyte adhesion and impair insulin transcytosis

Pillon

Azizi

et al. 2015

American Journal of Physiology-Endocrinology and Metabolism

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“…Decreases in carnitine and increases in acylcarnitines together with elevated 3-hydroxybutyrate, a marker of hepatic b-oxidation, in serum after ozone exposure relative to air suggests changes in fatty acid oxidation that may be attributed to mitochondrial involvement (44). Additionally, increases in dicarboxylic acids in serum after ozone exposure may relate to increased v-oxidation, a nicotinamide adenine dinucleotide phosphate-and cytochrome P-450-dependent process where the omega carbon of a fatty acid is oxidized to an alcohol and then to a carboxylic acid, thereby generating dicarboxylic acid.…”

Section: Original Articlementioning

confidence: 99%

Ozone Exposure Increases Circulating Stress Hormones and Lipid Metabolites in Humans

Miller

Ghio

Karoly

et al. 2016

Am J Respir Crit Care Med

165

109

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Rationale: Air pollution has been associated with increased prevalence of type 2 diabetes; however, the mechanisms remain unknown. We have shown that acute ozone exposure in rats induces release of stress hormones, hyperglycemia, leptinemia, and glucose intolerance that are associated with global changes in peripheral glucose, lipid, and amino acid metabolism.Objectives: To examine ozone-induced metabolic derangement in humans using serum metabolomic assessment, establish human-to-rodent coherence, and identify novel nonprotein biomarkers.Methods: Serum samples were obtained from a crossover clinical study that included two clinic visits (n = 24 each) where each subject was blindly exposed in the morning to either filtered air or 0.3 parts per million ozone for 2 hours during 15-minute on-off exercise. Serum samples collected within 1 hour after exposure were assessed for changes in metabolites using a metabolomic approach.Measurements and Main Results: Metabolomic analysis revealed that ozone exposure markedly increased serum cortisol and corticosterone together with increases in monoacylglycerol, glycerol, and medium-and long-chain free fatty acids, reflective of lipid mobilization and catabolism. Additionally, ozone exposure increased serum lysolipids, potentially originating from membrane lipid breakdown. Ozone exposure also increased circulating mitochondrial b-oxidation-derived metabolites, such as acylcarnitines, together with increases in the ketone body 3-hydroxybutyrate. These changes suggested saturation of b-oxidation by ozone in exercising humans.Conclusions: As in rodents, acute ozone exposure increased stress hormones and globally altered peripheral lipid metabolism in humans, likely through activation of a neurohormonally mediated stress response pathway. The metabolomic assessment revealed new biomarkers and allowed for establishment of rodent-to-human coherence.Clinical trial registered with www.clinicaltrials.gov (NCT 01492517).Keywords: air pollution; stress response; lipid mediators; fatty acids Several epidemiologic studies nationally and internationally have predicted a link between air pollution and prevalence of diabetes (1-6). It is apparent that the conventional risk factors, such as sedentary lifestyle, obesogenic high-caloric diets, and/or genetics, alone do not fully explain the causal relationship. The contribution of stress and environmental factors has been postulated. Near-road air pollution exposure has also been linked to diabetes (7-9) and a recent study has associated

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“…Alternatively, SRPs may inhibit the lipolysis of LDs by blocking LD-lipase interaction, thereby influencing LD morphology. Fatty acids, which are formed by the lipolysis of LD, are transported into the mitochondria and used to generate ATP via b-oxidation (Aon et al, 2014). qRT-PCR analysis revealed that the mRNA levels of both cytochrome c oxidase 1 (COX1) and COX2, which encode the rate-limiting enzymes of the mitochondrial respiratory chain (Khalimonchuk and Rödel, 2005;Fontanesi et al, 2008), were correlated with SRP mRNA levels.…”

Section: Srps Play Positive Roles In the Biogenesis Of Ldsmentioning

confidence: 99%

Arabidopsis Small Rubber Particle Protein Homolog SRPs Play Dual Roles as Positive Factors for Tissue Growth and Development and in Drought Stress Responses

et al. 2016

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Lipid droplets (LDs) act as repositories for fatty acids and sterols, which are used for various cellular processes such as energy production and membrane and hormone synthesis. LD-associated proteins play important roles in seed development and germination, but their functions in postgermination growth are not well understood. Arabidopsis (Arabidopsis thaliana) contains three SRP homologs (SRP1, SRP2, and SRP3) that share sequence identities with small rubber particle proteins of the rubber tree (Hevea brasiliensis). In this report, the possible cellular roles of SRPs in postgermination growth and the drought tolerance response were investigated. Arabidopsis SRPs appeared to be LD-associated proteins and displayed polymerization properties in vivo and in vitro. SRP-overexpressing transgenic Arabidopsis plants (35S:SRP1, 35S:SRP2, and 35S:SRP3) exhibited higher vegetative and reproductive growth and markedly better tolerance to drought stress than wild-type Arabidopsis. In addition, constitutive over-expression of SRPs resulted in increased numbers of large LDs in postgermination seedlings. In contrast, single (srp1, 35S:SRP2-RNAi, and srp3) and triple (35S:SRP2-RNAi/srp1srp3) loss-of-function mutant lines exhibited the opposite phenotypes. Our results suggest that Arabidopsis SRPs play dual roles as positive factors in postgermination growth and the drought stress tolerance response. The possible relationships between LD-associated proteins and the drought stress response are discussed.Environmental stresses, including drought, high salinity, oxidative stress, and unfavorable temperatures, profoundly affect the growth and development of higher plants. Because of their sessile life cycle, plants have developed self-protective mechanisms to increase their tolerance to short-and long-term stresses by triggering diverse sets of signal transduction pathways and activating stress-responsive genes. The genetic and cellular mechanisms in response to abiotic stress have been widely documented in higher plants (Shinozaki and

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Mitochondrial and cellular mechanisms for managing lipid excess

Cited by 202 publications

References 150 publications

Palmitate-induced inflammatory pathways in human adipose microvascular endothelial cells promote monocyte adhesion and impair insulin transcytosis

Palmitate-induced inflammatory pathways in human adipose microvascular endothelial cells promote monocyte adhesion and impair insulin transcytosis

Ozone Exposure Increases Circulating Stress Hormones and Lipid Metabolites in Humans

Arabidopsis Small Rubber Particle Protein Homolog SRPs Play Dual Roles as Positive Factors for Tissue Growth and Development and in Drought Stress Responses

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