Your search keyword '"Luciano‐Mateo, Fedra"' showing total 32 results

1. TRAIL receptors promote constitutive and inducible IL-8 secretion in non-small cell lung carcinoma.

Author

Favaro F, Luciano-Mateo F, Moreno-Caceres J, Hernández-Madrigal M, Both D, Montironi C, Püschel F, Nadal E, Eldering E, and Muñoz-Pinedo C

Subjects

Humans, Receptors, TNF-Related Apoptosis-Inducing Ligand genetics, Receptors, TNF-Related Apoptosis-Inducing Ligand metabolism, Interleukin-8 genetics, Interleukin-8 metabolism, NF-kappa B metabolism, TNF-Related Apoptosis-Inducing Ligand metabolism, Cell Line, Tumor, Glucose, Apoptosis, Carcinoma, Non-Small-Cell Lung pathology, Lung Neoplasms pathology, Adenocarcinoma

Abstract

Interleukin-8 (IL-8/CXCL8) is a pro-angiogenic and pro-inflammatory chemokine that plays a role in cancer development. Non-small cell lung carcinoma (NSCLC) produces high amounts of IL-8, which is associated with poor prognosis and resistance to chemo-radio and immunotherapy. However, the signaling pathways that lead to IL-8 production in NSCLC are unresolved. Here, we show that expression and release of IL-8 are regulated autonomously by TRAIL death receptors in several squamous and adenocarcinoma NSCLC cell lines. NSCLC constitutively secrete IL-8, which could be further enhanced by glucose withdrawal or by treatment with TRAIL or TNFα. In A549 cells, constitutive and inducible IL-8 production was dependent on NF-κB and MEK/ERK MAP Kinases. DR4 and DR5, known regulators of these signaling pathways, participated in constitutive and glucose deprivation-induced IL-8 secretion. These receptors were mainly located intracellularly. While DR4 signaled through the NF-κB pathway, DR4 and DR5 both regulated the ERK-MAPK and Akt pathways. FADD, caspase-8, RIPK1, and TRADD also regulated IL-8. Analysis of mRNA expression data from patients indicated that IL-8 transcripts correlated with TRAIL, DR4, and DR5 expression levels. Furthermore, TRAIL receptor expression levels also correlated with markers of angiogenesis and neutrophil infiltration in lung squamous carcinoma and adenocarcinoma. Collectively, these data suggest that TRAIL receptor signaling contributes to a pro-tumorigenic inflammatory signature associated with NSCLC., (© 2022. The Author(s).)

Published

2022

2. Laparoscopic Sleeve Gastrectomy in Patients with Severe Obesity Restores Adaptive Responses Leading to Nonalcoholic Steatohepatitis.

Author

Cabré N, Luciano-Mateo F, Chapski DJ, Baiges-Gaya G, Fernández-Arroyo S, Hernández-Aguilera A, Castañé H, Rodríguez-Tomàs E, París M, Sabench F, Castillo DD, Del Bas JM, Tomé M, Bodineau C, Sola-García A, López-Miranda J, Martín-Montalvo A, Durán RV, Vondriska TM, Rosa-Garrido M, Camps J, Menéndez JA, and Joven J

Subjects

Gastrectomy methods, Humans, Ketoglutaric Acids, TOR Serine-Threonine Kinases, Laparoscopy, Non-alcoholic Fatty Liver Disease complications, Non-alcoholic Fatty Liver Disease genetics, Obesity, Morbid surgery

Abstract

The surgically induced remission of liver disease represents a model to investigate the signalling processes that trigger the development of nonalcoholic steatohepatitis with the aim of identifying novel therapeutic targets. We recruited patients with severe obesity with or without nonalcoholic steatohepatitis and obtained liver and plasma samples before and after laparoscopic sleeve gastrectomy for immunoblotting, immunocytochemical, metabolomic, transcriptomic and epigenetic analyses. Functional studies were performed in HepG2 cells and primary hepatocytes. Surgery was associated with a decrease in the inflammatory response and revealed the role of mitogen-activated protein kinases. Nonalcoholic steatohepatitis was associated with an increased glutaminolysis-induced production of α-ketoglutarate and the hyperactivation of mammalian target of rapamycin complex 1. These changes were crucial for adenosine monophosphate-activated protein kinase/mammalian target of rapamycin-driven pathways that modulated hepatocyte survival by coordinating apoptosis and autophagy and affected methylation-related epigenomic remodelling enzymes. Hepatic transcriptome signatures and differentially methylated genomic regions distinguished patients with and without steatohepatitis. Our results suggest that the increased glutaminolysis-induced α-ketoglutarate production and the mammalian target of rapamycin complex 1 dysregulation play a crucial role in the inefficient adaptive responses leading to steatohepatitis in obesity.

Published

2022

3. Glutaminolysis-induced mTORC1 activation drives non-alcoholic steatohepatitis progression.

Author

Cabré N, Luciano-Mateo F, Chapski DJ, Baiges-Gaya G, Fernández-Arroyo S, Hernández-Aguilera A, Castañé H, Rodríguez-Tomàs E, París M, Sabench F, Del Castillo D, Del Bas JM, Tomé M, Bodineau C, Sola-García A, López-Miranda J, Martín-Montalvo A, Durán RV, Vondriska TM, Rosa-Garrido M, Camps J, Menéndez JA, and Joven J

Abstract

Background & Aims: A holistic insight on the relationship between obesity and metabolic dysfunction-associated fatty liver disease is an unmet clinical need. Omics investigations can be used to investigate the multifaceted role of altered mitochondrial pathways to promote nonalcoholic steatohepatitis, a major risk factor for liver disease-associated death. There are no specific treatments but remission via surgery might offer an opportunity to examine the signaling processes that govern the complex spectrum of chronic liver diseases observed in extreme obesity. We aim to assess the emerging relationship between metabolism, methylation and liver disease., Methods: We tailed the flow of information, before and after steatohepatitis remission, from biochemical, histological, and multi-omics analyses in liver biopsies from patients with extreme obesity and successful bariatric surgery. Functional studies were performed in HepG2 cells and primary hepatocytes., Results: The reversal of hepatic mitochondrial dysfunction and the control of oxidative stress and inflammatory responses revealed the regulatory role of mitogen-activated protein kinases. The reversible metabolic rearrangements leading to steatohepatitis increased the glutaminolysis-induced production of α-ketoglutarate and the hyperactivation of mammalian target of rapamycin complex 1. These changes were crucial for the adenosine monophosphate-activated protein kinase/mammalian target of rapamycin-driven pathways that modulated hepatocyte survival by coordinating apoptosis and autophagy. The signaling activity of α-ketoglutarate and the associated metabolites also affected methylation-related epigenomic remodeling enzymes. Integrative analysis of hepatic transcriptome signatures and differentially methylated genomic regions distinguished patients with and without steatohepatitis., Conclusion: We provide evidence supporting the multifaceted potential of the increased glutaminolysis-induced α-ketoglutarate production and the mammalian target of rapamycin complex 1 dysregulation as a conceivable source of the inefficient adaptive responses leading to steatohepatitis., Lay Summary: Steatohepatitis is a frequent and threatening complication of extreme obesity without specific treatment. Omics technologies can be used to identify therapeutic targets. We highlight increased glutaminolysis-induced α-ketoglutarate production as a potential source of signals promoting and exacerbating steatohepatitis., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

4. Hepatic metabolic adaptation and adipose tissue expansion are altered in mice with steatohepatitis induced by high-fat high sucrose diet.

Author

Baiges-Gaya G, Fernández-Arroyo S, Luciano-Mateo F, Cabré N, Rodríguez-Tomàs E, Hernández-Aguilera A, Castañé H, Romeu M, Nogués MR, Camps J, and Joven J

Subjects

AMP-Activated Protein Kinases metabolism, Adipose Tissue pathology, Animals, Autophagy, Disease Models, Animal, Fatty Acids metabolism, Intra-Abdominal Fat metabolism, Liver pathology, Liver Cirrhosis metabolism, Male, Mice, Mice, Inbred C57BL, Mitochondria metabolism, Non-alcoholic Fatty Liver Disease pathology, Obesity metabolism, TOR Serine-Threonine Kinases metabolism, Adipose Tissue metabolism, Diet, High-Fat adverse effects, Dietary Sucrose adverse effects, Liver metabolism, Non-alcoholic Fatty Liver Disease metabolism

Abstract

Background: Obesity is a chronic progressive disease with several metabolic alterations. Nonalcoholic fatty liver disease (NAFLD) is an important comorbidity of obesity that can progress to nonalcoholic steatohepatitis (NASH), cirrhosis or hepatocarcinoma. This study aimed at clarifying the molecular mechanisms underlying the metabolic alterations in hepatic and adipose tissue during high-fat high-sucrose diet-induced NAFLD development in mice., Methods: Twenty-four male mice (C57BL/6J) were randomly allocated into 3 groups (n = 8 mice per group) to receive a chow diet, a high-fat diet (HFD), or a high-fat high-sucrose diet (HF-HSD) for 20 weeks. At sacrifice, liver and adipose tissue were obtained for histopathological, metabolomic, and protein expression analyses., Results: HF-HSD (but not HFD) was associated with NASH and increased oxidative stress. These animals presented an inhibition of hepatic autophagy and alterations in AMP-activated protein kinase/mammalian target of rapamycin activity. We also observed that the ability of metabolic adaptation was adversely affected by the increase of damaged mitochondria. NASH development was associated with changes in adipose tissue dynamics and increased amounts of saturated fatty acids, monounsaturated fatty acids and polyunsaturated fatty acids in visceral adipose tissue., Conclusion: HF-HSD led to a metabolic blockage and impaired hepatic mitochondria turnover. In addition, the continuous accumulation of fatty acids produced adipose tissue dysfunction and hepatic fat accumulation that favored the progression to NASH., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

5. Laparoscopic sleeve gastrectomy alters 1 H-NMR-measured lipoprotein and glycoprotein profile in patients with severe obesity and nonalcoholic fatty liver disease.

Author

Cabré N, Gil M, Amigó N, Luciano-Mateo F, Baiges-Gaya G, Fernández-Arroyo S, Rodríguez-Tomàs E, Hernández-Aguilera A, Castañé H, París M, Sabench F, Del Castillo D, Camps J, and Joven J

Subjects

Adult, Female, Humans, Male, Middle Aged, Retrospective Studies, Diabetes Mellitus, Type 2 blood, Diabetes Mellitus, Type 2 surgery, Glycoproteins blood, Laparoscopy, Lipoproteins blood, Non-alcoholic Fatty Liver Disease blood, Non-alcoholic Fatty Liver Disease surgery, Obesity, Morbid blood, Obesity, Morbid surgery

Abstract

Patients with morbid obesity frequently present non-alcoholic fatty liver (NAFL) and non-alcoholic steatohepatitis (NASH) associated with pro-atherogenic alterations. Laparoscopic sleeve gastrectomy (LSG) is an effective treatment for weight reduction, and for the remission of hepatic alterations. Using 1 H-nuclear magnetic resonance ( 1 H-NMR), we investigated the effects of LSG on lipoprotein and glycoprotein profile in patients with morbid obesity and liver disease. We included 154 patients with morbid obesity (49 non-NASH, 54 uncertain NASH, 51 definite NASH). A blood sample was obtained before surgery and, in patients with definite NASH, one year after surgery. Patients with NASH had increased concentrations of medium and small VLDL particles, VLDL and IDL cholesterol concentrations, IDL, LDL, and HDL triglyceride concentrations, and elevated glycoprotein levels. These changes were more marked in patients with type 2 diabetes mellitus. LSG produced significant decreases in the concentration of VLDL particles, VLDL cholesterol and triglycerides, an increase in the concentration LDL particles and LDL cholesterol concentrations, and a decrease in protein glycation. We conclude that patients with obesity and NASH had significant alterations in circulating levels of lipoproteins and glycoproteins that were associated with the severity of the disease. Most of these changes were reversed post-LSG.

Published

2021

6. Systemic overexpression of C-C motif chemokine ligand 2 promotes metabolic dysregulation and premature death in mice with accelerated aging.

Author

Luciano-Mateo F, Cabré N, Baiges-Gaya G, Fernández-Arroyo S, Hernández-Aguilera A, Elisabet Rodríguez-Tomàs E, Arenas M, Camps J, Menéndez JA, and Joven J

Subjects

Animals, Animals, Genetically Modified, Autophagy, Chemokine CCL2 genetics, DNA Methylation, Disease Models, Animal, Lamin Type A genetics, Longevity, Male, Mice, Inbred C57BL, Mice, Mutant Strains, Mitochondria, Muscle genetics, Mitochondria, Muscle pathology, Mitochondrial Dynamics, Muscle, Skeletal pathology, Mutation, Progeria genetics, Progeria pathology, Signal Transduction, Up-Regulation, Cellular Senescence, Chemokine CCL2 metabolism, Energy Metabolism, Mitochondria, Muscle metabolism, Muscle, Skeletal metabolism, Progeria metabolism

Abstract

Injection of tissues with senescent cells induces changes that mimic aging, and this process is delayed in mice engineered to eliminate senescent cells, which secrete proinflammatory cytokines, including C-C motif chemokine ligand 2 ( Ccl2 ). Circulating levels of Ccl2 correlate with age, but the impact of Ccl2 on tissue homeostasis has not been established. We generated an experimental model by crossbreeding mice overexpressing Ccl2 with progeroid mice bearing a mutation in the lamin A ( Lmna) gene. Wild-type animals and progeroid mice that do not overexpress Ccl2 were used as controls. Ccl2 overexpression decreased the lifespan of the progeroid mice and induced the dysregulation of glycolysis, the citric acid cycle and one-carbon metabolism in skeletal muscle, driving dynamic changes in energy metabolism and DNA methylation. This impact on cellular bioenergetics was associated with mitochondrial alterations and affected cellular metabolism, autophagy and protein synthesis through AMPK/mTOR pathways. The data revealed the ability of Ccl2 to promote death in mice with accelerated aging, which supports its putative use as a biomarker of an increased senescent cell burden and for the assessment of the efficacy of interventions aimed at extending healthy aging.

Published

2020

7. Chemokine C-C motif ligand 2 overexpression drives tissue-specific metabolic responses in the liver and muscle of mice.

Author

Luciano-Mateo F, Cabré N, Fernández-Arroyo S, Baiges-Gaya G, Hernández-Aguilera A, Rodríguez-Tomàs E, Muñoz-Pinedo C, Menéndez JA, Camps J, and Joven J

Subjects

Animals, Autophagy, Biopsy, Chemokine CCL2 metabolism, Male, Metabolic Networks and Pathways, Mice, Models, Biological, Organ Specificity, Phenotype, Signal Transduction, Chemokine CCL2 genetics, Energy Metabolism, Gene Expression, Liver metabolism, Muscles metabolism

Abstract

Chemokine (C-C motif) ligand 2 (CCL2) has been associated with chronic metabolic diseases. We aimed to investigate whether Ccl2 gene overexpression is involved in the regulation of signaling pathways in metabolic organs. Biochemical and histological analyses were used to explore tissue damage in cisgenic mice that overexpressed the Ccl2 gene. Metabolites from energy and one-carbon metabolism in liver and muscle extracts were measured by targeted metabolomics. Western blot analysis was used to explore the AMP-activated protein kinase (AMPK) and mammalian target of rapamycin pathways. Ccl2 overexpression resulted in steatosis, decreased AMPK activity and altered mitochondrial dynamics in the liver. These changes were associated with decreased oxidative phosphorylation and alterations in the citric acid cycle and transmethylation. In contrast, AMPK activity and its downstream mediators were increased in muscle, where we observed an increase in oxidative phosphorylation and increased concentrations of different metabolites associated with ATP synthesis. In conclusion, Ccl2 overexpression induces distinct metabolic alterations in the liver and muscle that affect mitochondrial dynamics and the regulation of energy sensors involved in cell homeostasis. These data suggest that CCL2 may be a therapeutic target in metabolic diseases.

Published

2020

8. Plasma metabolic alterations in patients with severe obesity and non-alcoholic steatohepatitis.

Author

Cabré N, Luciano-Mateo F, Baiges-Gayà G, Fernández-Arroyo S, Rodríguez-Tomàs E, Hernández-Aguilera A, París M, Sabench F, Del Castillo D, López-Miranda J, Menéndez JA, Camps J, and Joven J

Subjects

Adult, Bariatric Surgery, Biomarkers metabolism, Biopsy, Female, Humans, Intraoperative Period, Liver metabolism, Liver pathology, Male, Metabolomics methods, Middle Aged, Mitochondria, Liver metabolism, Mitochondria, Liver pathology, Non-alcoholic Fatty Liver Disease diagnosis, Non-alcoholic Fatty Liver Disease pathology, Obesity, Morbid surgery, Weight Loss physiology, Biomarkers blood, Metabolome, Non-alcoholic Fatty Liver Disease blood, Non-alcoholic Fatty Liver Disease complications, Obesity, Morbid blood, Obesity, Morbid complications

Abstract

Background: Obesity can influence hepatic mitochondrial function, and cause non-alcoholic steatohepatitis (NASH). Diagnosis and follow-up rely on invasive liver biopsy so blood-based markers are urgently required., Aim: To investigate whether values of circulating metabolites from energy and one-carbon (1-C) metabolism may: (a) reflect hepatic mitochondrial flexibility failure and (b) act as NASH biomarkers., Methods: Patients with severe obesity undergoing bariatric surgery (n = 270) were investigated using quantitative targeted plasma metabolomics. Comparisons were with non-obese controls without liver disease (n = 50). Obese patients with NASH (n = 53) and without NASH (n = 130) representing extreme groups of liver disease were assessed to test the diagnostic ability of the measured circulating metabolites. Paired liver biopsy and plasma samples from NASH patients were available 1 year post-surgery and were evaluated to monitor metabolomic changes with liver damage resolution., Results: We identified correlations between human liver metabolism and obesity. High-plasma α-ketoglutarate (α-KG) and lactate concentrations in NASH patients indicating citric acid cycle replenishment via glutaminolysis might also be a crucial point in NASH onset. Plasma measurements of α-KG, β-hydroxybutyrate, pyruvate and oxaloacetate reduced the uncertainty in clinical diagnosis of NASH [area under receiver operating characteristic curve (AUC) of 0.826] and predicted NASH resolution without ambiguity (AUC of 0.999)., Conclusion: Changes in plasma mitochondrial metabolites appear to be associated with NASH. These metabolic responses may be dynamically remodelled following resolution of liver damage through massive weight loss., (© 2019 John Wiley & Sons Ltd.)

Published

2020

9. Chemokine (C-C motif) ligand 2 and coronary artery disease: Tissue expression of functional and atypical receptors.

Author

Hernández-Aguilera A, Fibla M, Cabré N, Luciano-Mateo F, Camps J, Fernández-Arroyo S, Martín-Paredero V, Menendez JA, Sirvent JJ, and Joven J

Subjects

Adult, Aged, Humans, Inflammation pathology, Male, Middle Aged, Prognosis, Receptors, Chemokine metabolism, Atherosclerosis pathology, Chemokine CCL2 metabolism, Coronary Artery Disease pathology, Duffy Blood-Group System metabolism, Receptors, CCR2 metabolism, Receptors, Cell Surface metabolism

Abstract

Chemokines, particularly chemokine (C-C- motif) ligand 2 (CCL2), control leukocyte migration into the wall of the artery and regulate the traffic of inflammatory cells. CCL2 is bound to functional receptors (CCR2), but also to atypical chemokine receptors (ACKRs), which do not induce cell migration but can modify chemokine gradients. Whether atherosclerosis alters CCL2 function by influencing the expression of these receptors remains unknown. In a necropsy study, we used immunohistochemistry to explore where and to what extent CCL2 and related receptors are present in diseased arteries that caused the death of men with coronary artery disease compared with unaffected arteries. CCL2 was marginally detected in normal arteries but was more frequently found in the intima. The expression of CCL2 and related receptors was significantly increased in diseased arteries with relative differences among the artery layers. The highest relative increases were those of CCL2 and ACKR1. CCL2 expression was associated with a significant predictive value of atherosclerosis. Findings suggest the need for further insight into receptor specificity or activity and the interplay among chemokines. CCL2-associated conventional and atypical receptors are overexpressed in atherosclerotic arteries, and these may suggest new potential therapeutic targets to locally modify the overall anti-inflammatory response., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

10. Laparoscopic sleeve gastrectomy reverses non-alcoholic fatty liver disease modulating oxidative stress and inflammation.

Author

Cabré N, Luciano-Mateo F, Fernández-Arroyo S, Baiges-Gayà G, Hernández-Aguilera A, Fibla M, Fernández-Julià R, París M, Sabench F, Castillo DD, Menéndez JA, Camps J, and Joven J

Subjects

Adult, Biomarkers, Biopsy, Female, Humans, Inflammation surgery, Laparoscopy, Male, Middle Aged, Non-alcoholic Fatty Liver Disease pathology, Non-alcoholic Fatty Liver Disease therapy, Obesity, Morbid surgery, Treatment Outcome, Gastrectomy methods, Inflammation therapy, Non-alcoholic Fatty Liver Disease surgery, Oxidative Stress

Abstract

Background & Aims: Hepatic alterations, such as in non-alcoholic fatty liver disease (NAFLD) and non-alcoholic steatohepatitis (NASH) are frequently associated with obesity. To investigate the molecular mechanisms of these alterations and to identify molecules that could be used as potential therapeutic targets, we investigated the modulation of hepatic indices of oxidative stress and inflammation in obese patients undergoing laparoscopic sleeve gastrectomy (LSG)., Methods: Patients (n = 436) attending our obesity clinic underwent LSG for weight loss. We obtained a diagnostic intraoperative liver biopsy, and a sub-cohort (n = 120) agreed to a 1-year follow-up that included donation of blood samples and additional liver biopsies. Selected key molecules in blood and liver tissue were used to investigate the hepatic alterations in obesity, and their response to LSG., Results: One year post-surgery, the prevalence of diabetes, dyslipidemia and hypertension decreased significantly. LSG improved liver histology features in all patients. Improvement was greater in severe cases of NAFLD including those with steatohepatitis, bridging fibrosis or cirrhosis. Significant pre-surgery differences in plasma, and liver markers of oxidative stress and inflammation (including chemokine C-C motif ligand 2, paraoxonase-1, galectin-3, and sonic hedgehog) were observed between patients with, and those without, NASH; post-surgery indicated consistent improvements in these parameters., Conclusion: Our study shows that the histology and liver function of patients with morbid obesity are significantly improved after LSG via mechanisms that involve the reduction of oxidative stress and inflammatory processes. These data encourage the use of LSG as a therapeutic option to improve, or resolve, NAFLD., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

11. Serum Paraoxonase-1-Related Variables and Lipoprotein Profile in Patients with Lung or Head and Neck Cancer: Effect of Radiotherapy.

Author

Rodríguez-Tomàs E, Murcia M, Arenas M, Arguís M, Gil M, Amigó N, Correig X, Torres L, Sabater S, Baiges-Gayà G, Cabré N, Luciano-Mateo F, Hernández-Aguilera A, Fort-Gallifa I, Camps J, and Joven J

Abstract

We investigated alterations in the levels of the antioxidant paraoxonase-1 (PON1) and the lipoprotein profile (analyzed by nuclear magnetic resonance) in patients with lung cancer (LC) or head and neck cancer (HNC), and the effects produced thereon by radiotherapy (RT). We included 33 patients with LC and 28 patients with HNC. Before irradiation, and one month after completion of RT, blood samples were obtained. The control group was composed of 50 healthy subjects. Patients had significantly lower serum PON1 activity and concentration before RT than the control group. PON1-related variables were good predictors of the presence of LC or HNC, with analytical sensitivities and specificities greater than 80%. Patients showed a significant increase in the number of particles of all subclasses of very-low-density lipoproteins (large, medium and small). However, these changes were not maintained when adjusted for age, sex, and other clinical and demographic variables. Irradiation was associated with a significant increase in PON1 concentration and, only in patients with HNC, with an increase in high-density lipoprotein-cholesterol concentration. Our results suggest that determinations of the levels of PON1-related variables may constitute good biomarkers for the evaluation of these diseases. Studies with a larger number of patients are needed to fully confirm this hypothesis.

Published

2019

12. Chemokine (C-C motif) ligand 2 gene ablation protects low-density lipoprotein and paraoxonase-1 double deficient mice from liver injury, oxidative stress and inflammation.

Author

Luciano-Mateo F, Cabré N, Fernández-Arroyo S, Baiges-Gaya G, Hernández-Aguilera A, Rodríguez-Tomàs E, Mercado-Gómez M, Menendez JA, Camps J, and Joven J

Subjects

Animals, Aryldialkylphosphatase deficiency, Autophagy genetics, Chemokine CCL2 deficiency, Diet, High-Fat adverse effects, Energy Metabolism genetics, Gene Expression Regulation, Glutathione metabolism, Hyperlipidemias etiology, Hyperlipidemias metabolism, Hyperlipidemias pathology, Liver metabolism, Liver pathology, Lysosomal-Associated Membrane Protein 2 genetics, Lysosomal-Associated Membrane Protein 2 metabolism, Macrophages metabolism, Macrophages pathology, Male, Metabolome genetics, Methionine metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Non-alcoholic Fatty Liver Disease etiology, Non-alcoholic Fatty Liver Disease metabolism, Non-alcoholic Fatty Liver Disease pathology, Oxidative Stress, Receptors, LDL deficiency, Signal Transduction, Aryldialkylphosphatase genetics, Chemokine CCL2 genetics, Hyperlipidemias genetics, Lipoproteins, LDL metabolism, Non-alcoholic Fatty Liver Disease genetics, Receptors, LDL genetics

Abstract

The risk of non-alcoholic fatty liver disease increases with obesity. Vulnerability to oxidative stress and/or inflammation represents a crucial step in non-alcoholic fatty liver disease progression through abnormal metabolic responses. In this study, we investigated the role of CCL2 gene ablation in mice that were double deficient in low density lipoprotein receptor and in paraoxonase-1. Mass spectrometry methods were used to assess the liver metabolic response in mice fed either regular chow or a high-fat diet. Dietary fat caused liver steatosis, oxidative stress and the accumulation of pro-inflammatory macrophages in the livers of double deficient mice. We observed alterations in energy metabolism-related pathways and in metabolites associated with the methionine cycle and the glutathione reduction pathway. This metabolic response was associated with impaired autophagy. Conversely, when we established CCL2 deficiency, histologic features of fatty liver disease were abrogated, hepatic liver oxidative stress decreased, and anti-inflammatory macrophage marker expression levels increased. These changes were associated with the normalization of metabolic disturbances and increased lysosome-associated membrane protein 2, expression, which suggests enhanced chaperone-mediated autophagy. This study demonstrates that CCL2 is a key molecule for the development of metabolic and histological alterations in the liver of mice sensitive to the development of hyperlipidemia and hepatic steatosis, a finding with potential to identify new therapeutic targets in liver diseases., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

13. Trace element concentrations in breast cancer patients.

Author

Cabré N, Luciano-Mateo F, Arenas M, Nadal M, Baiges-Gaya G, Hernández-Aguilera A, Fort-Gallifa I, Rodríguez E, Riu F, Camps J, Joven J, and Domingo JL

Subjects

Adult, Biomarkers, Tumor metabolism, Breast Neoplasms blood, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Case-Control Studies, Female, Humans, Middle Aged, Neoadjuvant Therapy, Trace Elements metabolism, Biomarkers, Tumor blood, Breast Neoplasms metabolism, Trace Elements blood

Abstract

Alterations in the circulating levels of trace elements have been observed in breast cancer (BC) patients. However, the relationships between these alterations and the metabolic and clinical consequences of BC are unknown. The treatment-of-choice of BC is surgery followed by radiation therapy (RT). The present study was aimed at investigating: 1) the concentrations of several trace elements in BC patients, and their relationships with the intrinsic molecular subtypes of tumors; 2) the toxicological effect of RT. We studied 49 women with BC who were scheduled to receive RT following excision of the tumor. Plasma samples were obtained before and after the irradiation procedure. The control group was composed of 49 healthy women. Patients had significantly lower pre-RT concentrations of B, Cu, and Zn, and significantly higher concentrations of Sr than the control group. Irradiation was associated with a striking increase in plasma B concentrations, while Cu, Fe, Sr and Zn concentrations were not significantly different from pre-RT levels, albeit Sr and Zn showed non-significant trends towards increases. The plasma concentrations of B, Cu, Fe, Sr, and Zn were associated with the tumor expression of hormone receptors, epidermal growth factor receptor 2, Ki67 antigen, as well as dermatitis and asthenia, all of which represent the main toxicological responses to RT., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

14. Metabolite normalization with local radiotherapy following breast tumor resection.

Author

Arenas M, Rodríguez E, García-Heredia A, Fernández-Arroyo S, Sabater S, Robaina R, Gascón M, Rodríguez-Pla M, Cabré N, Luciano-Mateo F, Hernández-Aguilera A, Fort-Gallifa I, Camps J, and Joven J

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Middle Aged, Amino Acids metabolism, Citric Acid Cycle, Glycolysis, Triple Negative Breast Neoplasms metabolism, Triple Negative Breast Neoplasms pathology, Triple Negative Breast Neoplasms therapy

Abstract

The aims of this study were to investigate changes in energy balance-associated metabolites associated with radiotherapy in patients with breast cancer, and to relate these changes to the clinical and pathological response-to-treatment. We studied 151 women with breast cancer who received radiotherapy following surgical excision of the tumor. Blood was obtained before and after the irradiation procedure. The control group was composed of 44 healthy women with a similar age distribution to that of the patients. We analyzed the concentrations of metabolites involved in glycolysis, citric acid cycle and amino acid metabolism using targeted quantitative metabolomics. Post-surgery, pre-radiotherapy, patients had major alterations in the serum concentrations of products of glycolysis, citric acid cycle and amino acid metabolism. The strongest alterations were decreases in serine, leucine and isoleucine concentrations. Alterations in metabolite levels were partially, or totally, reversed after irradiation; the concentrations of serine, leucine and isoleucine approached equivalence to those of the control group. Estrogen receptor-positive patients were those with lower concentrations, while triple negative patients had higher concentrations of these amino acids. The normalization of the amino acids serine, leucine and isoleucine concentrations could be clinically relevant because the normalization of these energy-balance metabolites would suggest that residual micro-metastatic disease had been effectively diminished by the radiotherapy, and may be an indicator of its efficacy., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

15. Trace Elements and Paraoxonase-1 Activity in Lower Extremity Artery Disease.

Author

Rovira J, Hernández-Aguilera A, Luciano-Mateo F, Cabré N, Baiges-Gaya G, Nadal M, Martín-Paredero V, Camps J, Joven J, and Domingo JL

Subjects

Aged, Anti-Inflammatory Agents, Non-Steroidal blood, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Antioxidants therapeutic use, Atherosclerosis blood, Atherosclerosis drug therapy, Female, Humans, Lower Extremity, Male, Mass Spectrometry, Middle Aged, Trace Elements blood, Trace Elements therapeutic use, Anti-Inflammatory Agents, Non-Steroidal metabolism, Antioxidants metabolism, Aryldialkylphosphatase metabolism, Atherosclerosis metabolism, Trace Elements metabolism

Abstract

Oxidative stress and inflammation are candidate mechanisms to explain the potential role of exposure to metals and reduced activity of paraoxonase-1 (PON1) in age-related diseases. Both may be risk factors contributing to atherosclerosis. In the present study, inductively coupled mass spectrometry was used to explore multiple trace elements, while in-house methods were employed to measure PON1-related variables in patients with lower extremity artery disease (LEAD). Healthy controls were matched for sex, age, body weight, and relevant genotype variants. Serum concentrations of As, Ba, Cu, and Sr were higher in patients than those in controls, with a strong predictive ability to discriminate between groups. Differences in serum Pb, Cd, and Zn were negligible. Serum Cu increased when the disease was more severe, but a negative trend was noted for serum As, B, Ba, and Zn. The only variable associated with ankle-brachial index was serum Zn. Serum PON1 activity was significantly lower in LEAD patients. When the ability of serum trace elements to modulate PON1 activity was explored, the analysis revealed a unique association with serum Zn. The current results strongly suggest that Zn may have a protective effect in non-coronary atherosclerosis and indicate that this element may exert its anti-inflammatory and antioxidant functions through interactions with PON1 activity. These findings deserve confirmation and further research. In particular, the periodic evaluation of serum trace elements and the prescription of Zn supplements are easy measures to implement and that can improve the treatment of patients with LEAD.

Published

2018

16. Effect of continuous renal-replacement therapy on paraoxonase-1-related variables in patients with acute renal failure caused by septic shock.

Author

Garrido P, Rovira C, Cueto P, Fort-Gallifa I, Hernández-Aguilera A, Cabré N, Luciano-Mateo F, García-Heredia A, Camps J, Joven J, Garcia E, and Vallverdú I

Subjects

Acute Kidney Injury blood, Acute Kidney Injury etiology, Acute Kidney Injury physiopathology, Aged, Biomarkers blood, Cholesterol blood, Cholesterol, HDL blood, Cohort Studies, Female, Hospitals, University, Humans, Intensive Care Units, Length of Stay, Longitudinal Studies, Male, Middle Aged, Prospective Studies, Severity of Illness Index, Spain, Urea blood, Acute Kidney Injury therapy, Aryldialkylphosphatase blood, Kidney physiopathology, Renal Replacement Therapy adverse effects, Shock, Septic physiopathology

Abstract

Background: Acute renal failure in patients with sepsis is associated with high mortality. Studies have highlighted alterations in serum paraoxonase-1 in severe infections. However, the published literature has no insight into the clinical evolution of these parameters in patients with sepsis and acute renal failure treated with extra-renal depuration techniques., Methods: We studied 25 patients with sepsis and acute renal failure who were treated with continuous renal-replacement therapy. Blood for laboratory analyses was collected at days 0, 1, 2, 5, 7, and 10. We measured serum paraoxonase-1 activity and concentration, lipid profile, aminotransferase activities, pH, and lactate, urea, creatinine and C-reactive protein concentrations. Values were compared with those of 50 healthy individuals., Results: Patients with sepsis and acute renal failure had lower serum paraoxonase-1 activity, lower high-density lipoprotein cholesterol concentrations, and higher serum paraoxonase-1 concentrations than the control group. We found a significant inverse correlation between serum paraoxonase-1 concentrations and the Acute Physiology And Chronic Health Evaluation II score in survivors as well as non-survivors, and a significant inverse correlation between serum paraoxonase-1 concentrations and the Sequential Organ Failure Assessment score only in survivors. Extra-renal depuration techniques produced a further increase in this enzyme related to the duration of treatment, and to serum urea concentration., Conclusion: Our results show an inverse relationship between the concentration of paraoxonase-1 and the disease severity of patients with renal failure caused by septic shock. These results highlight relationships between paraoxonase-1 and infectious diseases and sepsis, with insights into potential clinical evolution of treatment., (Copyright © 2018 The Canadian Society of Clinical Chemists. Published by Elsevier Inc. All rights reserved.)

Published

2018

17. Plasma Energy-Balance Metabolites Discriminate Asymptomatic Patients with Peripheral Artery Disease.

Author

Hernández-Aguilera A, Fernández-Arroyo S, Cabre N, Luciano-Mateo F, Baiges-Gaya G, Fibla M, Martín-Paredero V, Menendez JA, Camps J, and Joven J

Subjects

Aryldialkylphosphatase metabolism, Biomarkers blood, Chemokine CCL2 metabolism, Cross-Sectional Studies, Energy Metabolism physiology, Humans, Metabolomics, Oxidative Stress, Peripheral Arterial Disease diagnosis, Peripheral Arterial Disease metabolism, Peripheral Arterial Disease blood

Abstract

Peripheral artery disease (PAD) is a common disease affecting 20-25% of population over 60 years old. Early diagnosis is difficult because symptoms only become evident in advanced stages of the disease. Inflammation, impaired metabolism, and mitochondrial dysfunction predispose to PAD, which is normally associated with other highly prevalent and related conditions, such as diabetes, dyslipidemia, and hypertension. We have measured energy-balance-associated metabolite concentrations in the plasma of PAD patients segregated by the severity of the disease and in plasma of healthy volunteers using a quantitative and targeted metabolomic approach. We found relevant associations between several metabolites (3-hydroxybutirate, aconitate, (iso)citrate, glutamate, and serine) with markers of oxidative stress and inflammation. Metabolomic profiling also revealed that (iso)citrate and glutamate are metabolites with high ability to discriminate between healthy participants and PAD patients without symptoms. Collectively, our data suggest that metabolomics provide significant information on the pathogenesis of PAD and useful biomarkers for the diagnosis and assessment of progression.

Published

2018

18. Metformin directly targets the H3K27me3 demethylase KDM6A/UTX.

Author

Cuyàs E, Verdura S, Llorach-Pares L, Fernández-Arroyo S, Luciano-Mateo F, Cabré N, Stursa J, Werner L, Martin-Castillo B, Viollet B, Neuzil J, Joven J, Nonell-Canals A, Sanchez-Martinez M, and Menendez JA

Subjects

Animals, Biocatalysis, Dose-Response Relationship, Drug, Enzyme Inhibitors chemistry, Female, Histone Demethylases metabolism, Humans, Ligands, Metformin chemistry, Mice, Mice, Knockout, Models, Molecular, Molecular Structure, Neoplasms, Experimental drug therapy, Neoplasms, Experimental metabolism, Nuclear Proteins metabolism, Enzyme Inhibitors pharmacology, Histone Demethylases antagonists & inhibitors, Metformin pharmacology, Nuclear Proteins antagonists & inhibitors

Abstract

Metformin, the first drug chosen to be tested in a clinical trial aimed to target the biology of aging per se, has been clinically exploited for decades in the absence of a complete understanding of its therapeutic targets or chemical determinants. We here outline a systematic chemoinformatics approach to computationally predict biomolecular targets of metformin. Using several structure- and ligand-based software tools and reference databases containing 1,300,000 chemical compounds and more than 9,000 binding sites protein cavities, we identified 41 putative metformin targets including several epigenetic modifiers such as the member of the H3K27me3-specific demethylase subfamily, KDM6A/UTX. AlphaScreen and AlphaLISA assays confirmed the ability of metformin to inhibit the demethylation activity of purified KDM6A/UTX enzyme. Structural studies revealed that metformin might occupy the same set of residues involved in H3K27me3 binding and demethylation within the catalytic pocket of KDM6A/UTX. Millimolar metformin augmented global levels of H3K27me3 in cultured cells, including reversion of global loss of H3K27me3 occurring in premature aging syndromes, irrespective of mitochondrial complex I or AMPK. Pharmacological doses of metformin in drinking water or intraperitoneal injection significantly elevated the global levels of H3K27me3 in the hepatic tissue of low-density lipoprotein receptor-deficient mice and in the tumor tissues of highly aggressive breast cancer xenograft-bearing mice. Moreover, nondiabetic breast cancer patients receiving oral metformin in addition to standard therapy presented an elevated level of circulating H3K27me3. Our biocomputational approach coupled to experimental validation reveals that metformin might directly regulate the biological machinery of aging by targeting core chromatin modifiers of the epigenome., (© 2018 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.)

Published

2018

19. Serum concentrations of trace elements and their relationships with paraoxonase-1 in morbidly obese women.

Author

Luciano-Mateo F, Cabré N, Nadal M, García-Heredia A, Baiges-Gaya G, Hernández-Aguilera A, Camps J, Joven J, and Domingo JL

Subjects

Adult, Female, Humans, Middle Aged, Young Adult, Aryldialkylphosphatase blood, Obesity, Morbid blood, Trace Elements blood

Abstract

The metabolic alterations associated with obesity include mineral dysregulation. Essential trace elements are nutrients with a relevant function in a large number of cellular processes and multiple roles in the correct functioning of metabolic enzymes. Paraoxonase-1 (PON1) is an antioxidant and anti-inflammatory enzyme that is compromised in obesity. In the present study, the potential alterations in trace elements in morbidly obese women were assessed in relation to serum PON1 activity and concentration, as well as to other obesity-related comorbidities such as diabetes mellitus and fatty liver. We recruited 41 morbidly obese women and 51 control individuals. The serum concentrations of 30 elements, PON1 paraoxonase and lactonase activities, and PON1 concentration were measured. We observed significant alterations in the levels of As, Ba, Cu, Ca, Fe, Mg, Na, Se, Sr, and Zn in obese women; some of them (As, Ca, Cr, Cu, Mg, and Se) being significantly correlated with serum PON1 values. The most relevant changes were observed in the concentrations of As, Sr and Mg, the last of which was also significantly associated with diabetes mellitus. The current results raise the possibility that increased ingestion and/or storage of a number of trace elements may be factors predisposing to obesity-related comorbidities and metabolic alterations., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

20. Serum Paraoxonase-1 Concentration as a Potential Predictor of Urinary Bladder Cancer Recurrence. A Five Year Follow-Up Study.

Author

Iftimie S, García-Heredia A, Pujol-Bosch F, Pont-Salvadó A, López-Azcona AF, Hernández-Aguilera A, Cabré N, Luciano-Mateo F, Fort-Gallifa I, Castro A, Camps J, and Joven J

Subjects

C-Reactive Protein analysis, Chemokines, C blood, Follow-Up Studies, Humans, Procalcitonin blood, ROC Curve, Sensitivity and Specificity, Aryldialkylphosphatase blood, Biomarkers, Tumor blood, Neoplasm Recurrence, Local blood, Neoplasm Recurrence, Local diagnosis, Urinary Bladder Neoplasms blood, Urinary Bladder Neoplasms diagnosis

Abstract

This study provides preliminary information on the usefulness of measuring serum paraoxonase-1 (PON1) concentration and activity (and other inflammatory markers) to predict tumor recurrence in patients with urinary bladder cancer. We studied a total of 39 hospitalized patients in whom the diagnosis of urinary bladder cancer was confirmed by transurethral resection. After five years of follow-up, 29 patients presented with tumor recurrence. As control subjects, we also studied 61 healthy subjects and a further 132 hospitalized patients who had a urinary catheter-related infection due to causes other than cancer. Results showed that urinary bladder patients had lower serum PON1 concentration and activity, and higher chemokine (C-C motif) ligand 2, C-reactive protein, and procalcitonin concentrations than the control individuals. Patients with tumor recurrence had significantly lower serum PON1 concentration than patients without tumor recurrence. The mean area under the curve of the receiver operating characteristics plot for serum PON1 concentration in discriminating patients with and those without tumor recurrence was 0.755 and the best combination of sensitivity and specificity was obtained at PON1 = 100 mg/L (0.72 and 0.80, respectively). Establishing this value as a cut-off, positive predictive value was = 0.91, and negative predictive value was = 0.50. These results suggest that the measurement of serum PON1 concentration may be a high-sensitivity marker of tumor recurrence in urinary bladder cancer patients., (Copyright © 2018 IMSS. Published by Elsevier Inc. All rights reserved.)

Published

2018

21. Effect of radiotherapy on activity and concentration of serum paraoxonase-1 in breast cancer patients.

Author

Arenas M, García-Heredia A, Cabré N, Luciano-Mateo F, Hernández-Aguilera A, Sabater S, Bonet M, Gascón M, Fernández-Arroyo S, Fort-Gallifa I, Camps J, and Joven J

Subjects

Adult, Aged, Aged, 80 and over, Aryldialkylphosphatase genetics, Breast Neoplasms enzymology, Breast Neoplasms surgery, Female, Gene Frequency, Genotype, Humans, Linear Models, Middle Aged, Neoplasm Metastasis, ROC Curve, Aryldialkylphosphatase blood, Breast Neoplasms blood, Breast Neoplasms radiotherapy

Abstract

Paraoxonase-1 (PON1) is an intra-cellular antioxidant enzyme found also in the circulation associated with high-density lipoproteins. The activity of this enzyme has been shown to be decreased in breast cancer (BC) patients. The aims of our study were to investigate the changes produced by radiotherapy (RT) on activity and concentration of serum PON1 in BC patients, and to evaluate the observed variations in relation to clinical and pathological characteristics of patients and tumors, and the response to treatment. We studied 200 women with BC who were scheduled to receive RT following excision of the tumor. Blood for analyses was obtained before and after the irradiation procedure. The control group was composed of 200 healthy women. Relative to control, BC patients had significantly lower serum PON1 activities pre-RT, while PON1 concentrations were at similar levels. RT was associated with a significant increase in serum PON1 activities and concentrations. We observed significant differences in serum PON1 concentrations post-RT between patients with luminal A or luminal B tumors. Serum PON1 concentration post-RT was markedly lower in BC patients with metastases. We conclude that benefit from RT accrues to the BC patients not only through its direct effect on cancer cells but also indirectly by improving the organism's anti-oxidant defense mechanisms. In addition, our preliminary evidence suggests that the measurement of serum PON1 concentration post-RT could be an efficient prognostic biomarker, and may be used as an index of the efficacy of the RT.

Published

2017

22. Metformin Potentiates the Benefits of Dietary Restraint: A Metabolomic Study.

Author

Riera-Borrull M, García-Heredia A, Fernández-Arroyo S, Hernández-Aguilera A, Cabré N, Cuyàs E, Luciano-Mateo F, Camps J, Menendez JA, and Joven J

Subjects

Adipose Tissue drug effects, Adipose Tissue metabolism, Animals, Blood Glucose, Glucose metabolism, Homeostasis, Hyperlipidemias blood, Hyperlipidemias metabolism, Liver drug effects, Liver metabolism, Male, Metabolome, Metabolomics, Mice, Mice, Knockout, Diet, Energy Metabolism drug effects, Metformin pharmacology

Abstract

Prevention of the metabolic consequences of a chronic energy-dense/high-fat diet (HFD) represents a public health priority. Metformin is a strong candidate to be incorporated in alternative therapeutic approaches. We used a targeted metabolomic approach to assess changes related to the multi-faceted metabolic disturbances provoked by HFD. We evaluated the protective effects of metformin and explored how pro-inflammatory and metabolic changes respond when mice rendered obese, glucose-intolerant and hyperlipidemic were switched to diet reversal with or without metformin. Mice treated with metformin and diet-reversal showed a dramatically improved protection against HFD-induced hepatic steatosis, a beneficial effect that was accompanied by a lowering of liver-infiltrating pro-inflammatory macrophages and lower release of pro-inflammatory cytokines. Metformin combined with diet reversal promoted effective weight loss along with better glucose control, lowered levels of circulating cholesterol and triglycerides, and reduced adipose tissue content. Our findings underscored the ability of metformin to target the contribution of branched chain amino acids to adipose tissue metabolism while suppressing mitochondrial-dependent biosynthesis in hepatic tissue. The relationship between adipose tissue and liver might provide clinical potential for combining metformin and dietary modifications to protect against the metabolic damage occurring upon excessive dietary fat intake., Competing Interests: The authors declare no conflict of interest.

Published

2017

23. Galectin-3 in Peripheral Artery Disease. Relationships with Markers of Oxidative Stress and Inflammation.

Author

Fort-Gallifa I, Hernández-Aguilera A, García-Heredia A, Cabré N, Luciano-Mateo F, Simó JM, Martín-Paredero V, Camps J, and Joven J

Subjects

Aged, Biomarkers blood, Biomarkers metabolism, Case-Control Studies, Endothelium, Vascular metabolism, Female, Femoral Artery metabolism, Galectin 3 blood, Humans, Inflammation blood, Male, Middle Aged, Peripheral Arterial Disease blood, Peripheral Arterial Disease pathology, Popliteal Artery metabolism, Galectin 3 metabolism, Oxidative Stress, Peripheral Arterial Disease metabolism

Abstract

Galectin-3 is a modulator of oxidative stress, inflammation, and fibrogenesis involved in the pathogenesis of vascular diseases. The present study sought to characterize, in patients with peripheral artery disease (PAD), the localization of galectin-3 in arterial tissue, and to analyze the relationships between the circulating levels of galectin-3 and oxidative stress and inflammation. It also sought to compare the diagnostic accuracy of galectin-3 with that of other biochemical markers of this disease. We analyzed femoral or popliteal arteries from 50 PAD patients, and four control arteries. Plasma from 86 patients was compared with that from 72 control subjects. We observed differences in the expression of galectin-3 in normal arteries, and arteries from patients with PAD, with a displacement of the expression from the adventitia to the media, and the intima. In addition, plasma galectin-3 concentration was increased in PAD patients, and correlated with serologic markers of oxidative stress (F2-isoprostanes), and inflammation [chemokine (C-C motif) ligand 2, C-reactive protein, β-2-microglobulin]. We conclude that the determination of galectin-3 has good diagnostic accuracy in the assessment of PAD and compares well with other analytical parameters currently in use.

Published

2017

24. Nutrients in Energy and One-Carbon Metabolism: Learning from Metformin Users.

Author

Luciano-Mateo F, Hernández-Aguilera A, Cabre N, Camps J, Fernández-Arroyo S, Lopez-Miranda J, Menendez JA, and Joven J

Subjects

Diet, Energy Metabolism, Humans, Mitochondria drug effects, Mitochondria metabolism, Carbon metabolism, Hypoglycemic Agents pharmacology, Metformin pharmacology

Abstract

Metabolic vulnerability is associated with age-related diseases and concomitant co-morbidities, which include obesity, diabetes, atherosclerosis and cancer. Most of the health problems we face today come from excessive intake of nutrients and drugs mimicking dietary effects and dietary restriction are the most successful manipulations targeting age-related pathways. Phenotypic heterogeneity and individual response to metabolic stressors are closely related food intake. Understanding the complexity of the relationship between dietary provision and metabolic consequences in the long term might provide clinical strategies to improve healthspan. New aspects of metformin activity provide a link to many of the overlapping factors, especially the way in which organismal bioenergetics remodel one-carbon metabolism. Metformin not only inhibits mitochondrial complex 1, modulating the metabolic response to nutrient intake, but also alters one-carbon metabolic pathways. Here, we discuss findings on the mechanism(s) of action of metformin with the potential for therapeutic interpretations.

Published

2017

25. Epigenetics and nutrition-related epidemics of metabolic diseases: Current perspectives and challenges.

Author

Hernández-Aguilera A, Fernández-Arroyo S, Cuyàs E, Luciano-Mateo F, Cabre N, Camps J, Lopez-Miranda J, Menendez JA, and Joven J

Subjects

Humans, Disease Susceptibility, Epigenesis, Genetic, Metabolic Diseases epidemiology, Metabolic Diseases genetics, Nutritional Physiological Phenomena physiology

Abstract

We live in a world fascinated by the relationship between disease and nutritional disequilibrium. The subtle and slow effects of chronic nutrient toxicity are a major public health concern. Since food is potentially important for the development of "metabolic memory", there is a need for more information on the type of nutrients causing adverse or toxic effects. We now know that metabolic alterations produced by excessive intake of some nutrients, drugs and chemicals directly impact epigenetic regulation. We envision that understanding how metabolic pathways are coordinated by environmental and genetic factors will provide novel insights for the treatment of metabolic diseases. New methods will enable the assembly and analysis of large sets of complex molecular and clinical data for understanding how inflammation and mitochondria affect bioenergetics, epigenetics and health. Collectively, the observations we highlight indicate that energy utilization and disease are intimately connected by epigenetics. The challenge is to incorporate metabolo-epigenetic data in better interpretations of disease, to expedite therapeutic targeting of key pathways linking nutritional toxicity and metabolism. An additional concern is that changes in the parental phenotype are detectable in the methylome of subsequent offspring. The effect might create a menace to future generations and preconceptional considerations., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

26. Metformin administration induces hepatotoxic effects in paraoxonase-1-deficient mice.

Author

García-Heredia A, Riera-Borrull M, Fort-Gallifa I, Luciano-Mateo F, Cabré N, Hernández-Aguilera A, Joven J, and Camps J

Subjects

Animals, Fatty Liver metabolism, Inflammation chemically induced, Inflammation metabolism, Lipid Peroxides metabolism, Liver metabolism, Male, Mice, Mice, Inbred C57BL, Oxidative Stress drug effects, Aryldialkylphosphatase deficiency, Fatty Liver chemically induced, Liver drug effects, Metformin administration & dosage, Metformin adverse effects

Abstract

Metformin is the first-line pharmacological treatment of diabetes. In these patients, metformin reduces body weight and decreases the risk of diabetes-related complications such as cardiovascular disease. However, whether metformin elicits beneficial effects on liver histology is a controversial issue and, as yet, there is no consensus. Paraoxonase-1 (PON1), an enzyme synthesized mainly by the liver, degrades lipid peroxides and reduces oxidative stress. PON1 activities are decreased in chronic liver diseases. We evaluated the effects of metformin in the liver of PON1-deficient mice which, untreated, present a mild degree of liver steatosis. Metformin administration aggravated inflammation in animals given a standard mouse chow and in those fed a high-fat diet. Also, it was associated with a higher degree of steatosis in animals fed a standard chow diet. This report is a cautionary note regarding the prescription of metformin for the treatment of diabetes in patients with concomitant liver impairment., (Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

27. Relationships Between Metformin, Paraoxonase-1 and the Chemokine (C-C Motif) Ligand 2.

Author

Camps J, Hernandez-Aguilera A, Garcia-Heredia A, Cabre N, Luciano-Mateo F, Arenas M, and Joven J

Subjects

Animals, Diabetes Mellitus, Type 2 drug therapy, Diabetes Mellitus, Type 2 physiopathology, Gene Expression Regulation drug effects, Glucose metabolism, Humans, Insulin metabolism, Insulin Resistance, Mice, Obesity drug therapy, Obesity physiopathology, Aryldialkylphosphatase metabolism, Chemokine CCL2 metabolism, Hypoglycemic Agents pharmacology, Metformin pharmacology

Abstract

Metformin is a biguanide used in the treatment of type 2 diabetes mellitus and obesity. The main mechanism of action is to decrease the intestinal glucose absorption and the hepatic glucose production, however, it does not influence insulin secretion. Metformin also increases the affinity of the insulin receptor, reduces high insulin levels and improves insulin resistance. Additionally, it promotes weight loss. Metformin is a pleiotropic compound but acts, largely, by activating 5 adenosine monophosphate (AMP)-activated protein kinase (AMPK). Data suggest that the therapeutic effects of this compound are mediated, at least in part, through an upregulation of paraoxonase-1 (PON1) synthesis. PON1 is a thiolactonase that degrades lipid peroxides, and downregulates the chemokine (C-C motif) ligand 2 (CCL2) which is a pro-inflammatory chemokine that stimulates the migration of monocytes to areas of inflammation where they differentiate into macrophages. However, the prescription of metformin in patients with liver disease is controversial since, in some cases, this drug causes worsening of liver function. Patients with chronic liver disease have decreased hepatic PON1 activity. A study in mice deficient in PON1 showed that in this experimental model, metformin administration increased the severity of steatosis, increased CCL2 expression, did not activate AMPK, and increased the expression of the apoptosis marker caspase-9. These results suggest that PON1 is essential for the successful activation of AMPK in the liver, and for metformin to demonstrate its therapeutic function.

Published

2016

28. Immunohistochemical analysis of paraoxonases and chemokines in arteries of patients with peripheral artery disease.

Author

Hernández-Aguilera A, Sepúlveda J, Rodríguez-Gallego E, Guirro M, García-Heredia A, Cabré N, Luciano-Mateo F, Fort-Gallifa I, Martín-Paredero V, Joven J, and Camps J

Subjects

Adult, Aged, Chemokine CCL2 metabolism, Female, Humans, Immunohistochemistry, Male, Middle Aged, Peripheral Arterial Disease metabolism, Smoking, Aryldialkylphosphatase metabolism, Chemokines metabolism, Peripheral Arterial Disease pathology

Abstract

Oxidative damage to lipids and lipoproteins is implicated in the development of atherosclerotic vascular diseases, including peripheral artery disease (PAD). The paraoxonases (PON) are a group of antioxidant enzymes, termed PON1, PON2, and PON3 that protect lipoproteins and cells from peroxidation and, as such, may be involved in protection against the atherosclerosis process. PON1 inhibits the production of chemokine (C-C motif) ligand 2 (CCL2) in endothelial cells incubated with oxidized lipoproteins. PON1 and CCL2 are ubiquitously distributed in tissues, and this suggests a joint localization and combined systemic effect. The aim of the present study has been to analyze the quantitative immunohistochemical localization of PON1, PON3, CCL2 and CCL2 receptors in a series of patients with severe PAD. Portions of femoral and/or popliteal arteries from 66 patients with PAD were obtained during surgical procedures for infra-inguinal limb revascularization. We used eight normal arteries from donors as controls. PON1 and PON3, CCL2 and the chemokine-binding protein 2, and Duffy antigen/chemokine receptor, were increased in PAD patients. There were no significant changes in C-C chemokine receptor type 2. Our findings suggest that paraoxonases and chemokines play an important role in the development and progression of atherosclerosis in peripheral artery disease.

Published

2015

29. Paraoxonases and chemokine (C-C motif) ligand-2 in noncommunicable diseases.

Author

Camps J, Rodríguez-Gallego E, García-Heredia A, Triguero I, Riera-Borrull M, Hernández-Aguilera A, Luciano-Mateo F, Fernández-Arroyo S, and Joven J

Subjects

Aryldialkylphosphatase analysis, Cell Movement, Endoplasmic Reticulum Stress, Humans, Inflammation complications, Lipid Peroxidation, Oxidative Stress, Aryldialkylphosphatase physiology, Chemokine CCL2 metabolism

Abstract

Oxidative stress and inflammation underpin most diseases; their mechanisms are inextricably linked. Chronic inflammation is associated with oxidation, anti-inflammatory cascades are linked to decreased oxidation, increased oxidative stress triggers inflammation, and redox balance inhibits the inflammatory cellular response. Whether or not oxidative stress and inflammation represent the cause or consequence of cellular pathology, they contribute significantly to the pathogenesis of noncommunicable diseases (NCD). The incidence of obesity and other related metabolic disturbances are increasing, as are age-related diseases due to a progressively aging population. Relationships between oxidative stress, inflammatory signaling, and metabolism are, in the broad sense of energy transformation, being increasingly recognized as part of the problem in NCD. In this chapter, we summarize the pathologic consequences of an imbalance between circulating and cellular paraoxonases, the system for scavenging excessive reactive oxygen species and circulating chemokines. They act as inducers of migration and infiltration of immune cells in target tissues as well as in the pathogenesis of disease that perturbs normal metabolic function. This disruption involves pathways controlling lipid and glucose homeostasis as well as metabolically driven chronic inflammatory states that encompass several response pathways. Dysfunction in the endoplasmic reticulum and/or mitochondria represents an important feature of chronic disease linked to oxidation and inflammation seen as self-reinforcing in NCD. Therefore, correct management requires a thorough understanding of these relationships and precise interpretation of laboratory test results.

Published

2014

30. Xenohormetic and anti-aging activity of secoiridoid polyphenols present in extra virgin olive oil: a new family of gerosuppressant agents.

Author

Menendez JA, Joven J, Aragonès G, Barrajón-Catalán E, Beltrán-Debón R, Borrás-Linares I, Camps J, Corominas-Faja B, Cufí S, Fernández-Arroyo S, Garcia-Heredia A, Hernández-Aguilera A, Herranz-López M, Jiménez-Sánchez C, López-Bonet E, Lozano-Sánchez J, Luciano-Mateo F, Martin-Castillo B, Martin-Paredero V, Pérez-Sánchez A, Oliveras-Ferraros C, Riera-Borrull M, Rodríguez-Gallego E, Quirantes-Piné R, Rull A, Tomás-Menor L, Vazquez-Martin A, Alonso-Villaverde C, Micol V, and Segura-Carretero A

Subjects

AMP-Activated Protein Kinase Kinases, Aging genetics, Animals, Cell Transformation, Neoplastic genetics, Diet, Mediterranean, Endoplasmic Reticulum Stress drug effects, Fibroblasts cytology, Fibroblasts drug effects, Fibroblasts metabolism, Hormesis, Humans, Iridoids isolation & purification, Longevity genetics, Olive Oil, Polyphenols isolation & purification, Protein Kinases genetics, Protein Kinases metabolism, Sirtuin 1 genetics, Sirtuin 1 metabolism, TOR Serine-Threonine Kinases genetics, TOR Serine-Threonine Kinases metabolism, Unfolded Protein Response drug effects, beta-Galactosidase genetics, beta-Galactosidase metabolism, Aging drug effects, Cell Transformation, Neoplastic drug effects, Gene Expression Regulation drug effects, Iridoids pharmacology, Longevity drug effects, Plant Oils chemistry, Polyphenols pharmacology

Abstract

Aging can be viewed as a quasi-programmed phenomenon driven by the overactivation of the nutrient-sensing mTOR gerogene. mTOR-driven aging can be triggered or accelerated by a decline or loss of responsiveness to activation of the energy-sensing protein AMPK, a critical gerosuppressor of mTOR. The occurrence of age-related diseases, therefore, reflects the synergistic interaction between our evolutionary path to sedentarism, which chronically increases a number of mTOR activating gero-promoters (e.g., food, growth factors, cytokines and insulin) and the "defective design" of central metabolic integrators such as mTOR and AMPK. Our laboratories at the Bioactive Food Component Platform in Spain have initiated a systematic approach to molecularly elucidate and clinically explore whether the "xenohormesis hypothesis," which states that stress-induced synthesis of plant polyphenols and many other phytochemicals provides an environmental chemical signature that upregulates stress-resistance pathways in plant consumers, can be explained in terms of the reactivity of the AMPK/mTOR-axis to so-called xenohormetins. Here, we explore the AMPK/mTOR-xenohormetic nature of complex polyphenols naturally present in extra virgin olive oil (EVOO), a pivotal component of the Mediterranean style diet that has been repeatedly associated with a reduction in age-related morbid conditions and longer life expectancy. Using crude EVOO phenolic extracts highly enriched in the secoiridoids oleuropein aglycon and decarboxymethyl oleuropein aglycon, we show for the first time that (1) the anticancer activity of EVOO secoiridoids is related to the activation of anti-aging/cellular stress-like gene signatures, including endoplasmic reticulum (ER) stress and the unfolded protein response, spermidine and polyamine metabolism, sirtuin-1 (SIRT1) and NRF2 signaling; (2) EVOO secoiridoids activate AMPK and suppress crucial genes involved in the Warburg effect and the self-renewal capacity of "immortal" cancer stem cells; (3) EVOO secoiridoids prevent age-related changes in the cell size, morphological heterogeneity, arrayed cell arrangement and senescence-associated β-galactosidase staining of normal diploid human fibroblasts at the end of their proliferative lifespans. EVOO secoiridoids, which provide an effective defense against plant attack by herbivores and pathogens, are bona fide xenohormetins that are able to activate the gerosuppressor AMPK and trigger numerous resveratrol-like anti-aging transcriptomic signatures. As such, EVOO secoiridoids constitute a new family of plant-produced gerosuppressant agents that molecularly "repair" the aimless (and harmful) AMPK/mTOR-driven quasi-program that leads to aging and aging-related diseases, including cancer.

Published

2013

31. Mitochondrial dysfunction: a basic mechanism in inflammation-related non-communicable diseases and therapeutic opportunities.

Author

Hernández-Aguilera A, Rull A, Rodríguez-Gallego E, Riera-Borrull M, Luciano-Mateo F, Camps J, Menéndez JA, and Joven J

Subjects

Adenosine Triphosphate metabolism, Animals, Humans, Mitochondria metabolism, Obesity complications, Obesity immunology, Smoking adverse effects, Inflammation physiopathology, Mitochondria pathology

Abstract

Obesity is not necessarily a predisposing factor for disease. It is the handling of fat and/or excessive energy intake that encompasses the linkage of inflammation, oxidation, and metabolism to the deleterious effects associated with the continuous excess of food ingestion. The roles of cytokines and insulin resistance in excessive energy intake have been studied extensively. Tobacco use and obesity accompanied by an unhealthy diet and physical inactivity are the main factors that underlie noncommunicable diseases. The implication is that the management of energy or food intake, which is the main role of mitochondria, is involved in the most common diseases. In this study, we highlight the importance of mitochondrial dysfunction in the mutual relationships between causative conditions. Mitochondria are highly dynamic organelles that fuse and divide in response to environmental stimuli, developmental status, and energy requirements. These organelles act to supply the cell with ATP and to synthesise key molecules in the processes of inflammation, oxidation, and metabolism. Therefore, energy sensors and management effectors are determinants in the course and development of diseases. Regulating mitochondrial function may require a multifaceted approach that includes drugs and plant-derived phenolic compounds with antioxidant and anti-inflammatory activities that improve mitochondrial biogenesis and act to modulate the AMPK/mTOR pathway.

Published

2013

32. Ubiquitous transgenic overexpression of C-C chemokine ligand 2: a model to assess the combined effect of high energy intake and continuous low-grade inflammation.

Author

Rodríguez-Gallego E, Riera-Borrull M, Hernández-Aguilera A, Mariné-Casadó R, Rull A, Beltrán-Debón R, Luciano-Mateo F, Menendez JA, Vazquez-Martin A, Sirvent JJ, Martín-Paredero V, Corbí AL, Sierra-Filardi E, Aragonès G, García-Heredia A, Camps J, Alonso-Villaverde C, and Joven J

Subjects

Adipocytes pathology, Animals, Autophagy, Body Weight, Chemokine CCL2 genetics, Cytokines genetics, Diet, High-Fat, Glucose metabolism, Lipid Metabolism, Macrophages immunology, Mice, Mice, Inbred C57BL, Mice, Transgenic, TOR Serine-Threonine Kinases physiology, Chemokine CCL2 physiology, Energy Intake, Inflammation etiology

Abstract

Excessive energy management leads to low-grade, chronic inflammation, which is a significant factor predicting noncommunicable diseases. In turn, inflammation, oxidation, and metabolism are associated with the course of these diseases; mitochondrial dysfunction seems to be at the crossroads of mutual relationships. The migration of immune cells during inflammation is governed by the interaction between chemokines and chemokine receptors. Chemokines, especially C-C-chemokine ligand 2 (CCL2), have a variety of additional functions that are involved in the maintenance of normal metabolism. It is our hypothesis that a ubiquitous and continuous secretion of CCL2 may represent an animal model of low-grade chronic inflammation that, in the presence of an energy surplus, could help to ascertain the afore-mentioned relationships and/or to search for specific therapeutic approaches. Here, we present preliminary data on a mouse model created by using targeted gene knock-in technology to integrate an additional copy of the CCl2 gene in the Gt(ROSA)26Sor locus of the mouse genome via homologous recombination in embryonic stem cells. Short-term dietary manipulations were assessed and the findings include metabolic disturbances, premature death, and the manipulation of macrophage plasticity and autophagy. These results raise a number of mechanistic questions for future study.

Published

2013