Your search keyword '"Manuel Portero-Otin"' showing total 226 results

1. LIPIDS ALTERATION IN TDP-43

Author

Irene García Toledo, Juan Miguel Godoy Corchuelo, Zeinab Ali, Jesús Jimenez-Rodriguez, Irene Jimenez-Coca, Anna Fernández-Bernal, Mariona Jové, Èlia Obis, Jorge Matias-Guiu, Thommas Cunningham, Manuel Portero-Otin, Reinald Pamplona, Estela Area-Gomez, and Silvia Corrochano

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

2. Dietary Advanced Glycation End Products: Their Role in the Insulin Resistance of Aging

Author

Manuel Portero-Otin, M. Pia de la Maza, and Jaime Uribarri

Subjects

insulin resistance, glycation, oxidative stress, inflammation, ultraprocessed foods, Cytology, QH573-671

Abstract

Insulin resistance (IR) is commonly observed during aging and is at the root of many of the chronic nontransmissible diseases experienced as people grow older. Many factors may play a role in causing IR, but diet is undoubtedly an important one. Whether it is total caloric intake or specific components of the diet, the factors responsible remain to be confirmed. Of the many dietary influences that may play a role in aging-related decreased insulin sensitivity, advanced glycation end products (AGEs) appear particularly important. Herein, we have reviewed in detail in vitro, animal, and human evidence linking dietary AGEs contributing to the bodily burden of AGEs with the development of IR. We conclude that numerous small clinical trials assessing the effect of dietary AGE intake in combination with strong evidence in many animal studies strongly suggest that reducing dietary AGE intake is associated with improved IR in a variety of disease conditions. Reducing AGE content of common foods by simple changes in culinary techniques is a feasible, safe, and easily applicable intervention in both health and disease. Large-scale clinical trials are still needed to provide broader evidence for the deleterious role of dietary AGEs in chronic disease.

Published

2023

3. Ether Lipid-Mediated Antioxidant Defense in Alzheimer’s Disease

Author

Mariona Jové, Natàlia Mota-Martorell, Èlia Obis, Joaquim Sol, Meritxell Martín-Garí, Isidre Ferrer, Manuel Portero-Otin, and Reinald Pamplona

Subjects

antioxidants, lipidomics, lipid oxidation, human brain, neurodegeneration, plasmalogens, Therapeutics. Pharmacology, RM1-950

Abstract

One of the richest tissues in lipid content and diversity of the human body is the brain. The human brain is constitutively highly vulnerable to oxidative stress. This oxidative stress is a determinant in brain aging, as well as in the onset and progression of sporadic (late-onset) Alzheimer’s disease (sAD). Glycerophospholipids are the main lipid category widely distributed in neural cell membranes, with a very significant presence for the ether lipid subclass. Ether lipids have played a key role in the evolution of the human brain compositional specificity and functionality. Ether lipids determine the neural membrane structural and functional properties, membrane trafficking, cell signaling and antioxidant defense mechanisms. Here, we explore the idea that ether lipids actively participate in the pathogenesis of sAD. Firstly, we evaluate the quantitative relevance of ether lipids in the human brain composition, as well as their role in the human brain evolution. Then, we analyze the implications of ether lipids in neural cell physiology, highlighting their inherent antioxidant properties. Finally, we discuss changes in ether lipid content associated with sAD and their physiopathological implications, and propose a mechanism that, as a vicious cycle, explains the potential significance of ether lipids in sAD.

Published

2023

4. Gut bacterial ClpB-like gene function is associated with decreased body weight and a characteristic microbiota profile

Author

María Arnoriaga-Rodríguez, Jordi Mayneris-Perxachs, Aurelijus Burokas, Vicente Pérez-Brocal, Andrés Moya, Manuel Portero-Otin, Wifredo Ricart, Rafael Maldonado, and José-Manuel Fernández-Real

Subjects

Microbiome, Bacterial gene function, Body weight regulation, Obesity, Microbial ecology, QR100-130

Abstract

Abstract Background The chaperone ClpB, a bacterial protein, is a conformational antigen-mimetic of α-melanocyte-stimulating hormone (α-MSH) implicated in body weight regulation in mice. We here investigated the potential associations of gut bacterial ClpB-like gene function with obesity status and gut microbiota in humans. Results Gut microbiota ClpB KEGG function was negatively associated with body mass index, waist circumference, and total fat mass (DEXA). The relative abundance (RA) of several phyla and families directly associated with ClpB was decreased in subjects with obesity. Specifically, the RA of Rikenellaceae, Clostridiaceae and not assigned Firmicutes were lower in subjects with obesity and positively associated with gut bacterial ClpB-like gene function (not assigned Firmicutes (r = 0.405, FDR = 2.93 × 10−2), Rikenellaceae (r = 0.217, FDR = 0.031), and Clostridiaceae (r = 0.239, FDR = 0.017)). The gut bacterial ClpB-like gene function was also linked to specific plasma metabolites (hippuric acid and 3-indolepropionic acid) and fecal lupeol. The α-MSH-like epitope similar to that of Escherichia coli ClpB was also identified in some sequences of those bacterial families. After fecal transplantation from humans to mice, the families that more contributed to ClpB-like gene function in humans were also associated with ClpB-like gene function in mice after adjusting for the donor’s body mass index (not assigned Firmicutes (r = 0.621, p = 0.003), Prevotellaceae (r = 0.725, p = 4.1 × 10−7), Rikenellaceae (r = 0.702, p = 3.9 × 10−4), and Ruminococcaceae (r = 0.526, p = 0.014)). Clostridiaceae (r = − 0.445, p = 0.038) and Prevotellaceae RA (r = − 0.479, p = 0.024) and were also negatively associated with weight gain in mice. The absolute abundance (AA) of Prevotellaceae in mice was also positively associated with the gut bacterial ClpB-like gene function in mice. DESeq2 identified species of Prevotellaceae, both negatively associated with mice’ weight gain and positively with gut bacterial ClpB-like gene function. Conclusions In summary, gut bacterial ClpB-like gene function is associated with obesity status, a specific gut microbiota composition and a plasma metabolomics profile in humans that could be partially transplanted to mice. Video Abstract

Published

2020

5. A prospective pilot study using metabolomics discloses specific fatty acid, catecholamine and tryptophan metabolic pathways as possible predictors for a negative outcome after severe trauma

Author

Luis Servià, Mariona Jové, Joaquim Sol, Reinald Pamplona, Mariona Badia, Neus Montserrat, Manuel Portero-Otin, and Javier Trujillano

Subjects

Metabolome, Mortality, Traumatic brain injury, Biomarker, Multiple traumatism, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background We wanted to define metabolomic patterns in plasma to predict a negative outcome in severe trauma patients. Methods A prospective pilot study was designed to evaluate plasma metabolomic patterns, established by liquid chromatography coupled to mass spectrometry, in patients allocated to an intensive care unit (in the University Hospital Arnau de Vilanova, Lleida, Spain) in the first hours after a severe trauma (n = 48). Univariate and multivariate statistics were employed to establish potential predictors of mortality. Results Plasma of patients non surviving to trauma (n = 5) exhibited a discriminating metabolomic pattern, involving basically metabolites belonging to fatty acid and catecholamine synthesis as well as tryptophan degradation pathways. Thus, concentration of several metabolites exhibited an area under the receiver operating curve (ROC) higher than 0.84, including 3-indolelactic acid, hydroxyisovaleric acid, phenylethanolamine, cortisol, epinephrine and myristic acid. Multivariate binary regression logistic revealed that patients with higher myristic acid concentrations had a non-survival odds ratio of 2.1 (CI 95% 1.1–3.9). Conclusions Specific fatty acids, catecholamine synthesis and tryptophan degradation pathways could be implicated in a negative outcome after trauma. The metabolomic study of severe trauma patients could be helpful for biomarker proposal.

Published

2019

6. Adipose TSHB in Humans and Serum TSH in Hypothyroid Rats Inform About Cellular Senescence

Author

José María Moreno-Navarrete, Laura Liñares-Pose, Mònica Sabater, Eva Rial-Pensado, Ferran Comas, Mariona Jové, Jèssica Latorre, Francisco Ortega, Wifredo Ricart, Manuel Portero-Otin, Miguel López, and José Manuel Fernández-Real

Subjects

Thyroid-stimulating hormone, Euthyroidism, Hypothyroidism, Adipose tissue, Cellular senescence, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Thyroid hormones have been recently linked to senescence and longevity. Given the recent description of TSHB mRNA in human adipose tissue (AT), we aimed to investigate the relationship between local AT TSH and adipose tissue senescence. Methods: TSHB mRNA (measured by real-time PCR) and markers of adipose tissue senescence [BAX, DBC1, TP53, TNF (real-time PCR), telomere length (Telo TAGGG Telomere Length Assay) and lipidomics (liquid chromatography mass spectrometry)] were analysed in subcutaneous (SAT) and visceral (VAT) AT from euthyroid subjects. The chronic effects of TSH were also investigated in AT from hypothyroid rats and after recombinant human TSH (rhTSH) administration in human adipocytes. Results: Both VAT and SAT TSHB gene expression negatively correlated with markers of AT cellular senescence (BAX, DBC1, TP53, TNF gene expression and specific glucosylceramides) and positively associated with telomere length. Supporting these observations, both rhTSH administration in human adipocytes and increased TSH in hypothyroid rats resulted in decreased markers of cellular senescence (Bax and Tp53 mRNA) in both gonadal and subcutaneous white adipose tissue. Conclusion: These data point to a possible role of TSH in AT cellular senescence.

Published

2018

7. REMOTE Ischemic Perconditioning Among Acute Ischemic Stroke Patients in Catalonia: REMOTE-CAT PROJECT

Author

Francisco Purroy, Gloria Arque, Gerard Mauri, Cristina García-Vázquez, Mikel Vicente-Pascual, Cristina Pereira, Daniel Vazquez-Justes, Coral Torres-Querol, Ana Vena, Sònia Abilleira, Pere Cardona, Carles Forné, Xavier Jiménez-Fàbrega, Jorge Pagola, Manuel Portero-Otin, Ana Rodríguez-Campello, Àlex Rovira, and Joan Martí-Fàbregas

Subjects

ischemic stroke, remote ischemic perconditioning (rPerC), neuroprotection, infarct size (IS), metabolomics (OMICS), Neurology. Diseases of the nervous system, RC346-429

Abstract

Rationale: Remote ischemic perconditioning during cerebral ischemia (RIPerC) refers to the application of brief episodes of transient limb ischemia commonly to a limb, it represents a new safe, simple and low-cost paradigm in neuroprotection.Aim and/or Hypothesis: To evaluate the effects of RIPerC on acute ischemic stroke (AIS) patients, applied in the ambulance, to improve functional outcomes compared with standard of care.Sample Size Estimates: A sample size of 286 patients in each arm achieves 80% power to detect treatment differences of 14% in the outcome, using a two-sided binomial test at significance level of 0.05, assuming that 40% of the control patients will experience good outcome and an initial misdiagnosis rate of 29%.Methods and Design: We aim to conduct a multicentre study of pre-hospital RIPerC application in AIS patients. A total of 572 adult patients diagnosed of suspected clinical stroke within 8 h of symptom onset and clinical deficit >0 according to prehospital rapid arterial occlusion evaluation (RACE) scale score will be randomized, in blocks of size 4, to RIPerC or sham. Patients will be stratified by RACE score scale. RIPerC will be started in the ambulance before hospital admission and continued in the hospital if necessary. It will consist of five cycles of electronic tourniquet inflation and deflation (5 min each). The cuff pressure for RIPerC will be 200 mmHg during inflation. Sham will only simulate vibration of the device.Study Outcome(s): The primary outcome will be the difference in the proportion of patients with good outcomes as defined by a mRS score of 2 or less at 90 days. Secondary outcomes to be monitored will include early neurological improvement rate, treatment related serious adverse event rates, size of the infarct volume, symptomatic intracranial hemorrhage, metabolomic and lipidomic response to RIPerC and Neuropsychological evaluation at 90 days.Discussion: Neuroprotective therapies could not only increase the benefits of available reperfusion therapies among AIS patients but also provide an option for patients who are not candidates for these treatments. REMOTE-CAT will investigate the clinical benefit of RIC as a new neuroprotective strategy in AIS.Clinical Trial Registration:www.ClinicalTrials.gov, identifier: NCT03375762.

Published

2020

8. Lipidomic profiling identifies signatures of metabolic risk

Author

Xiaoyan Yin, Christine M. Willinger, Joshua Keefe, Jun Liu, Antonio Fernández-Ortiz, Borja Ibáñez, José Peñalvo, Aram Adourian, George Chen, Dolores Corella, Reinald Pamplona, Manuel Portero-Otin, Mariona Jove, Paul Courchesne, Cornelia M. van Duijn, Valentín Fuster, José M. Ordovás, Ayşe Demirkan, Martin G. Larson, and Daniel Levy

Subjects

Medicine, Medicine (General), R5-920

Abstract

Background: Metabolic syndrome (MetS), the clustering of metabolic risk factors, is associated with cardiovascular disease risk. We sought to determine if dysregulation of the lipidome may contribute to metabolic risk factors. Methods: We measured 154 circulating lipid species in 658 participants from the Framingham Heart Study (FHS) using liquid chromatography-tandem mass spectrometry and tested for associations with obesity, dysglycemia, and dyslipidemia. Independent external validation was sought in three independent cohorts. Follow-up data from the FHS were used to test for lipid metabolites associated with longitudinal changes in metabolic risk factors. Results: Thirty-nine lipids were associated with obesity and eight with dysglycemia in the FHS. Of 32 lipids that were available for replication for obesity and six for dyslipidemia, 28 (88%) replicated for obesity and five (83%) for dysglycemia. Four lipids were associated with longitudinal changes in body mass index and four were associated with changes in fasting blood glucose in the FHS. Conclusions: We identified and replicated several novel lipid biomarkers of key metabolic traits. The lipid moieties identified in this study are involved in biological pathways of metabolic risk and can be explored for prognostic and therapeutic utility. Keywords: Metabolic risk, Metabolic syndrome, Cardiovascular disease, Dysglycemia, Dyslipidemia, Biomarker

Published

2020

9. Cell Stress Induces Mislocalization of Transcription Factors with Mitochondrial Enrichment

Author

Chiara Rossi, Anna Fernàndez, Pascual Torres, Omar Ramirez-Nuñez, Ana Belén Granado-Serrano, Laia Fontdevila, Mònica Povedano, Reinald Pamplona, Isidro Ferrer, and Manuel Portero-Otin

Subjects

TDP-43, Jun, REST, ERK, mitochondria, cell stress, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Previous evidence links the formation of extranuclear inclusions of transcription factors, such as ERK, Jun, TDP-43, and REST, with oxidative, endoplasmic-reticulum, proteasomal, and osmotic stress. To further characterize its extranuclear location, we performed a high-content screening based on confocal microscopy and automatized image analyses of an epithelial cell culture treated with hydrogen peroxide, thapsigargin, epoxomicin, or sorbitol at different concentrations and times to recreate the stresses mentioned above. We also performed a subcellular fractionation of the brain from transgenic mice overexpressing the Q331K-mutated TARDBP, and we analyzed the REST-regulated mRNAs. The results show that these nuclear proteins exhibit a mitochondrial location, together with significant nuclear/extranuclear ratio changes, in a protein and stress-specific manner. The presence of these proteins in enriched mitochondrial fractions in vivo confirmed the results of the image analyses. TDP-43 aggregation was associated with alterations in the mRNA levels of the REST target genes involved in calcium homeostasis, apoptosis, and metabolism. In conclusion, cell stress increased the mitochondrial translocation of nuclear proteins, increasing the chance of proteostasis alterations. Furthermore, TDP-43 aggregation impacts REST target genes, disclosing an exciting interaction between these two transcription factors in neurodegenerative processes.

Published

2021

10. Dietary AGEs as Exogenous Boosters of Inflammation

Author

Ma. Eugenia Garay-Sevilla, Armando Rojas, Manuel Portero-Otin, and Jaime Uribarri

Subjects

low-grade inflammation, inflammatory diet, low AGE diet, Mediterranean diet, DASH diet, dietary inflammatory index (DII), Nutrition. Foods and food supply, TX341-641

Abstract

Most chronic modern non-transmissible diseases seem to begin as the result of low-grade inflammation extending over prolonged periods of time. The importance of diet as a source of many pro-inflammatory compounds that could create and sustain such a low-grade inflammatory state cannot be ignored, particularly since we are constantly exposed to them during the day. The focus of this review is on specific components of the diet associated with inflammation, specifically advanced glycation end products (AGEs) that form during thermal processing of food. AGEs are also generated in the body in normal physiology and are widely recognized as increased in diabetes, but many people are unaware of the potential importance of exogenous AGEs ingested in food. We review experimental models, epidemiologic data, and small clinical trials that suggest an important association between dietary intake of these compounds and development of an inflammatory and pro-oxidative state that is conducive to chronic diseases. We compare dietary intake of AGEs with other widely known dietary patterns, such as the Mediterranean and the Dietary Approaches to Stop Hypertension (DASH) diets, as well as the Dietary Inflammation Index (DII). Finally, we delineate in detail the pathophysiological mechanisms induced by dietary AGEs, both direct (i.e., non-receptor-mediated) and indirect (receptor-mediated).

Published

2021

11. The Causal Role of Lipoxidative Damage in Mitochondrial Bioenergetic Dysfunction Linked to Alzheimer’s Disease Pathology

Author

Mariona Jové, Natàlia Mota-Martorell, Pascual Torres, Victoria Ayala, Manuel Portero-Otin, Isidro Ferrer, and Reinald Pamplona

Subjects

aging, ATP synthase, energy metabolism, entorhinal cortex, lipoxidation-derived damage, mitochondrial dysfunction, Science

Abstract

Current shreds of evidence point to the entorhinal cortex (EC) as the origin of the Alzheimer’s disease (AD) pathology in the cerebrum. Compared with other cortical areas, the neurons from this brain region possess an inherent selective vulnerability derived from particular oxidative stress conditions that favor increased mitochondrial molecular damage with early bioenergetic involvement. This alteration of energy metabolism is the starting point for subsequent changes in a multitude of cell mechanisms, leading to neuronal dysfunction and, ultimately, cell death. These events are induced by changes that come with age, creating the substrate for the alteration of several neuronal pathways that will evolve toward neurodegeneration and, consequently, the development of AD pathology. In this context, the present review will focus on description of the biological mechanisms that confer vulnerability specifically to neurons of the entorhinal cortex, the changes induced by the aging process in this brain region, and the alterations at the mitochondrial level as the earliest mechanism for the development of AD pathology. Current findings allow us to propose the existence of an altered allostatic mechanism at the entorhinal cortex whose core is made up of mitochondrial oxidative stress, lipid metabolism, and energy production, and which, in a positive loop, evolves to neurodegeneration, laying the basis for the onset and progression of AD pathology.

Published

2021

12. Impairment of Mitochondrial Redox Status in Peripheral Lymphocytes of Multiple Sclerosis Patients

Author

Hugo Gonzalo, Lara Nogueras, Anna Gil-Sánchez, José Vicente Hervás, Petya Valcheva, Cristina González-Mingot, Meritxell Martin-Gari, Marc Canudes, Silvia Peralta, Maria José Solana, Reinald Pamplona, Manuel Portero-Otin, Jordi Boada, Jose Carlos Enrique Serrano, and Luis Brieva

Subjects

multiple sclerosis, oxidative stress, mitochondria, superoxide anion, mitochondrial complexes, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Literature suggests that oxidative stress (OS) may be involved in the pathogenesis of multiple sclerosis (MS), in which the immune system is known to play a key role. However, to date, the OS in peripheral lymphocytes and its contribution to the disease remain unknown. The aim of the present study was to explore the influence of OS in peripheral lymphocytes of MS patients. To that end, a cross-sectional, observational pilot study was conducted [n = 58: 34 MS and 24 healthy subjects (control group)]. We have measured superoxide production and protein mitochondrial complex levels in peripheral blood mononuclear cells (PBMCs) isolated from MS patients and control. Lactate levels and the antioxidant capacity were determined in plasma. We adjusted the comparisons between study groups by age, sex and cell count according to case. Results demonstrated that PBMCs, specifically T cells, from MS patients exhibited significantly increased superoxide anion production compared to control group (p = 0.027 and p = 0.041, respectively). Increased superoxide production in PBMCs was maintained after the adjustment (p = 0.044). Regarding mitochondrial proteins, we observe a significant decrease in the representative protein content of the mitochondrial respiratory chain complexes I-V in PBMCs of MS patients (p = 0.002, p = 0.037, p = 0.03, p = 0.044, and p = 0.051, respectively), which was maintained for complexes I, III, and V after the adjustment (p = 0.026; p = 0.033; p = 0.033, respectively). In MS patients, a trend toward increased plasma lactate concentration was detected [8.04 mg lactate/dL (5.25, 9.49) in the control group, 11.36 mg lactate/dL (5.41, 14.81) in MS patients] that was statistically significant after the adjustment (p = 0.013). This might be indicative of compromised mitochondrial function. Finally, antioxidant capacity was also decreased in plasma from MS patients, both before (p = 0.027) and after adjusting for sex and age (p = 0.006). Our findings demonstrate that PBMCs of MS patients show impaired mitochondrial redox status and deficient antioxidant capacity. These results demonstrate for the first time the existence of mitochondrial alterations in the cells immune cells of MS patients already at the peripheral level.

Published

2019

13. Location-dependent effects of trauma on oxidative stress in humans.

Author

Luis Servia, José C E Serrano, Reinald Pamplona, Mariona Badia, Neus Montserrat, Manuel Portero-Otin, and Javier Trujillano

Subjects

Medicine, Science

Abstract

Though circulating antioxidant capacity in plasma is homeostatically regulated, it is not known whether acute stressors (i.e. trauma) affecting different anatomical locations could have quantitatively different impacts. For this reason, we evaluated the relationship between the anatomical location of trauma and plasma total antioxidant capacity (TAC) in a prospective study, where the anatomical locations of trauma in polytraumatic patients (n = 66) were categorized as primary affecting the brain -traumatic brain injury (TBI)-, thorax, abdomen and pelvis or extremities. We measured the following: plasma TAC by 2 independent methods, the contribution of selected antioxidant molecules (uric acid, bilirubin and albumin) to these values and changes after 1 week of progression. Surprisingly, TBI lowered TAC (919 ± 335 μM Trolox equivalents (TE)) in comparison with other groups (thoracic trauma 1187 ± 270 μM TE; extremities 1025 ± 276 μM TE; p = 0.004). The latter 2 presented higher hypoxia (PaO2/FiO2 272 ± 87 mmHg) and hemodynamic instability (inotrope use required in 54.5%) as well. Temporal changes in TAC are also dependent on anatomical location, as thoracic and extremity trauma patients' TAC values decreased (1187 ± 270 to 1045 ± 263 μM TE; 1025 ± 276 to 918 ± 331 μM TE) after 1 week (p < 0.01), while in TBI these values increased (919 ± 335 to 961 ± 465 μM TE). Our results show that the response of plasma antioxidant capacity in trauma patients is strongly dependent on time after trauma and location, with TBI failing to induce such a response.

Published

2018

14. Differential metabolic profiles associated to movement behaviour of stream-resident brown trout (Salmo trutta).

Author

Neus Oromi, Mariona Jové, Mariona Pascual-Pons, Jose Luis Royo, Rafel Rocaspana, Enric Aparicio, Reinald Pamplona, Antoni Palau, Delfi Sanuy, Joan Fibla, and Manuel Portero-Otin

Subjects

Medicine, Science

Abstract

The mechanisms that can contribute in the fish movement strategies and the associated behaviour can be complex and related to the physiology, genetic and ecology of each species. In the case of the brown trout (Salmo trutta), in recent research works, individual differences in mobility have been observed in a population living in a high mountain river reach (Pyrenees, NE Spain). The population is mostly sedentary but a small percentage of individuals exhibit a mobile behavior, mainly upstream movements. Metabolomics can reflect changes in the physiological process and can determine different profiles depending on behaviour. Here, a non-targeted metabolomics approach was used to find possible changes in the blood metabolomic profile of S. trutta related to its movement behaviour, using a minimally invasive sampling. Results showed a differentiation in the metabolomic profiles of the trouts and different level concentrations of some metabolites (e.g. cortisol) according to the home range classification (pattern of movements: sedentary or mobile). The change in metabolomic profiles can generally occur during the upstream movement and probably reflects the changes in metabolite profile from the non-mobile season to mobile season. This study reveals the contribution of the metabolomic analyses to better understand the behaviour of organisms.

Published

2017

15. A salmon peptide diet alleviates experimental colitis as compared with fish oil

Author

Tore Grimstad, Bodil Bjørndal, Daniel Cacabelos, Ole G. Aasprong, Roald Omdal, Asbjørn Svardal, Pavol Bohov, Reinald Pamplona, Manuel Portero-Otin, Rolf K. Berge, and Trygve Hausken

Subjects

Colitis, Diet therapy, Inflammatory bowel diseases, n-3 Fatty acids, Nutrition. Foods and food supply, TX341-641, Medicine

Abstract

Fish oil (FO) has been shown to have anti-inflammatory properties in animal models of inflammatory bowel disease, but how fish peptides (FP) influence intestinal inflammation has been less studied. Male Wistar rats, divided into five groups, were included in a 4-week dietary intervention study. Of the groups, four were exposed in the fourth week to 5 % dextran sulfate sodium (DSS) to induce colitis, while one group was unexposed. The diets were: (1) control, (2) control + DSS, (3) FO (5 %) + DSS, (4) FP (3·5 %) + DSS, (5) FO + FP + DSS. Following DSS intake, weight and disease activity index (DAI) were assessed, and histological combined score (HCS), selected colonic PG, cytokines, oxidative damage markers and mRNA levels were measured. FP reduced HCS, tended to lower DAI (P = 0·07) and reduced keratinocyte chemoattractant/growth-regulated oncogene levels, as compared with the FO diet. FP also reduced mRNA levels of Il-6 and Cxcl1, although not significantly. FO intake increased the DAI as compared with DSS alone. PGE3 levels increased after the FO diet, and even more following FO + FP intake. The FP diet seems to have a protective effect in DSS-induced colitis as compared with FO. A number of beneficial, but non-significant, changes also occurred after FP v. DSS. A combined FO + FP diet may influence PG synthesis, as PGE3 levels were higher after the combined diet than after FO alone.

Published

2013

16. Plant-derived phenolics inhibit the accrual of structurally characterised protein and lipid oxidative modifications.

Author

Arantza Soler-Cantero, Mariona Jové, Daniel Cacabelos, Jordi Boada, Alba Naudí, Maria-Paz Romero, Anna Cassanyé, José C E Serrano, Lluis Arola, Josep Valls, Maria Josep Bellmunt, Joan Prat, Reinald Pamplona, Manuel Portero-Otin, and Maria-José Motilva

Subjects

Medicine, Science

Abstract

Epidemiological data suggest that plant-derived phenolics beneficial effects include an inhibition of LDL oxidation. After applying a screening method based on 2,4-dinitrophenyl hydrazine-protein carbonyl reaction to 21 different plant-derived phenolic acids, we selected the most antioxidant ones. Their effect was assessed in 5 different oxidation systems, as well as in other model proteins. Mass-spectrometry was then used, evidencing a heterogeneous effect on the accumulation of the structurally characterized protein carbonyl glutamic and aminoadipic semialdehydes as well as for malondialdehyde-lysine in LDL apoprotein. After TOF based lipidomics, we identified the most abundant differential lipids in Cu(++)-incubated LDL as 1-palmitoyllysophosphatidylcholine and 1-stearoyl-sn-glycero-3-phosphocholine. Most of selected phenolic compounds prevented the accumulation of those phospholipids and the cellular impairment induced by oxidized LDL. Finally, to validate these effects in vivo, we evaluated the effect of the intake of a phenolic-enriched extract in plasma protein and lipid modifications in a well-established model of atherosclerosis (diet-induced hypercholesterolemia in hamsters). This showed that a dietary supplement with a phenolic-enriched extract diminished plasma protein oxidative and lipid damage. Globally, these data show structural basis of antioxidant properties of plant-derived phenolic acids in protein oxidation that may be relevant for the health-promoting effects of its dietary intake.

Published

2012

17. Plasma acylcarnitines and gut-derived aromatic amino acids as sex-specific hub metabolites of the human aging metabolome

Author

Joaquim Sol, Èlia Obis, Natalia Mota‐Martorell, Irene Pradas, Jose Daniel Galo‐Licona, Meritxell Martin‐Garí, Anna Fernández‐Bernal, Marta Ortega‐Bravo, Jordi Mayneris‐Perxachs, Consuelo Borrás, José Viña, Mónica de la Fuente, Ianire Mate, Carles Biarnes, Salvador Pedraza, Joan C. Vilanova, Ramon Brugada, Rafel Ramos, Joaquin Serena, Lluís Ramió‐Torrentà, Víctor Pineda, Pepus Daunis‐I‐Estadella, Santiago Thió‐Henestrosa, Jordi Barretina, Josep Garre‐Olmo, Manuel Portero‐Otin, José Manuel Fernández‐Real, Josep Puig, Mariona Jové, and Reinald Pamplona

Subjects

Aging, Sex/gender perspective, Metabolomics, Cell Biology, Bioenergetics, Liquid chromatography-mass spectrometry, Aromatic amino acids

Abstract

Aging biology entails a cell/tissue deregulated metabolism that affects all levels of biological organization. Therefore, the application of “omic” techniques that are closer to phenotype, such as metabolomics, to the study of the aging process should be a turning point in the definition of cellular processes involved. The main objective of the present study was to describe the changes in plasma metabolome associated with biological aging and the role of sex in the metabolic regulation during aging. A high-throughput untargeted metabolomic analysis was applied in plasma samples to detect hub metabolites and biomarkers of aging incorporating a sex/gender perspective. A cohort of 1030 healthy human adults (45.9% females, and 54.1% males) from 50 to 98 years of age was used. Results were validated using two independent cohorts (1: n = 146, 53% females, 30–100 years old; 2: n = 68, 70% females, 19–107 years old). Metabolites related to lipid and aromatic amino acid (AAA) metabolisms arose as the main metabolic pathways affected by age, with a high influence of sex. Globally, we describe changes in bioenergetic pathways that point to a decrease in mitochondrial β-oxidation and an accumulation of unsaturated fatty acids and acylcarnitines that could be responsible for the increment of oxidative damage and inflammation characteristic of this physiological process. Furthermore, we describe for the first time the importance of gut-derived AAA catabolites in the aging process describing novel biomarkers that could contribute to better understand this physiological process but also age-related diseases. This research was funded by the Spanish Ministry of Science,Innovation, and Universities (grant RTI2018-099200-B- I00, and PID2022-143140OB-I00, co-funded by the European Regional Development Fund. “A way to build Europe”), and the Generalitat of Catalonia (Agency for Management of University and Research Grants [2021SGR00990] and Department of Health [SLT002/16/00250])to R.P. The work is also supported by “la Caixa” Foundation (Grant Agreement LCF/PR/HR21/52410002) to M.J. IRBLleida is a CERCAProgramme/Generalitat of Catalonia. This work was also partiallysupported by Instituto de Salud Carlos III (Madrid, Spain) through the research grants PI15/01934, PI18/01022, PI20/01090, and PI21/01361 (co-funded by the European Regional Development Fund. “A way to make Europe”), and the Catalan Government (AGAUR,#SGR2017-0734, ICREA Academia Award 2021) to J.M.F-R.

Published

2023

18. Hakuna MAM-Tata: Investigating the role of mitochondrial-associated membranes in ALS

Author

Anna Fernàndez Bernal, Natàlia Mota, Reinald Pamplona, Estela Area-Gomez, Manuel Portero-Otin, Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación (España), Generalitat de Catalunya, Fundela, RedELA Investigación, Fundació Miquel Valls, European Commission, Fernández Bernal, Anna, Pamplona, Reinald, Area-Gomez, Estela, and Portero-Otín, Manuel

Subjects

TDP-43, Calcium metabolism, Molecular Medicine, Lipid synthesis, Neurodegeneration, Molecular Biology, Mitochondria

Abstract

10 p.-7 fig., Amyotrophic lateral sclerosis (ALS) is a devastating neurodegenerative disease leading to selective and progressive motor neuron (MN) death. Despite significant heterogeneity in pathogenic and clinical terms, MN demise ultimately unifies patients. Across the many disturbances in neuronal biology present in the disease and its models, two common trends are loss of calcium homeostasis and dysregulations in lipid metabolism. Since both mitochondria and endoplasmic reticulum (ER) are essential in these functions, their intertwin through the so-called mitochondrial-associated membranes (MAMs) should be relevant in this disease. In this review, we present a short overview of MAMs functional aspects and how its dysfunction could explain a substantial part of the cellular disarrangements in ALS's natural history. MAMs are hubs for lipid synthesis, integrating glycerophospholipids, sphingolipids, and cholesteryl ester metabolism. These lipids are essential for membrane biology, so there should be a close coupling to cellular energy demands, a role that MAMs may partially fulfill. Not surprisingly, MAMs are also host part of calcium signaling to mitochondria, so their impairment could lead to mitochondrial dysfunction, affecting oxidative phosphorylation and enhancing the vulnerability of MNs. We present data supporting that MAMs' maladaptation could be essential to MNs' vulnerability in ALS., Grants were received from the Instituto de Salud Carlos III (PI 17-000134, PI 20-0155) to MPO, from the Ministerio de Ciencia e Innovación (PID2021-126818NB-I00) and Project ALS to EAG, and from the Generalitat de Catalunya 2017SGR696 to RP. Support was also received in the form of a FUNDELA Grant, RedELA-Plataforma Investigación and the Fundació Miquel Valls (Jack Van den Hoek donation).FEDER funds are acknowledged (“A way to make Europe”). These funding bodies had no roles in the design of the study and collection,analysis, and interpretation of data and in writing the manuscript.

Published

2023

19. Human Atheromatous Plaques Expressed Sensing Adaptor STING, a Potential Role in Vascular Inflammation Pathogenesis

Author

Judith Pallarés, Núria Torreguitart, Gloria Arqué, Manuel Portero-Otin, and Francisco Purroy

Subjects

Inflammation, Humans, Membrane Proteins, Hematology, Plaque, Atherosclerotic, eye diseases

Published

2022

20. Lipidomic alterations in the cerebral cortex and white matter in sporadic Alzheimer’s disease

Author

Elia Obis, Joaquim Sol, Pol Andres-Benito, Meritxell Martín-Gari, Natàlia Mota-Martorell, José Daniel Galo-Licona, Gerard Piñol-Ripoll, Manuel Portero-Otin, Isidro Ferrer, Mariona Jové, and Reinald Pamplona

Abstract

AimsNon-targeted lipidomics analysis was conducted in post-mortem human frontal cortex area 8 (GM) and white matter of the frontal lobecentrum semi-ovale(WM) to identify lipidomes in middle-aged individuals with no neurofibrillary tangles and senile plaques, and cases at progressive stages of sporadic Alzheimer’s disease (sAD).MethodsLipidomic analysis using an LC-MS/MS platform was carried out in selected cases with suitable post-mortem lacking co-morbidities and concomitant brain pathologies. Complementary data were obtained using RT-qPCR and immunohistochemistry.ResultsThe WM shows an adaptive lipid phenotype resistant to lipid peroxidation, characterized by a lower fatty acid unsaturation, peroxidizability index, and higher ether lipid content than the GM. Changes in the lipidomic profile more marked in the WM than in GM occur in AD with disease progression. WM alterations are characterized by a decline in the content of branched fatty acid esters of hydroxy fatty acids (FAHFA), diacylglycerols (DG), triacylglycerols (TG), glycerophospholipids (GP) (especially ether lipids), and sphingolipids (especially sulfatides, ceramides, and glycosphingolipids). The GM acquires a fatty acid profile prone to peroxidation in sAD, while WM reinforces its peroxidation-resistant trait. Transcriptomic data point to additional defects of peroxisomal function.ConclusionsFour functional categories are associated with the different lipid classes affected in sAD: membrane structural composition, bioenergetics, antioxidant protection, and bioactive lipids, with deleterious consequences affecting both neurons and glial cells favoring disease progression.

Published

2022

21. Microbiota alterations in proline metabolism impact depression

Author

Jordi Mayneris-Perxachs, Anna Castells-Nobau, María Arnoriaga-Rodríguez, Miquel Martin, Lisset de la Vega-Correa, Cristina Zapata, Aurelijus Burokas, Gerard Blasco, Clàudia Coll, Anira Escrichs, Carles Biarnés, José María Moreno-Navarrete, Josep Puig, Josep Garre-Olmo, Rafel Ramos, Salvador Pedraza, Ramón Brugada, Joan Carles Vilanova, Joaquín Serena, Jordi Gich, Lluís Ramió-Torrentà, Vicente Pérez-Brocal, Andrés Moya, Reinald Pamplona, Joaquim Sol, Mariona Jové, Wifredo Ricart, Manuel Portero-Otin, Gustavo Deco, Rafael Maldonado, José Manuel Fernández-Real, Instituto de Salud Carlos III, European Commission, Generalitat de Catalunya, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Research Council of Lithuania, Interreg, [Mayneris-Perxachs J, Castells-Nobau A, Vega-Correa L, Zapata C] Departament de Diabetis, Endocrinologia i Nutrició, Hospital Dr. Josep Trueta, Girona, Spain. Institut de Recerca Biomèdica de Girona (IDIBGI), Salt, Spain. CIBER Fisiopatología de la Obesidad y Nutrición (CIBEROBN), Girona, Spain. [Arnoriaga-Rodríguez M] Departament de Diabetis, Endocrinologia i Nutrició, Hospital Dr. Josep Trueta, Girona, Spain. Institut de Recerca Biomèdica de Girona (IDIBGI), Salt, Spain. CIBER Fisiopatología de la Obesidad y Nutrición (CIBEROBN), Girona, Spain. Departament de Ciències Mèdiques, Facultat de Medicina, Girona, Spain. [Martin M] Laboratori de Neurofarmacologia, Departament de Ciències Experimentals i de la Salut, Universitat Pompeu Fabra, Barcelona, Spain. [Burokas A] Laboratori de Neurofarmacologia, Departament de Ciències Experimentals i de la Salut, Universitat Pompeu Fabra, Barcelona, Spain. Institute of Biochemistry, Life Sciences Center, Vilnius University, Vilnius, Lituània. [Garre-Olmo J] Grup de Recerca en Envelliment, Discapacitat i Salut, Institut de Recerca Biomèdica de Girona (IDIBGI), Girona, Espanya. Serra-Hunter Fellow, Departament d'Infermeria, Universitat de Girona, Girona, Spain, and Institut d'Assistència Sanitària

Subjects

cognition, Proline, Physiology, brain, Gut microbiota, Mice, fenómenos microbiológicos::microbiota [FENÓMENOS Y PROCESOS], Cognition, Animals, Humans, Intestins - Microbiologia, Depressió psíquica, proline, Molecular Biology, gamma-Aminobutyric Acid, Behavior and Behavior Mechanisms::Behavior::Behavioral Symptoms::Depression [PSYCHIATRY AND PSYCHOLOGY], amino acids, Amino Acids, Peptides, and Proteins::Amino Acids [CHEMICALS AND DRUGS], gut microbiota, Depression, Microbiota, aminoácidos, péptidos y proteínas::aminoácidos [COMPUESTOS QUÍMICOS Y DROGAS], Brain, Cell Biology, Gastrointestinal Microbiome, Diet, conducta y mecanismos de la conducta::conducta::síntomas conductuales::depresión [PSIQUIATRÍA Y PSICOLOGÍA], depression, Amino acids, Aminoàcids, Microbiological Phenomena::Microbiota [PHENOMENA AND PROCESSES], diet

Abstract

The microbiota-gut-brain axis has emerged as a novel target in depression, a disorder with low treatment efficacy. However, the field is dominated by underpowered studies focusing on major depression not addressing microbiome functionality, compositional nature, or confounding factors. We applied a multi-omics approach combining pre-clinical models with three human cohorts including patients with mild depression. Microbial functions and metabolites converging onto glutamate/GABA metabolism, particularly proline, were linked to depression. High proline consumption was the dietary factor with the strongest impact on depression. Whole-brain dynamics revealed rich club network disruptions associated with depression and circulating proline. Proline supplementation in mice exacerbated depression along with microbial translocation. Human microbiota transplantation induced an emotionally impaired phenotype in mice and alterations in GABA-, proline-, and extracellular matrix-related prefrontal cortex genes. RNAi-mediated knockdown of proline and GABA transporters in Drosophila and mono-association with L. plantarum, a high GABA producer, conferred protection against depression-like states. Targeting the microbiome and dietary proline may open new windows for efficient depression treatment., This work was partially supported by Instituto de Salud Carlos III (Madrid, Spain) through the research grants PI15/01934, PI18/01022, and PI21/01361 to J.M.F.-R. and PI20/01090 (co-funded by the European Regional Development Fund. “A way to make Europe”) to J.M.-P.; the Catalan Government (AGAUR, #SGR2017-0734, ICREA Academia Award 2021) to J.M.F.-R.; the Spanish Ministry of Science, Innovation and Universities (PID2019-105969GB-I00); Generalitat Valenciana (Prometeo/2018/133), Spain; and Fondo Europeo de Desarrollo Regional (FEDER) funds to A.M. This work was also supported by the European Commission (FP7, NeuroPain #2013-602891); the Catalan Government (AGAUR, #SGR2017-669, ICREA Academia Award 2020) to R.M.; the Spanish Instituto de Salud Carlos III (RTA, #RD16/0017/0020) to R.M.; Ministry of Science and Innovation and State Research Agency (#PID2020- 120029GB-I00/MICIN/AEI/10.13039/501100011033) to R.M.; the European Regional Development Fund (project no. 01.2.2-LMT-K-718-02-0014) under grant agreement with the Research Council of Lithuania (LMTLT); and the Project ThinkGut (EFA345/19), 65% co-financed by the European Regional Development Fund (ERDF) through the Interreg V-A Spain-France-Andorra program (POCTEFA, 2014–2020). We also acknowledge funding from the Spanish Ministry of Science, Innovation and Universities (RTI2018-099200-B-I00) and the Generalitat of Catalonia (Agency for Management of University and Research Grants [2017SGR696] and Department of Health [SLT002/16/00250]) to R.P. M.A.-R. is funded by Instituto de Salud Carlos III, Río Hortega (CM19/00190). J.M.-P. is funded by a Miguel Servet contract (CP18/00009) from the Instituto de Salud Carlos III. J.S. is funded by a predoctoral PERIS contract (SLT002/16/00250) from the Catalan Government. M.J. is a professor under “Serra Hunter” program (Generalitat de Catalunya).

Published

2022

22. TDP-43 dysfunction leads to bioenergetic failure and lipid metabolic rewiring in human cells

Author

Miriam Ceron-Codorniu, Pascual Torres, Anna Fernàndez-Bernal, Santiago Rico-Rios, José CE. Serrano, Maria P. Miralles, Maria Beltran, Ana Garcera, Rosa M. Soler, Reinald Pamplona, and Manuel Portero-Otín

Subjects

Amyotrophic lateral sclerosis, ACSL4, TDP-43, In vitro models, Homeostasis, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The dysfunction of TAR DNA-binding protein 43 (TDP-43) is implicated in various neurodegenerative diseases, though the specific contributions of its toxic gain-of-function versus loss-of-function effects remain unclear. This study investigates the impact of TARDBP loss on cellular metabolism and viability using human-induced pluripotent stem cell-derived motor neurons and HeLa cells. TARDBP silencing led to reduced metabolic activity and cell growth, accompanied by neurite degeneration and decreased oxygen consumption rates in both cell types. Notably, TARDBP depletion induced a metabolic shift, impairing ATP production, increasing metabolic inflexibility, and elevating free radical production, indicating a critical role for TDP-43 in maintaining cellular bioenergetics. Furthermore, TARDBP loss triggered non-apoptotic cell death, increased ACSL4 expression, and reprogrammed lipid metabolism towards lipid droplet accumulation, while paradoxically enhancing resilience to ferroptosis inducers. Overall, our findings highlight those essential cellular traits such as ATP production, metabolic activity, oxygen consumption, and cell survival are highly dependent on TARDBP function.

Published

2024

23. Author response for 'Cardiac fibroblasts display endurance to ischemia, high ROS control and elevated respiration regulated by the JAK2/STAT pathway'

Author

Marisol Ruiz-Meana, Javier Inserte, Guillermo López-Lluch, Juan G. Valero, Patricia Pérez-Galán, Manuel Portero-Otin, Andrea Irazoki, Marta Llovera, Antonio Zorzano, Aida Beà, Carlos Lana, and Daniel Sanchis

Subjects

Chemistry, Respiration, Ischemia, medicine, JAK-STAT signaling pathway, medicine.disease, Cell biology

Published

2021

24. Presence of Blastocystis in gut microbiota is associated with cognitive traits and decreased executive function

Author

Jordi Mayneris-Perxachs, María Arnoriaga-Rodríguez, Josep Garre-Olmo, Josep Puig, Rafael Ramos, Maria Trelis, Aurelijus Burokas, Clàudia Coll, Cristina Zapata-Tona, Salvador Pedraza, Vicente Pérez-Brocal, Lluís Ramió, Wifredo Ricart, Andrés Moya, Mariona Jové, Joaquim Sol, Manuel Portero-Otin, Reinald Pamplona, Rafael Maldonado, and José Manuel Fernández-Real

Subjects

Intestins--Microbiologia, Microbiologia, Pathogenesis, Blastocystis Infections, Microbiology, METAGENOMICS, MEMBER, Executive Function, Mice, gut microbiota, Blastocystis, executive function, gut microbiome-brain axis, Cognition, Aparell digestiu, Diagnosis, Animals, Humans, Ecology, Evolution, Behavior and Systematics, Blastocist, MEMORY, DNA, Gastrointestinal Microbiome, Cognició, Blastocist -- Infecció, Microbioma, Biomarkers

Abstract

Growing evidence implicates the gut microbiome in cognition. Blastocystis is a common gut single-cell eukaryote parasite frequently detected in humans but its potential involvement in human pathophysiology has been poorly characterized. Here we describe how the presence of Blastocystis in the gut microbiome was associated with deficits in executive function and altered gut bacterial composition in a discovery (n = 114) and replication cohorts (n = 942). We also found that Blastocystis was linked to bacterial functions related to aromatic amino acids metabolism and folate-mediated pyrimidine and one-carbon metabolism. Blastocystis-associated shifts in bacterial functionality translated into the circulating metabolome. Finally, we evaluated the effects of microbiota transplantation. Donor's Blastocystis subtypes led to altered recipient's mice cognitive function and prefrontal cortex gene expression. In summary, Blastocystis warrant further consideration as a novel actor in the gut microbiome-brain axis. This study was partially funded by the Catalan Government (AGAUR, #SGR2017-0734, ICREA Academia Award 2021) to J.M.F.-R., Instituto de Salud Carlos III (Madrid, Spain) through the projects PI15/01934, PI18/01022 and PI21/01361 to JMF-R, the project PI20/01090 (Co-funded by European Regional Development Fund “A way to make Europe”) to JM-P, and the project PI20/0155 to MP-O; the grants SAF2015-65878-R from Ministry of Economy and Competitiveness, Prometeo/2018/A/133 from Generalitat Valenciana, Spain and also by Fondo Europeo de Desarrollo Regional (FEDER) funds (“A way to build Europe”), European Commission (FP7), the Catalan Government (AGAUR, #SGR2017-669, ICREA Academia Award 2020 and Ministerio de Ciencia e Innovación PID2020- 120029GB-I00/MICIN/AEI/10.13039/501100011033, and RD21/0009/0019, European Commission-DG Research” (PainFact, H2020-SC1-2019-2-RTD-848099, QSPain Relief, H2020-SC1-2019-2-RTD-848068 to R.M.), the Spanish Instituto de Salud Carlos III (RTA, #RD16/0017/0020) and the European Regional Development Fund (project No. 01.2.2-LMT-K-718-02-0014) under grant agreement with the Research Council of Lithuania (LMTLT). We also acknowledge funding from the Spanish Ministry of Science, Innovation and Universities (RTI2018-099200-B-I00), and the Generalitat of Catalonia (Agency for Management of University and Research Grants (2017SGR696) and Department of Health (SLT002/16/00250)) to RP; María Arnoriaga-Rodríguez is funded by Instituto de Salud Carlos III, Río Hortega (CM19/00190). JM-P is funded by Instituto de Salud Carlos III through the Miguel Servet Program project CP18/00009 (Co-funded by the European Social Fund “Investing in your future”). MJ is a “Serra-Hunter” fellow.

Published

2021

25. Dietary AGEs as Exogenous Boosters of Inflammation

Author

Armando Rojas, Ma. Eugenia Garay-Sevilla, Manuel Portero-Otin, and Jaime Uribarri

Subjects

Glycation End Products, Advanced, Mediterranean diet, DASH diet, inflammatory diet, Physiology, Inflammation, Review, Dieta mediterrània, Low grade inflammation, matrix glycation, Glycation, Diabetes mellitus, dietary inflammatory index (DII), medicine, low-grade inflammation, Humans, TX341-641, Nutrition and Dietetics, business.industry, Nutrition. Foods and food supply, Dietary intake, medicine.disease, RAGE, Diet, medicine.symptom, Epidemiologic data, business, low AGE diet, Food Science, Glicosilació

Abstract

Most chronic modern non-transmissible diseases seem to begin as the result of low-grade inflammation extending over prolonged periods of time. The importance of diet as a source of many pro-inflammatory compounds that could create and sustain such a low-grade inflammatory state cannot be ignored, particularly since we are constantly exposed to them during the day. The focus of this review is on specific components of the diet associated with inflammation, specifically advanced glycation end products (AGEs) that form during thermal processing of food. AGEs are also generated in the body in normal physiology and are widely recognized as increased in diabetes, but many people are unaware of the potential importance of exogenous AGEs ingested in food. We review experimental models, epidemiologic data, and small clinical trials that suggest an important association between dietary intake of these compounds and development of an inflammatory and pro-oxidative state that is conducive to chronic diseases. We compare dietary intake of AGEs with other widely known dietary patterns, such as the Mediterranean and the Dietary Approaches to Stop Hypertension (DASH) diets, as well as the Dietary Inflammation Index (DII). Finally, we delineate in detail the pathophysiological mechanisms induced by dietary AGEs, both direct (i.e., non-receptor-mediated) and indirect (receptor-mediated).

Published

2021

26. Modulation of mitochondrial and inflammatory homeostasis through RIP140 is neuroprotective in an adrenoleukodystrophy mouse model

Author

M. Flint Beal, Aurora Pujol, Montserrat Ruiz, Noel Y. Calingasan, Francesc Villarroya, Agatha Schlüter, Pablo Ranea-Robles, Jorge Galino, Alba Naudí, Manuel Portero-Otin, Lluís Espinosa, Reinald Pamplona, Stéphane Fourcade, and Isidre Ferrer

Subjects

Histology, Inflammation, Mitochondrion, ATP Binding Cassette Transporter, Subfamily D, Member 1, Neuroprotection, Mitochondrial depletion, Pathology and Forensic Medicine, Mice, Neuroinflammation, Physiology (medical), Genetic model, Animals, Homeostasis, Medicine, Adrenoleukodystrophy, business.industry, Neurodegeneration, medicine.disease, Nuclear Receptor Interacting Protein 1, Mitochondria, Disease Models, Animal, RIP140, Neurology, Oxidative stress, ATP-Binding Cassette Transporters, Neurology (clinical), medicine.symptom, business, Neuroscience

Abstract

Aims: Mitochondrial dysfunction and inflammation are at the core of axonal degeneration in several multifactorial neurodegenerative diseases, including multiple sclerosis, Alzheimer's disease, and Parkinson's disease. The transcriptional coregulator RIP140/NRIP1 (receptor-interacting protein 140) modulates these functions in liver and adipose tissue, but its role in the nervous system remains unexplored. Here, we investigated the impact of RIP140 in the Abcd1- mouse model of X-linked adrenoleukodystrophy (X-ALD), a genetic model of chronic axonopathy involving the convergence of redox imbalance, bioenergetic failure, and chronic inflammation. Methods and results: We provide evidence that RIP140 is modulated through a redox-dependent mechanism driven by very long-chain fatty acids (VLCFAs), the levels of which are increased in X-ALD. Genetic inactivation of RIP140 prevented mitochondrial depletion and dysfunction, bioenergetic failure, inflammatory dysregulation, axonal degeneration and associated locomotor disabilities in vivo in X-ALD mouse models. Conclusions: Together, these findings show that aberrant overactivation of RIP140 promotes neurodegeneration in X-ALD, underscoring its potential as a therapeutic target for X-ALD and other neurodegenerative disorders that present with metabolic and inflammatory dyshomeostasis. This study was funded by the Institute of Health Carlos III through projects FIS PI14/01115 and FIS PI17/00134 to M.P.O., FIS PI13/00584 and FIS PI14/00328 to R.P., FIS PI19/0108 to S.F., and FIS PI14/00410, FIS PI17/00916, and FIS PI20/00759 to A.P. and was co-funded by the European Regional Development Fund (ERDF, a way to build Europe). This study was funded by the Institute of Health Carlos III through grants PFIS FI12/00457 to P.R-R. and Miguel Servet program CPII16/00016 to S.F. and co-funded by the European Social Fund (ESF, investing in your future). This study was supported by the European Commission (FP7-241622 to A.P.); the Autonomous Government of Catalonia (2014SGR168 to R.P. and 2017SGR1206 to A.P.); and the Center for Biomedical Research on Rare Diseases (CIBERER), an initiative of the Institute of Health Carlos III (M.R.). Locomotor experiments were performed by the SEFALer unit F5 led by A.P., which belongs to the CIBERER structure. We thank the CERCA Program/Generalitat de Catalunya for institutional support.

Published

2021

27. Human lifespan and sex-specific patterns of resilience to disease: a retrospective population-wide cohort study

Author

Joaquim Sol, Marta Ortega-Bravo, Manuel Portero-Otín, Gerard Piñol-Ripoll, Vicent Ribas-Ripoll, Eva Artigues-Barberà, Miquel Butí, Reinald Pamplona, and Mariona Jové

Subjects

Human lifespan, Health span, Primary care, Electronic health records, Aging, Age-related diseases, Medicine

Abstract

Abstract Background Slower paces of aging are related to lower risk of developing diseases and premature death. Therefore, the greatest challenge of modern societies is to ensure that the increase in lifespan is accompanied by an increase in health span. To better understand the differences in human lifespan, new insight concerning the relationship between lifespan and the age of onset of diseases, and the ability to avoid them is needed. We aimed to comprehensively study, at a population-wide level, the sex-specific disease patterns associated with human lifespan. Methods Observational data from the SIDIAP database of a cohort of 482,058 individuals that died in Catalonia (Spain) at ages over 50 years old between the 1st of January 2006 and the 30th of June 2022 were included. The time to the onset of the first disease in multiple organ systems, the prevalence of escapers, the percentage of life free of disease, and their relationship with lifespan were evaluated considering sex-specific traits. Results In the study cohort, 50.4% of the participants were women and the mean lifespan was 83 years. The results show novel relationships between the age of onset of disease, health span, and lifespan. The key findings include: Firstly, the onset of both single and multisystem diseases is progressively delayed as lifespan increases. Secondly, the prevalence of escapers is lower in lifespans around life expectancy. Thirdly, the number of disease-free systems decreases until individuals reach lifespans around 87–88 years old, at which point it starts to increase. Furthermore, long-lived women are less susceptible to multisystem diseases. The associations between health span and lifespan are system-dependent, and disease onset and the percentage of life spent free of disease at the time of death contribute to explaining lifespan variability. Lastly, the study highlights significant system-specific disparities between women and men. Conclusions Health interventions focused on delaying aging and age-related diseases should be the most effective in increasing not only lifespan but also health span. The findings of this research highlight the relevance of Electronic Health Records in studying the aging process and open up new possibilities in age-related disease prevention that should assist primary care professionals in devising individualized care and treatment plans.

Published

2024

28. New insights into human prefrontal cortex aging with a lipidomics approach

Author

Mariona Jové, Isidre Ferrer, Natalia Mota-Martorell, Pascual Torres, Manuel Portero-Otin, and Reinald Pamplona

Subjects

0301 basic medicine, Neurons, Aging, 030102 biochemistry & molecular biology, Chemistry, Brain, Prefrontal Cortex, Cognition, Biochemistry, Reactive carbonyl species, 03 medical and health sciences, Brain region, 030104 developmental biology, Lipid oxidation, Lipidomics, Humans, Cognitive decline, Prefrontal cortex, Molecular Biology, Neuroscience

Abstract

Human prefrontal cortex (hPFC) is a recent evolutionarily developed brain region involved in cognitive functions. Human cognitive functions decline during aging. Yet the molecular mechanisms underlying the functional deterioration of the neural cells of this brain region still remain to be fully described.In this review, we explore the role of lipids in hPFC aging. Firstly, we briefly consider the approaches used to identify lipid species in brain tissue with special attention paid to a lipidomics analysis. Then, as the evolution process has conferred a specific lipid profile on the hPFC, we consider the lipidome of hPFC. In addition, the role of lipids in hPFC aging, and in particular, the cognitive decline associated with aging, is discussed. Finally, nutritional and pharmacological interventions designed to modulate this process are examined. It is suggested that the dysfunction of key cellular processes secondarily to the damage of lipid membrane underlies the cognitive decline of hPFC during aging.Lipidomics methods are and will continue to be key tools in the effort to gain additional insights into the aging of the human brain.

Published

2021

29. The Causal Role of Lipoxidative Damage in Mitochondrial Bioenergetic Dysfunction Linked to Alzheimer’s Disease Pathology

Author

Reinald Pamplona, Pascual Torres, Isidro Ferrer, Natalia Mota-Martorell, Victoria Ayala, Mariona Jové, and Manuel Portero-Otin

Subjects

Programmed cell death, Pathology, medicine.medical_specialty, Aging, Science, Context (language use), Review, oxidative damage, Biology, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Oxidative damage, energy metabolism, mitochondrial dysfunction, medicine, Neurodegeneration, Ecology, Evolution, Behavior and Systematics, Entorhinal cortex, entorhinal cortex, Mechanism (biology), Cerebrum, aging, neurodegeneration, Paleontology, Lipid metabolism, Energy metabolism, medicine.disease, medicine.anatomical_structure, Space and Planetary Science, ATP synthase, Lipoxidation-derived damage, lipoxidation-derived damage, Mitochondrial dysfunction, Oxidative stress

Abstract

Current shreds of evidence point to the entorhinal cortex (EC) as the origin of the Alzheimer’s disease (AD) pathology in the cerebrum. Compared with other cortical areas, the neurons from this brain region possess an inherent selective vulnerability derived from particular oxidative stress conditions that favor increased mitochondrial molecular damage with early bioenergetic involvement. This alteration of energy metabolism is the starting point for subsequent changes in a multitude of cell mechanisms, leading to neuronal dysfunction and, ultimately, cell death. These events are induced by changes that come with age, creating the substrate for the alteration of several neuronal pathways that will evolve toward neurodegeneration and, consequently, the development of AD pathology. In this context, the present review will focus on description of the biological mechanisms that confer vulnerability specifically to neurons of the entorhinal cortex, the changes induced by the aging process in this brain region, and the alterations at the mitochondrial level as the earliest mechanism for the development of AD pathology. Current findings allow us to propose the existence of an altered allostatic mechanism at the entorhinal cortex whose core is made up of mitochondrial oxidative stress, lipid metabolism, and energy production, and which, in a positive loop, evolves to neurodegeneration, laying the basis for the onset and progression of AD pathology. Research by the authors was supported by the Institute of Health Carlos III (FIS grantsPI14/00757, PI14/00328, PI20/0155), the Spanish Ministry of Science, Innovation, and Universities(Ministerio de Ciencia, Innovación y Universidades, grant RTI2018-099200-B-I00), and the Generalitatof Catalonia: Agency for Management of University and Research Grants (2017SGR696) to M.P-O.,I.F., and R.P. This study was co-financed by FEDER funds from the European Union (‘A way tobuild Europe’).

Published

2021

30. A prospective pilot study using metabolomics discloses specific fatty acid, catecholamine and tryptophan metabolic pathways as possible predictors for a negative outcome after severe trauma

Author

Neus Montserrat, Joaquim Sol, Javier Trujillano, Mariona Badia, Luis Serviá, Manuel Portero-Otin, Mariona Jové, and Reinald Pamplona

Subjects

Male, Myristic acid, Pilot Projects, Critical Care and Intensive Care Medicine, Gastroenterology, law.invention, chemistry.chemical_compound, Plasma, Catecholamines, Traumatic brain injury, law, Prospective Studies, Original Research, chemistry.chemical_classification, Trauma Severity Indices, Fatty Acids, Tryptophan, lcsh:Medical emergencies. Critical care. Intensive care. First aid, Middle Aged, Intensive care unit, Intensive Care Units, Epinephrine, Treatment Outcome, Emergency Medicine, Metabolome, Biomarker (medicine), Female, Multiple traumatism, Metabolic Networks and Pathways, medicine.drug, Adult, medicine.medical_specialty, Sensitivity and Specificity, Metabolomics, Internal medicine, medicine, Humans, Mortality, Aged, business.industry, Fatty acid, Odds ratio, Biomarker, lcsh:RC86-88.9, chemistry, Spain, Wounds and Injuries, business, Biomarkers, Chromatography, Liquid

Abstract

Background: We wanted to define metabolomic patterns in plasma to predict a negative outcome in severe trauma patients. Methods: A prospective pilot study was designed to evaluate plasma metabolomic patterns, established by liquid chromatography coupled to mass spectrometry, in patients allocated to an intensive care unit (in the University Hospital Arnau de Vilanova, Lleida, Spain) in the first hours after a severe trauma (n = 48). Univariate and multivariate statistics were employed to establish potential predictors of mortality. Results: Plasma of patients non surviving to trauma (n = 5) exhibited a discriminating metabolomic pattern, involving basically metabolites belonging to fatty acid and catecholamine synthesis as well as tryptophan degradation pathways. Thus, concentration of several metabolites exhibited an area under the receiver operating curve (ROC) higher than 0.84, including 3-indolelactic acid, hydroxyisovaleric acid, phenylethanolamine, cortisol, epinephrine and myristic acid. Multivariate binary regression logistic revealed that patients with higher myristic acid concentrations had a non-survival odds ratio of 2.1 (CI 95% 1.1–3.9). Conclusions: Specific fatty acids, catecholamine synthesis and tryptophan degradation pathways could be implicated in a negative outcome after trauma. The metabolomic study of severe trauma patients could be helpful for biomarker proposal. This work has been partially supported by the IRBLleida biobank and RETICS BIOBANCOS RD09/0076/00059, the Spanish Ministry of Economy and Competitiveness, Institute of Health Carlos III (PI 17–00134) and the Generalitat of Catalonia (2017SGR969). FEDER Funds are also acknowledged: “A way to make Europe”. MJ is a professor under the Serra Hunter program (Generalitat de Catalunya).

Published

2019

31. Altered Dynein Axonemal Assembly Factor 1 Expression in C-Boutons in Bulbar and Spinal Cord Motor-Neurons in Sporadic Amyotrophic Lateral Sclerosis

Author

Isidro Ferrer, Pascual Torres, Mònica Povedano, Pol Andrés-Benito, Manuel Portero-Otin, and Universitat de Barcelona

Subjects

Adult, Male, Dynein, Presynaptic Terminals, Gene Expression, Mice, Transgenic, Biology, Pathology and Forensic Medicine, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Microtubule, Dynein ATPase, medicine, Animals, Humans, Amyotrophic lateral sclerosis, Aged, Motor neurons, Motor Neurons, Denervation, Spinal cord, Superoxide Dismutase, Amyotrophic Lateral Sclerosis, General Medicine, Middle Aged, Motor neuron, medicine.disease, Cell biology, Neurones motores, Medul·la espinal, medicine.anatomical_structure, Spinal Cord, nervous system, Neurology, Cholinergic, Female, Neurology (clinical), Microtubule-Associated Proteins, Esclerosi lateral amiotròfica, 030217 neurology & neurosurgery, Brain Stem

Abstract

Dyneins are major components of microtubules. Dynein assembly is modulated by a heterogeneous group of dynein axonemal assembly factors (DNAAFs). The present study analyzes dynein axonemal assembly factor 1 (DNAAF1) and leucine-rich repeat-containing protein 50 (LRRC50), the corresponding encoded protein, in lower motor neurons in spinal cord of sALS postmortem samples and hSOD1-G93A transgenic mice compared with controls. DNAAF1 mRNA is significantly reduced in the anterior horn in sALS, and LRRC50 immunoreactivity is significantly reduced in C-boutons of the remaining motor neurons of the anterior horn, dorsal nucleus of the vagus nerve, and hypoglossal nuclei at terminal stages of ALS. LRRC50 immunoreactivity has a perinuclear distribution in motor neurons in sALS thus suggesting a disorder of transport. The number of LRRC50-/S1R-immunoreactive structures is also significantly decreased in hSOD1-G93A transgenic mice at the age of 90 days (preclinical stages), and the number of motor neurons with LRRC50-immunoreactive structures is significantly reduced in animals aged 150 days (clinical stages). These observations suggest cholinergic denervation of motor neurons as a pathogenic factor in motor neuron disease. LRRC50 protein levels were not detected in human CSF.

Published

2019

32. Skin Autofluorescence Measurement in Subclinical Atheromatous Disease: Results from the ILERVAS Project

Author

Angels Betriu, Ferran Rius, Gerard Torres, Enric Sánchez, Manuel Portero-Otin, Marta Hernández, Cristina Farràs, Manuel Sánchez-de-la-Torre, Francisco Purroy, Dinora Polanco, Cristina Hernández, Ikram Benabdelhak, Elvira Fernández, Reinald Pamplona, Ferran Barbé, Jose M. Valdivielso, Andree Yeramian, Marta Ortega, Eva Miquel, Montse Martínez-Alonso, Mariona Jové, Rafael Simó, Guillermo Suárez, Ilervas, Marcelino Bermudez-Lopez, Albert Lecube, Laura Colàs-Campàs, and Mohsen Kerkeni

Subjects

Glycation End Products, Advanced, Male, Cardiovascular risk, Skin autofluorescence, medicine.medical_specialty, Atheromatous plaque burden, Arbitrary unit, Population, Disease, 030204 cardiovascular system & hematology, Logistic regression, Arginine, Gastroenterology, Fluorescence, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Internal Medicine, medicine, Humans, Prospective Studies, Pentosidine, Advanced glycation end-products, education, Subclinical infection, Skin, education.field_of_study, Receiver operating characteristic, business.industry, Lysine, Biochemistry (medical), Optical Imaging, Middle Aged, Prognosis, Plaque, Atherosclerotic, Cross-Sectional Studies, chemistry, ROC Curve, Case-Control Studies, Original Article, Female, Cardiology and Cardiovascular Medicine, business, 030217 neurology & neurosurgery, Follow-Up Studies

Abstract

AIM: Advanced glycation end-products (AGEs) have been involved in the atherogenic process in the high-risk population. The goal of this study was to demonstrate that AGEs are related to subclinical atheromatous disease in subjects with low to moderate vascular risk. METHODS: A cross-sectional study in which 2,568 non-diabetic subjects of both sexes without cardiovascular disease were included. Subcutaneous content of AGEs was assessed by skin autofluorescence (SAF) and subclinical atheromatous disease was measured by assessing the atheromatous plaque burden in carotid and femoral regions using ultrasonography. In addition, serum pentosidine, carboxymethyl-lysine (CML) and AGE receptors (RAGE) were assessed in a nested case-control study with 41 subjects without plaque and 41 individuals subjects with generalized disease. RESULTS: Patients with atheromatous plaque had a higher SAF than those with no plaque (1.9 [1.7 to 2.3] vs. 1.8 [1.6 to 2.1] arbitrary units (AU), p＜0.001). The SAF correlated with the total number of affected regions (r= 0.171, p＜0.001), increasing progressively from 1.8 [1.6 to 2.1] AU in those without atheromatous disease to 2.3 [1.9 to 2.7] AU in patients with ≥ 8 plaques (p＜0.001). A correlation was also observed between SAF and the total plaque area (r=0.113, p＜0.001). The area under the Receiver Operating Characteristic curve was 0.65 (0.61 to 0.68) for identifying male subjects with atheromatous disease. The multivariable logistic regression model showed a significant and independent association between SAF and the presence of atheromatous disease. However, no significant differences in serum pentosidine, CML, and RAGE were observed. CONCLUSIONS: Increased subcutaneous content of AGEs is associated with augmented atheromatous plaque burden. Our results suggest that SAF may provide clinically relevant information to the current strategies for the evaluation of cardiovascular risk, especially among the male population. This work was supported by grants from the Diputació de Lleida, Instituto de Salud Carlos III (Action Plan II14//00008), Fundación de la Sociedad Española de Endocrinología y Nutrición (FSEEN), Esteve Laboratory, Generalitat de Catalunya (2017SGR696 and SLT0021600250), IRBLleida Biobank (B.0000682) and Plataforma Biobancos PT13/0010/0014. CIBER de Diabetes y Enfermedades Metabólicas Asociadas and CIBER de Enfermedades Respiratorias are initiatives of the Instituto de Salud Carlos III. These organizations had no role in study design, the collection, analysis and interpretation of data, report writing, or the decision to submit the article for publication. The authors declare that there are no relationships with industry relevant to this manuscript.

Published

2019

33. Regional vulnerability to lipoxidative damage and inflammation in normal human brain aging

Author

Meritxell Puigpinós, Manuel Portero-Otin, Mayelin Dominguez-Gonzalez, Reinald Pamplona, Mariona Jové, Alba Naudí, and Isidro Ferrer

Subjects

Adult, Male, 0301 basic medicine, Aging, medicine.medical_specialty, Blotting, Western, Inflammation, medicine.disease_cause, Cytochrome P-450 CYP2J2, Biochemistry, Neuroprotection, Lipid peroxidation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Endocrinology, Cytochrome P-450 Enzyme System, Malondialdehyde, Internal medicine, Genetics, medicine, Humans, Molecular Biology, Neuroinflammation, Aged, business.industry, Neurodegeneration, Brain, Cell Biology, Human brain, Middle Aged, medicine.disease, Oxidative Stress, 030104 developmental biology, medicine.anatomical_structure, chemistry, Female, Lipid Peroxidation, medicine.symptom, business, 030217 neurology & neurosurgery, Oxidative stress

Abstract

Oxidative damage and inflammation coexist in healthy human brain aging. The present study analyzes levels of protein adduction by lipid peroxidation (LP) end-products neuroketal (NKT) and malondialdehyde (MDA), as markers of protein oxidative damage, cycloxygenase-2 (COX-2) levels, as a marker of inflammation, and cytochrome P450 2J2 (CYP2J2), responsible of generation of neuroprotective products, in twelve brain regions in normal middle-aged individuals (MA) and old-aged (OA) individuals. In addition, levels of these markers were evaluated as a function of age as a continuous variable and correction for multiple comparisons. Selection of regions was based on their different vulnerability to prevalent neurodegenerative diseases in aging. Our findings show region-dependent LP end-products, COX-2 and CYP2J2 changes in the aging human brain. However, no clear relationship can be established between NKT, MDA, COX-2 and CYP2J2 levels, and regional vulnerability to neurodegeneration in old age.

Published

2018

34. Nuclear lipidome is altered in amyotrophic lateral sclerosis: A pilot study

Author

Ricardo Romero-Guevara, Joaquim Sol, Omar Ramírez-Núñez, Victoria Ayala, Manuel Portero-Otin, Reinald Pamplona, Pascual Torres, Isidro Ferrer, Jordi Boada, Chiara Rossi, Laia Fontdevila, Mònica Povedano, Pol Andrés-Benito, and Mariona Jové

Subjects

0301 basic medicine, Male, Plasmalogen, Mice, Transgenic, Pilot Projects, Biochemistry, Diglycerides, 03 medical and health sciences, Cellular and Molecular Neuroscience, Mice, 0302 clinical medicine, Cytosol, Superoxide Dismutase-1, Lipid droplet, Lipidomics, medicine, Animals, Humans, Amyotrophic lateral sclerosis, Aged, Cell Nucleus, Motor Neurons, Phospholipase C, Chemistry, Amyotrophic Lateral Sclerosis, Cell Membrane, Lipidome, Motor neuron, Middle Aged, medicine.disease, Cell biology, Oxidative Stress, 030104 developmental biology, medicine.anatomical_structure, Sterol carrier protein, Spinal Cord, lipids (amino acids, peptides, and proteins), Female, Carrier Proteins, 030217 neurology & neurosurgery, Subcellular Fractions

Abstract

Nucleocytosolic transport, a membrane process, is impaired in motor neurons in amyotrophic lateral sclerosis (ALS). This study analyzes the nuclear lipidome in motor neurons in ALS and examines molecular pathways linked to the major lipid alterations. Nuclei were obtained from the frozen anterior horn of the lumbar spinal cord of ALS patients and age-matched controls. Lipidomic profiles of this subcellular fraction were obtained using liquid chromatography and mass spectrometry. We validated the mechanisms behind presumable lipidomic changes by exploring ALS surrogate models including human motor neurons (derived from ALS lines and controls) subjected to oxidative stress, the hSOD-G93A transgenic mice, and samples from an independent cohort of ALS patients. Among the differential lipid species, we noted 41 potential identities, mostly belonging to phospholipids (particularly ether phospholipids, as plasmalogens), as well as diacylglycerols and triacylglycerides. Decreased expression of alkyldihydroxyacetonephosphate synthase (AGPS)-a critical peroxisomal enzyme in plasmalogen synthesis-is found in motor neuron disease models; this occurs in parallel with an increase in the expression of sterol carrier protein 2 (SCP2) mRNA in ALS and Scp2 levels in G93A transgenic mice. Further, we identified diminished expression of diacylglycerol-related enzymes, such as phospholipase C βI (PLCβI) and protein kinase CβII (PKCβII), linked to diacylglycerol metabolism. Finally, lipid droplets were recognized in the nuclei, supporting the identification of triacylglycerides as differential lipids. Our results point to the potentially pathogenic role of altered composition of nuclear membrane lipids and lipids in the nucleoplasm in the anterior horn of the spinal cord in ALS. Overall, these data support the usefulness of subcellular lipidomics applied to neurodegenerative diseases.

Published

2021

35. Dietary interventions for patients with obesity and impaired bioenergetics

Author

Ana Belén Granado-Serrano, Manuel Portero-Otin, Anna Cassanyé, Meritxell Martín-Gari, and José C. E. Serrano

Subjects

education.field_of_study, Bioenergetics, business.industry, Population, Overweight, medicine.disease, Obesity, Dietary interventions, Weight loss, Environmental health, medicine, Energy deficit, medicine.symptom, education, business, Weight gain

Abstract

Obesity is a multifactor metabolic disease of which there are currently no effective treatments for the majority of the overweight population. One of the main reasons for the low success rate is the opposite effect that various homeostatic adaptations exert that adjusts energy expenditure to prevent weight loss. Several dietary treatments have shown effectiveness in the ability to reduce body weight. However, the effects are transient, and most of the patients regain the lost weight. To achieve a long-term weight loss, the degree of energy deficit that must be introduced is greater than expected, so that the duration of treatment and follow-up must be at least 1 year to ensure that changes in lifestyles will last long term. This highlights the importance of focusing on the prevention of weight gain or on preventing further gain those who are in the overweight range before the energy gap becomes unmanageable.

Published

2021

36. Restriction of Dietary Advanced Glycation End Products Induces a Differential Plasma Metabolome and Lipidome Profile

Author

Weijing Cai, Jaime Uribarri, Joaquim Sol, Reinald Pamplona, John Cijiang He, Manuel Portero-Otin, Rebeca Berdún, Mariona Jové, Reyna Rodriguez-Mortera, and Meritxell Martín-Gari

Subjects

Glycation End Products, Advanced, medicine.medical_specialty, business.industry, Methylglyoxal, Lipidome, medicine.disease, Sphingolipid, Obesity, Diet, chemistry.chemical_compound, Insulin resistance, Endocrinology, chemistry, Ageing, Glycation, Internal medicine, Lipidomics, medicine, Metabolome, Humans, Insulin Resistance, business, Food Science, Biotechnology

Abstract

Scope: Diets with low content in advanced glycation end products (AGEs) lead to beneficial properties in highly prevalent age-related diseases. To shed light on the mechanisms behind, the changes induced by a low AGE dietary intervention in the circulating metabolome are analyzed. Methods and Results: To this end, 20 non-diabetic patients undergoing peritoneal dialysis are randomized to continue their usual diet or to one with a low content of AGEs for 1 month. Then, plasmatic metabolome and lipidomes are analyzed by liquid-chromatography coupled to mass spectrometry. The levels of defined AGE structures are also quantified by ELISA and by mass-spectrometry. The results show that the low AGE diet impinged significant changes in circulating metabolomes (166 molecules) and lipidomes (91 lipids). Metabolic targets of low-AGE intake include sphingolipid, ether-lipids, and glycerophospholipid metabolism. Further, it reproduces some of the plasma characteristics of healthy aging. Conclusion : The finding of common pathways induced by low-AGE diets with previous metabolic traits implicated in aging, insulin resistance, and obesity suggest the usefulness of the chosen approach and supports the potential extension of this study to other populations. The authors acknowledge funding from the Spanish Ministry of Economy and Competitiveness (PRX15/00613), Institute of Health Carlos III (P.I. 17–00134, PI20-00155) to M.P.-O.; and the Generalitat of Catalonia, Agency for Management of University and Research Grants (2017SGR696) to R.P. R.B. is a fellow from Program “Impuls”-Santander. R.R.-M. is a fellow from CONACYT. This study has been co-financed by FEDER funds from the European Union (“A way to build Europe”). M.J. is a professor under the “Serra Hunter” program (Generalitat de Catalunya).

Published

2021

37. Lipidomic traits of plasma and cerebrospinal fluid in amyotrophic lateral sclerosis correlate with disease progression

Author

Mariona Jové, Reinald Pamplona, Victoria Ayala, Ricardo Romero-Guevara, Isidro Ferrer, Ammar Al-Chalabi, Gerard Piñol-Ripoll, Pol Andrés-Benito, Mònica Povedano, Estela Area-Gomez, Abdul Hye, William Sproviero, Raúl Domínguez, Pascual Torres, Joaquim Sol, and Manuel Portero-Otin

Subjects

0301 basic medicine, medicine.medical_specialty, Neurofilament, Pronòstic mèdic, Lípids de la sang, CSF, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cerebrospinal fluid, Internal medicine, Lipidomics, medicine, hypermetabolism, Amyotrophic lateral sclerosis, plasma, triacylglyceride, Chemistry, AcademicSubjects/SCI01870, General Engineering, Líquid cefalorraquidi, Metabolism, Lipidome, medicine.disease, Prognosis, metabolomics, 030104 developmental biology, Endocrinology, Glycerophospholipid, Hypermetabolism, Blood lipids, Original Article, AcademicSubjects/MED00310, 030217 neurology & neurosurgery, Esclerosi lateral amiotròfica

Abstract

Since amyotrophic lateral sclerosis cases exhibit significant heterogeneity, we aim to investigate the association of lipid composition of plasma and CSF with amyotrophic lateral sclerosis diagnosis, its progression and clinical characteristics. Lipidome analyses would help to stratify patients on a molecular basis. For this reason, we have analysed the lipid composition of paired plasma and CSF samples from amyotrophic lateral sclerosis cases and age-matched non-amyotrophic lateral sclerosis individuals (controls) by comprehensive liquid chromatography coupled to mass spectrometry. The concentrations of neurofilament light chain—an index of neuronal damage—were also quantified in CSF samples and plasma. Amyotrophic lateral sclerosis versus control comparison, in a moderate stringency mode, showed that plasma from cases contains more differential lipids (n = 122 for raw P, Sol et al. report that in case–control approaches, plasma lipidomic profile is richer in differences than CSF. Interestingly, patients with faster progression show decreased plasmatic triacylglycerides and phospholipids, compatible with hypermetabolism. They conclude that the plasma lipidomic profile holds promise for patient stratification., Graphical Abstract Graphical Abstract

Published

2021

38. Cardiac fibroblasts display endurance to ischemia, high ROS control and elevated respiration regulated by the JAK2/STAT pathway

Author

Marta Llovera, Marisol Ruiz-Meana, Andrea Irazoki, Carlos Lana, Javier Inserte, Manuel Portero-Otin, Juan G. Valero, Aida Beà, Guillermo López-Lluch, Antonio Zorzano, Daniel Sanchis, Patricia Pérez-Galán, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Fundació La Marató de TV3, Diputació de Lleida, Generalitat de Catalunya, Instituto de Salud Carlos III, Centres de Recerca de Catalunya, Institut Català de la Salut, [Beà A, Lana C] Cell Signaling & Apoptosis Group, Institut de Recerca Biomedica de Lleida (IRBLleida), Universitat de Lleida, Spain. [Valero JG] Department of Hematology-Oncology, Institut d’Investigacions Biomediques August Pi i Sunyer (IDIBAPS), Barcelona, Spain. Centro de Investigacion Biomédica en Red-Oncología (CIBERONC), Barcelona, Spain. [Irazoki A] Departament de Bioquímica i Biomedicina Molecular, Facultat de Biologia, Institute for Research in Biomedicine (IRB Barcelona), Barcelona Institute of Science and Technology (BIST), Centro de Investigación Biomédica en Red Diabetes y Enfermedades Metabólicas Asociadas (CIBERDEM), Universitat de Barcelona, Spain. [López-Lluch G] Andalusian Center of Developmental Biology, Pablo de Olavide University, Sevilla, Spain. Centro de Investigación Biomédica en Red Enfermedades Raras (CIBERER), Sevilla, Spain. [Portero-Otín M] Department of Experimental Medicine, IRBLleida, University of Lleida, Lleida, Spain. [Inserte J, Ruiz-Meana M] Laboratori de Cardiologia Experimental, Vall d’Hebron Hospital Universitari, Barcelona, Spain. Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. Universitat Autònoma de Barcelona, Spain. Centro de Investigación Biomédica en Red-CV (CIBER-CV), Barcelona, Spain, and Vall d'Hebron Barcelona Hospital Campus

Subjects

STAT3 Transcription Factor, Cellular respiration, Survival, Cardiac fibrosis, Sistema cardiovascular - Malalties, Cardiac fibroblast, Biochemistry, Antioxidants, Ischemia, medicine, Animals, STAT3, Molecular Biology, STAT5, enfermedades cardiovasculares [ENFERMEDADES], biology, Cardiovascular Diseases [DISEASES], Chemistry, Respiration, JAK-STAT signaling pathway, ROS, Cell Biology, Fibroblasts, Janus Kinase 2, medicine.disease, JAK/STAT, Cell biology, Rats, Proto-Oncogene Proteins c-bcl-2, biology.protein, STAT protein, Signal transduction, Janus kinase, Reactive Oxygen Species, Signal Transduction

Abstract

Cardiovascular diseases are the leading cause of death globally and more than four out of five cases are due to ischemic events. Cardiac fibroblasts (CF) contribute to normal heart development and function, and produce the post-ischemic scar. Here, we characterize the biochemical and functional aspects related to CF endurance to ischemia-like conditions. Expression data mining showed that cultured human CF (HCF) express more BCL2 than pulmonary and dermal fibroblasts. In addition, gene set enrichment analysis showed overrepresentation of genes involved in the response to hypoxia and oxidative stress, respiration and Janus kinase (JAK)/Signal transducer and Activator of Transcription (STAT) signaling pathways in HCF. BCL2 sustained survival and proliferation of cultured rat CF, which also had higher respiration capacity and reactive oxygen species (ROS) production than pulmonary and dermal fibroblasts. This was associated with higher expression of the electron transport chain (ETC) and antioxidant enzymes. CF had high phosphorylation of JAK2 and its effectors STAT3 and STAT5, and their inhibition reduced viability and respiration, impaired ROS control and reduced the expression of BCL2, ETC complexes and antioxidant enzymes. Together, our results identify molecular and biochemical mechanisms conferring survival advantage to experimental ischemia in CF and show their control by the JAK2/STAT signaling pathway. The presented data point to potential targets for the regulation of cardiac fibrosis and also open the possibility of a general mechanism by which somatic cells required to acutely respond to ischemia are constitutively adapted to survive it., This research was funded by Ministerio de Ciencia e Innovación (MICINN), Gobierno de España, grant numbers SAF2013-44942-R and PID2019-104509RB-I00 to DS; Fundació La Marató TV3, grant number 20153810 to D.S; A.B. holds a contract from Fundació La Marató TV3 and IRBLleida/Diputació de Lleida; Generalitat de Catalunya, (AGAUR) grant number 2017SGR996 to DS; PP-G Laboratory support was obtained through research grants from MICINN (SAF2017/88275R) and CIBERONC (CB16/12/00334); JI and MR-M Laboratory support was obtained from Instituto de Salud Carlos III (ISCIII-FIS) grant PI19-01196; AZ Laboratory support was obtained through research grants from MICINN (PID2019-106209RB-I00), and the Generalitat de Catalunya, (AGAUR) grant number 2017SGR1015. AZ is a recipient of an ICREA ‘Academia’ Award (Generalitat de Catalunya). We gratefully acknowledge institutional funding from the MINECO through the Centres of Excellence Severo Ochoa Award, and from the CERCA Programme of the Generalitat de Catalunya.

Published

2021

39. Obesity-associated deficits in inhibitory control are phenocopied to mice through gut microbiota changes in one-carbon and aromatic amino acids metabolic pathways

Author

Gerard Blasco, Vicente Pérez-Brocal, Aurelijus Burokas, Joaquim Sol, Andrés Moya, Jordi Mayneris-Perxachs, Rafel Ramos, Jordi Gich, Anna Castells-Nobau, Ramon Brugada, Clàudia Coll, José Manuel Fernández-Real, Rafael Maldonado, Joaquín Serena, Wifredo Ricart, Mariona Jové, Xavier Fernández-Real, Juan-Antonio Ortega-Sanchez, Carles Biarnes, Salvador Pedraza, Reinald Pamplona, Manuel Portero-Otin, Jordi Barretina, María Arnoriaga-Rodríguez, Lluís Ramió-Torrentà, Oren Contreras-Rodríguez, Josep Puig, Josep Garre-Olmo, Joan C. Vilanova, Instituto de Salud Carlos III, Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, European Commission, and Research Council of Lithuania

Subjects

Male, 0301 basic medicine, Microbiologia, Gut flora, Transcriptome, Mice, 0302 clinical medicine, Overweight persons, Gut Microbiota, Prefrontal cortex, health care economics and organizations, digestive, oral, and skin physiology, Gastroenterology, Intestins -- Malalties, Fecal Microbiota Transplantation, Middle Aged, Persones obeses, serotonin, 3. Good health, Inhibition, Psychological, Intestins -- Microbiologia, Phenotype, medicine.anatomical_structure, intestinal microbiology, microbiota, obesity, Obesitat, Female, Intestines -- Diseases, dopamine, performance, Adult, medicine.medical_specialty, tryptophan depletion, Physical exercise, Biology, Intestines -- Microbiology, digestive system, Microbiology, Amino Acids, Aromatic, 03 medical and health sciences, Metabolomics, Internal medicine, medicine, Animals, Humans, Obesity, Anterior cingulate cortex, Aged, Intestinal microbiology, Metabolism, biology.organism_classification, Carbon, Gastrointestinal Microbiome, Fatty Liver, Cross-Sectional Studies, 030104 developmental biology, Endocrinology, 030217 neurology & neurosurgery, Stroop effect

Abstract

Gut: first published., [Background]: Inhibitory control (IC) is critical to keep long-term goals in everyday life. Bidirectional relationships between IC deficits and obesity are behind unhealthy eating and physical exercise habits., [Methods]: We studied gut microbiome composition and functionality, and plasma and faecal metabolomics in association with cognitive tests evaluating inhibitory control (Stroop test) and brain structure in a discovery (n=156), both cross-sectionally and longitudinally, and in an independent replication cohort (n=970). Faecal microbiota transplantation (FMT) in mice evaluated the impact on reversal learning and medial prefrontal cortex (mPFC) transcriptomics., [Results]: An interplay among IC, brain structure (in humans) and mPFC transcriptomics (in mice), plasma/faecal metabolomics and the gut metagenome was found. Obesity-dependent alterations in one-carbon metabolism, tryptophan and histidine pathways were associated with IC in the two independent cohorts. Bacterial functions linked to one-carbon metabolism (thyX,dut, exodeoxyribonuclease V), and the anterior cingulate cortex volume were associated with IC, cross-sectionally and longitudinally. FMT from individuals with obesity led to alterations in mice reversal learning. In an independent FMT experiment, human donor’s bacterial functions related to IC deficits were associated with mPFC expression of one-carbon metabolism-related genes of recipient’s mice., [Conclusion]: These results highlight the importance of targeting obesity-related impulsive behaviour through the induction of gut microbiota shifts., This work was partially supported by research grants FIS (PI15/01934 and PI18/01022) from the Instituto de Salud Carlos III from Spain, SAF2015-65878-R and #AEI-SAF2017-84060-R-FEDER from Ministry of Economy and Competitiveness, Prometeo/2018/A/133 from Generalitat Valenciana, Spain; and also by Fondo Europeo de Desarrollo Regional (FEDER) funds, European Commission (FP7, NeuroPain #2013-602891), the Catalan Government (AGAUR, #SGR2017-669, ICREA Academia Award 2015), the Spanish Instituto de Salud Carlos III (RTA, #RD16/0017/0020), the Spanish Ministry of Science, Innovation and Universities (RTI2018-099200-B-I00), the Catalan Goverment (Agency for Management of University and Research Grants [2017SGR696] and Department of Health [STL002/16/00250]; the European Regional Development Fund (project No. 01.2.2-LMT-K-718-02-0014) under grant agreement with the Research Council of Lithuania (LMTLT); and the Project ThinkGut (EFA345/19) 65% co-financed by the European Regional Development Fund (ERDF) through the Interreg V-A SpainFrance-Andorra programme (POCTEFA 2014-2020). MA-R is funded by a predoctoral Río Hortega contract from the Instituto de Salud Carlos III (ISCIII, CM19/00190), co-funded by the European Social Fund “Investing in your future”. OC-R is funded by the Miguel Servet Program from the Instituto de Salud Carlos III (ISCIII CP20/00165), co-funded by the Europeran Social Fund "Investing in your future". JM-P is funded by the Miguel Servet Program from the Instituto de Salud Carlos III (ISCIII CP18/00009), co-funded by the European Social Fund “Investing in your future”. JS is funded by a predoctoral PERIS contract (SLT002/16/00250) from the Catalan Government. MJ is a professor under the “Serra Hunter” programme (Generalitat de Catalunya).

Published

2021

40. Cell Stress Induces Mislocalization of Transcription Factors with Mitochondrial Enrichment

Author

Manuel Portero-Otin, Mònica Povedano, Isidro Ferrer, Anna Fernàndez, Reinald Pamplona, Pascual Torres, Laia Fontdevila, Omar Ramírez-Núñez, Ana Belén Granado-Serrano, and Chiara Rossi

Subjects

MAPK/ERK pathway, Male, TDP-43, Subcellular fractionation, Mitochondrion, chemistry.chemical_compound, Mice, cell stress, Nervous system--Degeneration, Transgenic mice, Biology (General), Nuclear protein, Spectroscopy, Chemistry, REST, Malalties neurodegeneratives, aggregation, Brain, Neurodegenerative Diseases, General Medicine, Endoplasmic Reticulum Stress, Cell stress, Computer Science Applications, Cell biology, subcellular fractionation, Mitochondria, ERK, Female, Cell fractionation, Osmotic shock, QH301-705.5, Mice, Transgenic, transgenic mice, Catalysis, Article, Inorganic Chemistry, Protein metabolism, Aggregation, Epoxomicin, transcription factors, Transcription factors, Animals, Humans, Physical and Theoretical Chemistry, Mammary Glands, Human, QD1-999, Molecular Biology, Transcription factor, Jun, Organic Chemistry, Proteins--Metabolism, Oxidative Stress, Proteostasis, Metabolisme de proteïnes

Abstract

Previous evidence links the formation of extranuclear inclusions of transcription factors, such as ERK, Jun, TDP-43, and REST, with oxidative, endoplasmic-reticulum, proteasomal, and osmotic stress. To further characterize its extranuclear location, we performed a high-content screening based on confocal microscopy and automatized image analyses of an epithelial cell culture treated with hydrogen peroxide, thapsigargin, epoxomicin, or sorbitol at different concentrations and times to recreate the stresses mentioned above. We also performed a subcellular fractionation of the brain from transgenic mice overexpressing the Q331K-mutated TARDBP, and we analyzed the REST-regulated mRNAs. The results show that these nuclear proteins exhibit a mitochondrial location, together with significant nuclear/extranuclear ratio changes, in a protein and stress-specific manner. The presence of these proteins in enriched mitochondrial fractions in vivo confirmed the results of the image analyses. TDP-43 aggregation was associated with alterations in the mRNA levels of the REST target genes involved in calcium homeostasis, apoptosis, and metabolism. In conclusion, cell stress increased the mitochondrial translocation of nuclear proteins, increasing the chance of proteostasis alterations. Furthermore, TDP-43 aggregation impacts REST target genes, disclosing an exciting interaction between these two transcription factors in neurodegenerative processes. This research was funded by the Spanish Ministry of Economy and Competitiveness, Institute of Health Carlos III (PI 17–00134, PI20-0155) to M.P-O, from the Spanish Ministry ofScience, Innovation, and Universities (RTI2018-099200-B-I00), and the Generalitat of Catalonia (Agency for Management of University and Research Grants (2017SGR696) and Department ofHealth (SLT002/16/00250) to RP. PT was a predoctoral fellow from the Ministerio de Educacion(FPU16/01446). CR and LF held predoctoral fellowships “Ajuts 2020 & 2021 de Promocióde laRecerca en Salut -8ª edició” from IRBLleida/Diputacióde Lleida. Support was also received inthe form of a Fundación Española para el Fomento de la Investigación de la Esclerosis Lateral Amiotrófica (FUNDELA] Grant, RedELA-Plataforma Investigación, and the Fundació Miquel Valls (Jack Van den Hoek donation]. This study was co-financed by FEDER funds from the European Union (“A way to build Europe”). IRBLleida is funded by a Centres de Recerca de Catalunya (CERCA)Programme/Generalitat of Catalonia.

Published

2021

41. The Motor Neuron Disease Mouse Model hSOD1-G93A Presents a Non-canonical Profile of Senescence Biomarkers in the Spinal Cord

Author

Manuel Portero-Otin, Pol Andrés-Benito, Carlos Anerillas, Reinald Pamplona, Isidro Ferrer, Pascual Torres, Mario Encinas, Victoria Ayala, and Mònica Povedano

Subjects

Senescence, Text mining, medicine.anatomical_structure, Non canonical, business.industry, medicine, Disease, Motor neuron, Biology, business, Spinal cord, Neuroscience

Abstract

Recent evidence demonstrates a pathological role for senescent cells in Alzheimer’s and Parkinson’s diseases. The present study aimed to show senescence mechanisms including senescence-associated secretory phenotype (SASP) in the familial amyotrophic lateral sclerosis (ALS) transgenic mouse model hSOD1-G93A. We evaluated, as senescence biomarkers, the expression of p16 and p21 with reverse-transcriptase quantitative PCR (RT-qPCR), immunofluorescence (IF), and immunohistochemistry (IHC), as well as the senescence-associated β galactosidase (SA-β-gal) activity in the lumbar spinal cords (LSC) of this model. As SASP markers, we quantified the mRNA levels of Il1a, Il6, Ifna, and Ifnb. Furthermore, we explored if an alteration of alternative splicing is associated with senescence phenomena in this model. Thus, we quantified the Adipor2 cryptic exon inclusion levels, a specific splicing variant repressed by TAR-DNA binding of 43 kDa (TDP-43), using RT-qPCR. Our results show an atypical senescence-profile in LSC from transgenic mice, increasing p16 and p21 mRNA and protein levels in glial cells with a mostly cytoplasmic pattern, without the canonical increase in SA-beta-gal activity in these cells. Consistent with enhanced SASP, there is an increase in Il1a and Il6 expression. Also, TDP-43 splicing activity is compromised in this ALS model, in a direct relationship with the increase in p16 expression. However, senolytic drug Navitoclax -with reported benefits in Alzheimer and Parkinson disease mouse models - does not alter the present model’s disease progression. Navitoclax neither eliminates cells expressing senescence and nor represses the expression of SASP related genes. Globally, our findings support the existence of a non-canonical profile of senescence biomarkers in the LSC of the ALS model hSOD1-G93A.

Published

2020

42. Author response for 'Lipid alterations in human frontal cortex in ALS‐FTLD‐TDP43 proteinopathy spectrum are partly related to peroxisome impairment'

Author

Pol Andrés-Benito, Ellen Gelpi, Natalia Mota-Martorell, Mariona Jové, Èlia Obis, Aurora Pujol, Manuel Portero-Otin, Reinald Pamplona, Isidro Ferrer, and Mònica Povedano

Subjects

Frontal cortex, business.industry, Medicine, Peroxisome, business, Neuroscience

Published

2020

43. In Vivo Anti-Inflammatory Effects and Related Mechanisms of Processed Egg Yolk, a Potential Anti-Inflammaging Dietary Supplement

Author

José C. E. Serrano, Joan Cunill, Mariona Jové, Liliana Santos, Meritxell Martín-Gari, Clara Babot, and Manuel Portero-Otin

Subjects

Lipopolysaccharides, Male, 0301 basic medicine, Food Handling, medicine.medical_treatment, Anti-Inflammatory Agents, Pharmacology, fecundation, Mass Spectrometry, Mice, 0302 clinical medicine, cytokine, Fecundation, Cells, Cultured, Nutrition and Dietetics, biology, Chemistry, Lipidome, Egg Yolk, metabolomics, Cytokine, 030220 oncology & carcinogenesis, Metabolome, Cytokines, Intercellular Signaling Peptides and Proteins, Growth factors, lcsh:Nutrition. Foods and food supply, Platelet-derived growth factor receptor, Biological Availability, lcsh:TX341-641, Article, 03 medical and health sciences, In vivo, growth factors, medicine, Animals, Metabolomics, Inflammation, Growth factor, Rats, CTGF, RAW 264.7 Cells, 030104 developmental biology, inflammation, Dietary Supplements, Lipidomics, biology.protein, lipidomics, Ex vivo, Food Science

Abstract

Egg-yolk based supplements have demonstrated biological effects. We have developed a novel processed egg-yolk (PEY) complement, and we have tested whether it has inflammation modulatory properties. These were evaluated in a lipopolysaccharide (LPS)-challenge in 1-month male rats by in vivo circulating cytokine profiles measured by multiplexing techniques. Cell culture was used to explore ex vivo properties of derived serum samples. We explored growth factor composition, and mass-spectrometry metabolome and lipidome analyses of PEY to characterize it. PEY significantly prevented LPS-induced increase in IL-1 &beta, TNF-&alpha, and MCP-1. Further, serum from PEY-treated animals abrogated LPS-induced iNOS build-up of the Raw 264.7 macrophage-like cell line. Immunochemical analyses demonstrated increased concentrations of insulin-like growth factor 1 (IGF-1), connective tissue growth factor (CTGF), and platelet-derived growth factor (PDGF) in the extract. PEY vs. egg-yolk comparative metabolomic analyses showed significative differences in the concentrations of at least 140 molecules, and in 357 in the lipidomic analyses, demonstrating the complexity of PEY. Globally, PEY acts as an orally-bioavailable immunomodulatory extract that may be of interest in those conditions associated with disarranged inflammation, such as inflammaging.

Published

2020

44. Molecular phenomics of a high-calorie diet-induced porcine model of prepubertal obesity

Author

J. Tibau, José C. E. Serrano, Joaquim Puigjaner, Reinald Pamplona, M Rodrı́guez-Palmero, Lluís Arola, Manuel Portero-Otin, Joaquim Sol, Anna Castell, Maria Font-i-Furnols, Reyna Rodriguez-Mortera, Rebeca Berdún, Joan Prat, Meritxell Martín-Gari, Anna Crescenti, Raquel Quintanilla, Josep Manuel Fernández-Real, Mariona Jové, Mònica Sabater, E. Fàbrega, Helene Rassendren, Francisco J. Ortega, Anna Cassanyé, Jose A. Moreno, Producció Animal, Genètica i Millora Animal, Benestar Animal, and Qualitat i Tecnologia Alimentària

Subjects

0301 basic medicine, medicine.medical_specialty, Pediatric Obesity, Calorie, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Adipose tissue, 030209 endocrinology & metabolism, Preclinical models, Biology, Diet, High-Fat, Biochemistry, 03 medical and health sciences, Eating, 0302 clinical medicine, Insulin resistance, Internal medicine, Lipidomics, medicine, Animals, Humans, Metabolomics, Phenomics, Molecular Biology, Triglycerides, Adiposity, Nutrition and Dietetics, Puberty, Lipidome, medicine.disease, Obesity, Monoacylglycerol lipase, Disease Models, Animal, 030104 developmental biology, Endocrinology, Leukocytes, Mononuclear, Female, medicine.symptom, Weight gain, Biomarkers

Abstract

As obesity incidence is alarmingly rising among young individuals, we aimed to characterize an experimental model of this situation, considering the similarity between human and porcine physiology. For this reason, we fed prepubertal (63 days old) Duroc breed females (n=21) either with a standard growth diet (3800 kcal/day) or one with a high-calorie content (5200 kcal/day) during 70 days. Computerized tomography, mass-spectrometry-based metabolomics and lipidomics, as well as peripheral blood mononuclear cell transcriptomics, were applied to define traits linked to high-calorie intake. Samples from a human cohort confirmed potential lipidomic markers. Compared to those fed a standard growth diet, pigs fed a high-calorie diet showed an increased weight gain (13%), much higher adiposity (53%), hypertriacylglyceridemia and hypercholesterolemia in parallel to insulin resistance. This diet induced marked changes in the circulating lipidome, particularly in phosphatidylethanolamine-type molecules. Also, circulating specific diacylglycerol and monoacylglycerol contents correlated with visceral fat and intrahepatic triacylglycerol concentrations. Specific lipids associated with obesity in swine (mainly belonging to glycerophospholipid, triacylglyceride and sterol classes) were also linked with obesity traits in the human cohort, reinforcing the usefulness of the chosen approach. Interestingly, no overt inflammation in plasma or adipose tissue was evident in this model. The presented model is useful as a preclinical surrogate of prepubertal obesity in order to ascertain the pathophysiology interactions between energy intake and obesity development. Supported by Centro para el Desarrollo Tecnológico e Industrial, Spain, Project reference: IPT-20111008, and Generalitat de Catalunya grants 2017SGR1719 and 2017SGR696. MJ is a "Serra Hunter" program fellow. Supported by Instituto de Salud Carlos III, Spain, Project reference: 17-00134, co-financed by FEDER Funds A way to make Europe.

Published

2020

45. Dietary intake of bioactive ingredients impacts liver and adipose tissue transcriptomes in a porcine model of prepubertal early obesity

Author

Raquel Quintanilla, José Antonio Moreno-Muñoz, M Rodrı́guez-Palmero, Manuel Portero-Otin, Maria Ballester, Francisco J. Ortega, José C. E. Serrano, Anna Cassanyé, J. Tibau, Producció Animal, and Genètica i Millora Animal

Subjects

0301 basic medicine, Pediatric Obesity, Swine, ved/biology.organism_classification_rank.species, lcsh:Medicine, Adipose tissue, Bifidobacterium breve, Weight Gain, chemistry.chemical_compound, 0302 clinical medicine, Adipocytes, lcsh:Science, Beta oxidation, Multidisciplinary, Adipogenesis, Cholesterol, Adipose Tissue, Liver, Lipogenesis, Female, medicine.symptom, medicine.medical_specialty, Lipolysis, 030209 endocrinology & metabolism, Biology, Diet, High-Fat, Childhood obesity, Article, 03 medical and health sciences, Internal medicine, Fatty Acids, Omega-3, medicine, Animals, Obesity, ved/biology, lcsh:R, Body Weight, medicine.disease, Lipid Metabolism, Disease Models, Animal, 030104 developmental biology, Endocrinology, chemistry, Dietary Supplements, lcsh:Q, Gene expression, Transcriptome, Weight gain

Abstract

Global prevalence of obesity has increased to epidemic proportions over the past 40 years, with childhood obesity reaching alarming rates. In this study, we determined changes in liver and adipose tissue transcriptomes of a porcine model for prepubertal early obesity induced by a high-calorie diet and supplemented with bioactive ingredients. A total of 43 nine-weeks-old animals distributed in four pens were fed with four different dietary treatments for 10 weeks: a conventional diet; a western-type diet; and a western-type diet with Bifidobacterium breve and rice hydrolysate, either adding or not omega-3 fatty acids. Animals fed a western-type diet increased body weight and total fat content and exhibited elevated serum concentrations of cholesterol, whereas animals supplemented with bioactive ingredients showed lower body weight gain and tended to accumulate less fat. An RNA-seq experiment was performed with a total of 20 animals (five per group). Differential expression analyses revealed an increase in lipogenesis, cholesterogenesis and inflammatory processes in animals on the western-type diet while the supplementation with bioactive ingredients induced fatty acid oxidation and cholesterol catabolism, and decreased adipogenesis and inflammation. These results reveal molecular mechanisms underlying the beneficial effects of bioactive ingredient supplementation in an obese pig model. This work was supported by CDTI (Centro para el desarrollo Tecnológico e Industrial, Spain), Project reference: IPT-20111008, and Generalitat de Catalunya grant 2017SGR1719. M. Ballester is financially supported by a Ramon y Cajal contract (RYC-2013-12573) from the Spanish Ministry of Economy and Competitiveness. We wish to thank all of the members of the IRTA institution who contributed to the generation of the animal material used in this work.

Published

2020

46. Lipidomic profiling identifies signatures of metabolic risk

Author

Joshua Keefe, Aram Adourian, Ayse Demirkan, Dolores Corella, Valentin Fuster, Christine M. Willinger, Mariona Jové, Daniel Levy, Xiaoyan Yin, Cornelia M. van Duijn, Martin G. Larson, Borja Ibanez, Paul Courchesne, José L. Peñalvo, Manuel Portero-Otin, Jose M. Ordovas, Jun Liu, George Chen, Reinald Pamplona, Antonio Fernández-Ortiz, Epidemiology, National Institutes of Health (Estados Unidos), NIH - National Heart, Lung, and Blood Institute (NHLBI) (Estados Unidos), Centro Nacional de Investigaciones Cardiovasculares Carlos III (España), Banco Santander, Instituto de Salud Carlos III, Fundación ProCNIC, Ministerio de Ciencia, Innovación y Universidades (España), AstraZeneca, United States Department of Agriculture, Ministerio de Economía y Competitividad (España), Unión Europea. Fondo Europeo de Desarrollo Regional (FEDER/ERDF), and Government of Catalonia (España)

Subjects

Male, 0301 basic medicine, Research paper, dhSL, dihydrosphingolipid, BMI, body mass index, lcsh:Medicine, ATHEROGENIC LIPOPROTEINS, Bioinformatics, FHS, Framingham Heart Study, PC, phosphatidylcholine, PESA, Progression of Early Subclinical Atherosclerosis, 0302 clinical medicine, Framingham Heart Study, Risk Factors, SAFHS, San Antonio Family Heart Study, LC-MS/MS, liquid chromatography-tandem mass spectrometry, Medicine, Longitudinal Studies, Metabolic risk, PLASMA SPHINGOLIPID METABOLISM, POPULATION, lcsh:R5-920, education.field_of_study, SPHINGOMYELIN, CE, cholesteryl ester, Dysglycemia, General Medicine, Middle Aged, Lipidome, PS, phosphatidylserine, Cardiovascular disease, Lipids, Metabolic syndrome, 3. Good health, CARDIOVASCULAR-DISEASE, 030220 oncology & carcinogenesis, HEART, MetS, metabolic syndrome, Female, Disease Susceptibility, LGPL, lysoglycerophospholipid, SL, sphingolipid, lcsh:Medicine (General), LPE, lysophosphatidylethanolamine, Adult, FDR, false discovery rate, TAG, triacylglycerol, Population, Cer, ceramide, CVD, cardiovascular disease, PE, phosphatidylethanolamine, DENSITY-LIPOPROTEIN, Risk Assessment, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Animals, Humans, education, T2DM, type II diabetes mellitus, Aged, LPC, lysophosphatidylcholine, SM, sphingomyelin, business.industry, CERAMIDE, lcsh:R, HDL-C, High density lipoprotein cholesterol, Biomarker, Lipid Metabolism, medicine.disease, Obesity, Sphingolipid, Cross-Sectional Studies, 030104 developmental biology, Dyslipidemia, ERF, Erasmus Family Study, Lipidomics, INDUCED INSULIN-RESISTANCE, business, DAG, diacylglycerol, Body mass index, Biomarkers, MRM, multiple reaction monitoring, FASTING GLUCOSE

Abstract

Background: Metabolic syndrome (MetS), the clustering of metabolic risk factors, is associated with cardiovascular disease risk. We sought to determine if dysregulation of the lipidome may contribute to metabolic risk factors. Methods: We measured 154 circulating lipid species in 658 participants from the Framingham Heart Study (FHS) using liquid chromatography-tandem mass spectrometry and tested for associations with obesity, dysglycemia, and dyslipidemia. Independent external validation was sought in three independent cohorts. Follow-up data from the FHS were used to test for lipid metabolites associated with longitudinal changes in metabolic risk factors. Results: Thirty-nine lipids were associated with obesity and eight with dysglycemia in the FHS. Of 32 lipids that were available for replication for obesity and six for dyslipidemia, 28 (88%) replicated for obesity and five (83%) for dysglycemia. Four lipids were associated with longitudinal changes in body mass index and four were associated with changes in fasting blood glucose in the FHS. Conclusions: We identified and replicated several novel lipid biomarkers of key metabolic traits. The lipid moieties identified in this study are involved in biological pathways of metabolic risk and can be explored for prognostic and therapeutic utility. The Framingham Heart Study is funded by National Institutes of Health (NIH) contract N01-HC-25195. This study was made possible by a CRADA between BG Medicine, Inc., Boston University, and the NHLBI, and the laboratory work for this research was supported by the Division of Intramural Research of the National Heart, Lung, and Blood Institute (NHLBI). Analytical work was funded by the Division of Intramural Research of NHLBI as well as the Center for Information Technology, NIH, Bethesda, MD. The views expressed in this manuscript are those of the authors and do not necessarily represent the views of the National Heart, Lung, and Blood Institute; the National Institutes of Health; or the U.S. Department of Health and Human Services. The PESA study is supported by a non-competitive unrestricted grant shared between the National Center for Cardiovascular Research Carlos III (CNIC) and the Bank of Santander. The PESA study is a noncommercial study independent of the health and pharmaceutical industry. The CNIC is supported by the Spanish Ministry of Science, Innovation and Universities, the Instituto de Salud Carlos III, and the proCNIC Foundation. The study was partially funded by a grant from AstraZeneca (TANSNIP project). JMO is supported by the US Department of Agriculture, under agreement no. 8050-51000-098-00D. MPO and MJ acknowledge an Institute of Health Carlos III grant (PI 17-00134). This research was in part funded by the Spanish Ministry of Economy and Competitiveness, Institute of Health Carlos III (PI14/00328), co-financed by FEDER funds from the European Union (‘A way to built Europe’), and the Generalitat of Catalonia, Department of Health(SLT002/16/00250) and Department of Business and Knowledge(2017SGR696) to R.P. MJ is a Serra Húnter Fellow.

Published

2020

47. Gut bacterial ClpB-like gene function is associated with decreased body weight and a characteristic microbiota profile

Author

Andrés Moya, Aurelijus Burokas, Vicente Pérez-Brocal, María Arnoriaga-Rodríguez, Rafael Maldonado, Jordi Mayneris-Perxachs, Manuel Portero-Otin, José Manuel Fernández-Real, Wifredo Ricart, Instituto de Salud Carlos III, Ministerio de Economía y Competitividad (España), Generalitat Valenciana, European Commission, Generalitat de Catalunya, and Institución Catalana de Investigación y Estudios Avanzados

Subjects

Male, Rikenellaceae, Gut flora, Prevotellaceae, medicine.disease_cause, Feces, Mice, 0302 clinical medicine, Overweight persons, Clostridiaceae, 2. Zero hunger, 0303 health sciences, Intestins -- Malalties, Endopeptidase Clp, Fecal Microbiota Transplantation, Middle Aged, Persones obeses, 3. Good health, Intestins -- Microbiologia, lcsh:QR100-130, Female, Intestines -- Diseases, Adult, Microbiology (medical), medicine.medical_specialty, Firmicutes, Biology, Intestines -- Microbiology, digestive system, Microbiology, lcsh:Microbial ecology, 03 medical and health sciences, Internal medicine, medicine, Animals, Humans, Microbiome, Obesity, Bacterial gene function, Escherichia coli, Aged, 030304 developmental biology, Bacteria, Research, Body weight regulation, biology.organism_classification, Gastrointestinal Microbiome, Mice, Inbred C57BL, Cross-Sectional Studies, Endocrinology, Case-Control Studies, CLPB, 030217 neurology & neurosurgery

Abstract

[Background]: The chaperone ClpB, a bacterial protein, is a conformational antigen-mimetic of α-melanocyte-stimulating hormone (α-MSH) implicated in body weight regulation in mice. We here investigated the potential associations of gut bacterial ClpB-like gene function with obesity status and gut microbiota in humans., [Results]: Gut microbiota ClpB KEGG function was negatively associated with body mass index, waist circumference, and total fat mass (DEXA). The relative abundance (RA) of several phyla and families directly associated with ClpB was decreased in subjects with obesity. Specifically, the RA of Rikenellaceae, Clostridiaceae and not assigned Firmicutes were lower in subjects with obesity and positively associated with gut bacterial ClpB-like gene function (not assigned Firmicutes (r = 0.405, FDR = 2.93 × 10−2), Rikenellaceae (r = 0.217, FDR = 0.031), and Clostridiaceae (r = 0.239, FDR = 0.017)). The gut bacterial ClpB-like gene function was also linked to specific plasma metabolites (hippuric acid and 3-indolepropionic acid) and fecal lupeol. The α-MSH-like epitope similar to that of Escherichia coli ClpB was also identified in some sequences of those bacterial families. After fecal transplantation from humans to mice, the families that more contributed to ClpB-like gene function in humans were also associated with ClpB-like gene function in mice after adjusting for the donor’s body mass index (not assigned Firmicutes (r = 0.621, p = 0.003), Prevotellaceae (r = 0.725, p = 4.1 × 10−7), Rikenellaceae (r = 0.702, p = 3.9 × 10−4), and Ruminococcaceae (r = 0.526, p = 0.014)). Clostridiaceae (r = − 0.445, p = 0.038) and Prevotellaceae RA (r = − 0.479, p = 0.024) and were also negatively associated with weight gain in mice. The absolute abundance (AA) of Prevotellaceae in mice was also positively associated with the gut bacterial ClpB-like gene function in mice. DESeq2 identified species of Prevotellaceae, both negatively associated with mice’ weight gain and positively with gut bacterial ClpB-like gene function., [Conclusions]: In summary, gut bacterial ClpB-like gene function is associated with obesity status, a specific gut microbiota composition and a plasma metabolomics profile in humans that could be partially transplanted to mice., This work was partially supported by research grants FIS (PI15/01934) from the Instituto de Salud Carlos III from Spain, SAF2015-65878-R from Ministry of Economy and Competitiveness, Prometeo/2018/A/133 from Generalitat Valenciana, Spain and also by Fondo Europeo de Desarrollo Regional (FEDER) funds, European Commission (FP7, NeuroPain #2013-602891), the Catalan Government (AGAUR, #SGR2017-669, ICREA Academia Award 2015), the Instituto de Salud Carlos III (RTA, #RD16/0017/0020), and the European Regional Development Fund (No. 01.2.2-LMT-K-718-02-0014). María Arnoriaga-Rodríguez is funded by Instituto de Salud Carlos III, Río Hortega (CP19/00190). Jordi Mayneris-Perxachs is funded by Instituto de Salud Carlos III, Miguel Servet (CP18/00009). The project has also been 65% cofinanced by the European Regional Development Fund (ERDF) through the Interreg V-A Spain-France-Andorra programme (POCTEFA 2014-2020). POCTEFA aims to reinforce the economic and social integration of the French–Spanish–Andorran border. Its support is focused on developing economic, social and environmental cross-border activities through joint strategies favouring sustainable territorial development.

Published

2020

48. Gender-Specific Beneficial Effects of Docosahexaenoic Acid Dietary Supplementation in G93A-SOD1 Amyotrophic Lateral Sclerosis Mice

Author

Jordi Boada, Reinald Pamplona, Jèssica Pairada, Manuel Portero-Otin, Chiara Rossi, Victoria Ayala, B. Brett Finlay, Laia Fontdevila, Kylynda C. Bauer, Daniel Cacabelos, Mònica Povedano, Isidre Ferrer, and Pascual Torres

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Docosahexaenoic Acids, SOD1, Excitotoxicity, Mice, Transgenic, medicine.disease_cause, Neuroprotection, 03 medical and health sciences, 0302 clinical medicine, Sex Factors, Essential fatty acid, Internal medicine, medicine, Animals, Pharmacology (medical), Amyotrophic lateral sclerosis, Pharmacology, chemistry.chemical_classification, Motor Neurons, Sex Characteristics, business.industry, Amyotrophic Lateral Sclerosis, Motor neuron, medicine.disease, Disease Models, Animal, Oxidative Stress, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, chemistry, Spinal Cord, Docosahexaenoic acid, Dietary Supplements, Female, Original Article, Neurology (clinical), business, 030217 neurology & neurosurgery, Polyunsaturated fatty acid

Abstract

Docosahexaenoic acid (DHA) is an essential fatty acid modulating key nervous system functions, including neuroinflammation, and regulation of pre- and postsynaptic membrane formation. DHA concentration decreases in the lumbar spinal cord (LSC) of amyotrophic lateral sclerosis (ALS) patients and murine preclinical models. Using a dietary supplementation, we increased DHA levels (2% mean increase, p

Published

2019

49. Adipose TSHB in Humans and Serum TSH in Hypothyroid Rats Inform About Cellular Senescence

Author

Jèssica Latorre, Mariona Jové, Mònica Sabater, Manuel Portero-Otin, Francisco J. Ortega, José María Moreno-Navarrete, Ferran Comas, José Manuel Fernández-Real, Laura Liñares-Pose, Wifredo Ricart, Eva Rial-Pensado, and Miguel López

Subjects

Adult, Blood Glucose, Male, 0301 basic medicine, Senescence, endocrine system, medicine.medical_specialty, endocrine system diseases, Physiology, Subcutaneous Fat, Thyrotropin, Thyroid-stimulating hormone, Adipose tissue, Thyrotropin, beta Subunit, White adipose tissue, Intra-Abdominal Fat, Biology, Cellular senescence, lcsh:Physiology, Rats, Sprague-Dawley, lcsh:Biochemistry, 03 medical and health sciences, Hypothyroidism, Internal medicine, Gene expression, medicine, Animals, Humans, lcsh:QD415-436, Euthyroid, bcl-2-Associated X Protein, lcsh:QP1-981, Telomere Homeostasis, Middle Aged, Rats, Telomere, 030104 developmental biology, Endocrinology, Gene Expression Regulation, Hormones tiroides, Female, Tumor necrosis factor alpha, Tumor Suppressor Protein p53, Euthyroidism, Biomarkers, hormones, hormone substitutes, and hormone antagonists, Hipotiroïdisme

Abstract

Background/Aims: Thyroid hormones have been recently linked to senescence and longevity. Given the recent description of TSHB mRNA in human adipose tissue (AT), we aimed to investigate the relationship between local AT TSH and adipose tissue senescence. Methods: TSHB mRNA (measured by real-time PCR) and markers of adipose tissue senescence [BAX, DBC1, TP53, TNF (real-time PCR), telomere length (Telo TAGGG Telomere Length Assay) and lipidomics (liquid chromatography mass spectrometry)] were analysed in subcutaneous (SAT) and visceral (VAT) AT from euthyroid subjects. The chronic effects of TSH were also investigated in AT from hypothyroid rats and after recombinant human TSH (rhTSH) administration in human adipocytes. Results: Both VAT and SAT TSHB gene expression negatively correlated with markers of AT cellular senescence (BAX, DBC1, TP53, TNF gene expression and specific glucosylceramides) and positively associated with telomere length. Supporting these observations, both rhTSH administration in human adipocytes and increased TSH in hypothyroid rats resulted in decreased markers of cellular senescence (Bax and Tp53 mRNA) in both gonadal and subcutaneous white adipose tissue. Conclusion: These data point to a possible role of TSH in AT cellular senescence. This work was partially supported by research grant PI15/01934 and PI16/01173 from the Instituto de Salud Carlos III from Spain and was also supported by Fondo Europeo de Desarrollo Regional (FEDER); Xunta de Galicia (ML: 2015-CP079), Ministry of Economy and Competitiveness (ML: SAF2015-71026-R) and AtresMedia. CIBEROBN Fisiopatología de la Obesidad y Nutrición is an initiative from the Instituto de Salud Carlos III from Spain. We acknowledge the technical assistance of E. Loshuertos and O. Rovira (both from Endocrinology, IdIBGi, Spain). We want to particularly acknowledge the patients, the FATBANK platform promoted by the CIBEROBN and the IDIBGI Biobank (Biobanc IDIBGI, B.0000872), integrated in the Spanish National Biobanks Network, for their collaboration and coordination.

Published

2018

50. Age-Related Changes in Lipidome of Rat Frontal Cortex and Cerebellum Are Partially Reversed by Methionine Restriction Applied in Old Age

Author

Manuel Portero-Otin, Reinald Pamplona, Èlia Obis, Joaquim Sol, José Daniel Galo-Licona, Victoria Ayala, Meritxell Martín-Gari, Paula Ramos, Mariona Jové, Pascual Torres, Rosanna Cabré, Natalia Mota-Martorell, Iván Canales, Lara Nogueras, and Isidro Ferrer

Subjects

Aging, Cerebellum, (lip)oxidation-derived protein damage markers, chemistry.chemical_compound, Methionine, Biology (General), Spectroscopy, mass spectrometry, glycerophospholipids, chemistry.chemical_classification, Chromatography, medicine.diagnostic_test, Chemistry, Brain, General Medicine, (Lip)oxidation-derived protein damage markers, Lipidome, Lipids, Frontal Lobe, Computer Science Applications, medicine.anatomical_structure, medicine.medical_specialty, QH301-705.5, Glycerophospholipids, Article, Catalysis, Inorganic Chemistry, Envelliment, Internal medicine, medicine, Animals, Humans, Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Phosphatidylethanolamine, Sphingolipids, sphingolipids, methionine restriction, Mass spectrometry, Cholesterol, aging, Organic Chemistry, glycerolipids, Glycerolipids, Fatty acid, Sphingolipid, Rats, Sterol lipids, Oxidative Stress, Endocrinology, sterol lipids, Lípids, Lipidomics, Reactive Oxygen Species, Lipid profile, Methionine restriction, Esfingolípids

Abstract

Lipids are closely associated with brain structure and function. However, the potential changes in the lipidome induced by aging remain to be elucidated. In this study, we used chromatographic techniques and a mass spectrometry-based approach to evaluate age-associated changes in the lipidome of the frontal cortex and cerebellum obtained from adult male Wistar rats (8 months), aged male Wistar rats (26 months), and aged male Wistar rats submitted to a methionine restriction diet (MetR) as an anti-aging intervention for 8 weeks. The outcomes revealed that only small changes (about 10%) were observed in the lipidome profile in the cerebellum and frontal cortex during aging, and these changes differed, in some cases, between regions. Furthermore, a MetR diet partially reversed the effects of the aging process. Remarkably, the most affected lipid classes were ether-triacylglycerols, diacylglycerols, phosphatidylethanolamine N-methylated, plasmalogens, ceramides, and cholesterol esters. When the fatty acid profile was analyzed, we observed that the frontal cortex is highly preserved during aging and maintained under MetR, whereas in the cerebellum minor changes (increased monounsaturated and decreased polyunsaturated contents) were observed and not reversed by MetR. We conclude that the rat cerebellum and frontal cortex have efficient mechanisms to preserve the lipid profile of their cell membranes throughout their adult lifespan in order to maintain brain structure and function. A part of the small changes that take place during aging can be reversed with a MetR diet applied in old age. This research was funded by the Spanish Ministry of Science, Innovation, and Universities (grant RTI2018-099200-B-I00), and the Generalitat of Catalonia: Agency for Management of University and Research Grants (2017SGR696) to R.P.; and from Spanish Ministry of Economy and Competitiveness, Institute of Health Carlos III (PI20-0155) to M.P.-O. This study was co-financed by FEDER funds from the European Union (“A way to build Europe”). IRBLleida is a CERCA Programme/Generalitat of Catalonia.

Published

2021