Your search keyword '"Gloria Garrabou"' showing total 35 results

1. Inflammatory macrophages reprogram to immunosuppression by reducing mitochondrial translation

Author

Marlies Cortés, Agnese Brischetto, M. C. Martinez-Campanario, Chiara Ninfali, Verónica Domínguez, Sara Fernández, Raquel Celis, Anna Esteve-Codina, Juan J. Lozano, Julia Sidorova, Gloria Garrabou, Anna-Maria Siegert, Carlos Enrich, Belén Pintado, Manuel Morales-Ruiz, Pedro Castro, Juan D. Cañete, and Antonio Postigo

Subjects

Science

Abstract

Abstract Acute inflammation can either resolve through immunosuppression or persist, leading to chronic inflammation. These transitions are driven by distinct molecular and metabolic reprogramming of immune cells. The anti-diabetic drug Metformin inhibits acute and chronic inflammation through mechanisms still not fully understood. Here, we report that the anti-inflammatory and reactive-oxygen-species-inhibiting effects of Metformin depend on the expression of the plasticity factor ZEB1 in macrophages. Using mice lacking Zeb1 in their myeloid cells and human patient samples, we show that ZEB1 plays a dual role, being essential in both initiating and resolving inflammation by inducing macrophages to transition into an immunosuppressed state. ZEB1 mediates these diverging effects in inflammation and immunosuppression by modulating mitochondrial content through activation of autophagy and inhibition of mitochondrial protein translation. During the transition from inflammation to immunosuppression, Metformin mimics the metabolic reprogramming of myeloid cells induced by ZEB1. Mechanistically, in immunosuppression, ZEB1 inhibits amino acid uptake, leading to downregulation of mTORC1 signalling and a decrease in mitochondrial translation in macrophages. These results identify ZEB1 as a driver of myeloid cell metabolic plasticity, suggesting that targeting its expression and function could serve as a strategy to modulate dysregulated inflammation and immunosuppression.

Published

2023

2. Coordinated local RNA overexpression of complement induced by interferon gamma in myositis

Author

Maria Casal-Dominguez, Iago Pinal-Fernandez, Katherine Pak, Sandra Muñoz-Braceras, Jose C. Milisenda, Jiram Torres-Ruiz, Stefania Dell′Orso, Faiza Naz, Gustavo Gutierrez-Cruz, Yaiza Duque-Jaimez, Ana Matas-Garcia, Laura Valls-Roca, Gloria Garrabou, Ernesto Trallero-Araguas, Brian Walitt, Lisa Christopher-Stine, Thomas E. Lloyd, Julie J. Paik, Jemima Albayda, Andrea Corse, Josep Maria Grau, Albert Selva-O’Callaghan, and Andrew L. Mammen

Subjects

Medicine, Science

Abstract

Abstract Complement proteins are deposited in the muscles of patients with myositis. However, the local expression and regulation of complement genes within myositis muscle have not been well characterized. In this study, bulk RNA sequencing (RNAseq) analyses of muscle biopsy specimens revealed that complement genes are locally overexpressed and correlate with markers of myositis disease activity, including the expression of interferon-gamma (IFNγ)-induced genes. Single cell and single nuclei RNAseq analyses showed that most local expression of complement genes occurs in macrophages, fibroblasts, and satellite cells, with each cell type expressing different sets of complement genes. Biopsies from immune-mediated necrotizing myopathy patients, who have the lowest levels of IFNγ-induced genes, also had the lowest complement gene expression levels. Furthermore, data from cultured human cells showed that IFNγ upregulates complement expression in macrophages, fibroblasts, and muscle cells. Taken together, our results suggest that in myositis muscle, IFNγ coordinates the local overexpression of complement genes that occurs in several cell types.

Published

2023

3. The antioxidant l-Ergothioneine prevents cystine lithiasis in the Slc7a9−/− mouse model of cystinuria

Author

Clara Mayayo-Vallverdú, Miguel López de Heredia, Esther Prat, Laura González, Meritxell Espino Guarch, Clara Vilches, Lourdes Muñoz, Miguel A. Asensi, Carmen Serra, Amadeu Llebaria, Mercedes Casado, Rafael Artuch, Gloria Garrabou, Pablo M. Garcia-Roves, Federico V. Pallardó, and Virginia Nunes

Subjects

Cystinuria, l-Ergothioneine, Cystine lithiasis, Antioxidant, Oxidative stress, Treatment, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The high recurrence rate of cystine lithiasis observed in cystinuria patients highlights the need for new therapeutic options to address this chronic disease. There is growing evidence of an antioxidant defect in cystinuria, which has led to test antioxidant molecules as new therapeutic approaches. In this study, the antioxidant l-Ergothioneine was evaluated, at two different doses, as a preventive and long-term treatment for cystinuria in the Slc7a9−/− mouse model. l-Ergothioneine treatments decreased the rate of stone formation by more than 60% and delayed its onset in those mice that still developed calculi. Although there were no differences in metabolic parameters or urinary cystine concentration between control and treated mice, cystine solubility was increased by 50% in the urines of treated mice. We also demonstrate that l-Ergothioneine needs to be internalized by its transporter OCTN1 (Slc22a4) to be effective, as when administrated to the double mutant Slc7a9−/−Slc22a4−/− mouse model, no effect on the lithiasis phenotype was observed. In kidneys, we detected a decrease in GSH levels and an impairment of maximal mitochondrial respiratory capacity in cystinuric mice that l-Ergothioneine treatment was able to restore. Thus, l-Ergothioneine administration prevented cystine lithiasis in the Slc7a9−/− mouse model by increasing urinary cystine solubility and recovered renal GSH metabolism and mitochondrial function. These results support the need for clinical trials to test l-Ergothioneine as a new treatment for cystinuria.

Published

2023

4. Telomere Length but Not Mitochondrial DNA Copy Number Is Altered in Both Young and Old COPD

Author

Sandra Casas-Recasens, Nuria Mendoza, Alejandra López-Giraldo, Tamara Garcia, Borja G. Cosio, Sergi Pascual-Guardia, Ady Acosta-Castro, Alicia Borras-Santos, Joaquim Gea, Gloria Garrabou, Alvar Agusti, and Rosa Faner

Subjects

telomeres, mitochondrial DNA, chronic bronchitis, emphysema, ageing, Medicine (General), R5-920

Abstract

Accelerated ageing is implicated in the pathogenesis of respiratory diseases as chronic obstructive pulmonary disease (COPD), but recent evidence indicates that the COPD can have roots early in life. Here we hypothesise that the accelerated ageing markers might have a role in the pathobiology of young COPD. The objective of this study was to compare two hallmarks of ageing, telomere length (TL), and mitochondrial DNA copy number (mtDNA-CN, as a surrogate marker of mitochondrial dysfunction) in young (≤ 50 years) and old (>50 years) smokers, with and without COPD. Both, TL and mtDNA-CN were measured in whole blood DNA by quantitative PCR [qPCR] in: (1) young ever smokers with (n = 81) or without (n = 166) COPD; and (2) old ever smokers with (n = 159) or without (n = 29) COPD. A multivariable linear regression was used to assess the association of TL and mtDNA-CN with lung function. We observed that in the entire study population, TL and mtDNA-CN decreased with age, and the former but not the latter related to FEV1/FVC (%), FEV1 (% ref.), and DLCO (% ref.). The short telomeres were found both in the young and old patients with severe COPD (FEV1

Published

2021

5. Bioenergetic and Autophagic Characterization of Skin Fibroblasts from C9orf72 Patients

Author

Maria Isabel Alvarez-Mora, Gloria Garrabou, Tamara Barcos, Francisco Garcia-Garcia, Ruben Grillo-Risco, Emma Peruga, Laura Gort, Sergi Borrego-Écija, Raquel Sanchez-Valle, Judith Canto-Santos, Paula Navarro-Navarro, and Laia Rodriguez-Revenga

Subjects

C9orf72, autophagy, SUMOlyation, bioenergetics, Therapeutics. Pharmacology, RM1-950

Abstract

The objective of this study is to describe the alterations occurring during the neurodegenerative process in skin fibroblast cultures from C9orf72 patients. We characterized the oxidative stress, autophagy flux, small ubiquitin-related protein SUMO2/3 levels as well as the mitochondrial function in skin fibroblast cultures from C9orf72 patients. All metabolic and bioenergetic findings were further correlated with gene expression data obtained from RNA sequencing analysis. Fibroblasts from C9orf72 patients showed a 30% reduced expression of C9orf72, ~3-fold increased levels of oxidative stress and impaired mitochondrial function obtained by measuring the enzymatic activities of mitochondrial respiratory chain complexes, specifically of complex III activity. Furthermore, the results also reveal that C9orf72 patients showed an accumulation of p62 protein levels, suggesting the alteration of the autophagy process, and significantly higher protein levels of SUMO2/3 (p = 0.03). Our results provide new data reinforcing that C9orf72 cells suffer from elevated oxidative damage to biomolecules and organelles and from increased protein loads, leading to insufficient autophagy and an increase in SUMOylation processes.

Published

2022

6. Mitochondrial Toxicogenomics for Antiretroviral Management: HIV Post-exposure Prophylaxis in Uninfected Patients

Author

Maria Bañó, Constanza Morén, Sergio Barroso, Diana Luz Juárez, Mariona Guitart-Mampel, Ingrid González-Casacuberta, Judith Canto-Santos, Ester Lozano, Agathe León, Enric Pedrol, Òscar Miró, Ester Tobías, Josep Mallolas, Jhon F. Rojas, Francesc Cardellach, Esteban Martínez, and Gloria Garrabou

Subjects

ART, HIV, mitochondria, mtDNA, PEP, Genetics, QH426-470

Abstract

Background: Mitochondrial genome has been used across multiple fields in research, diagnosis, and toxicogenomics. Several compounds damage mitochondrial DNA (mtDNA), including biological and therapeutic agents like the human immunodeficiency virus (HIV) but also its antiretroviral treatment, leading to adverse clinical manifestations. HIV-infected and treated patients may show impaired mitochondrial and metabolic profile, but specific contribution of viral or treatment toxicity remains elusive. The evaluation of HIV consequences without treatment interference has been performed in naïve (non-treated) patients, but assessment of treatment toxicity without viral interference is usually restricted to in vitro assays.Objective: The objective of the present study is to determine whether antiretroviral treatment without HIV interference can lead to mtDNA disturbances. We studied clinical, mitochondrial, and metabolic toxicity in non-infected healthy patients who received HIV post-exposure prophylaxis (PEP) to prevent further infection. We assessed two different PEP regimens according to their composition to ascertain if they were the cause of tolerability issues and derived toxicity.Methods: We analyzed reasons for PEP discontinuation and main secondary effects of treatment withdrawal, mtDNA content from peripheral blood mononuclear cells and metabolic profile, before and after 28 days of PEP, in 23 patients classified depending on PEP composition: one protease inhibitor (PI) plus Zidovudine/Lamivudine (PI plus AZT + 3TC; n = 9) or PI plus Tenofovir/Emtricitabine (PI plus TDF + FTC; n = 14).Results: Zidovudine-containing-regimens showed an increased risk for drug discontinuation (RR = 9.33; 95% CI = 1.34–65.23) due to adverse effects of medication related to gastrointestinal complications. In the absence of metabolic disturbances, 4-week PEP containing PI plus AZT + 3TC led to higher mitochondrial toxicity (−17.9 ± 25.8 decrease in mtDNA/nDNA levels) than PI plus TDF + FTC (which increased by 43.2 ± 24.3 units mtDNA/nDNA; p < 0.05 between groups). MtDNA changes showed a significant and negative correlation with baseline alanine transaminase levels (p < 0.05), suggesting that a proper hepatic function may protect from antiretroviral toxicity.Conclusions: In absence of HIV infection, preventive short antiretroviral treatment can cause secondary effects responsible for treatment discontinuation and subclinical mitochondrial damage, especially pyrimidine analogs such as AZT, which still rank as the alternative option and first choice in certain cohorts for PEP. Forthcoming efforts should be focused on launching new strategies with safer clinical and mitotoxic profile.

Published

2020

7. The 3-Year Effect of the Mediterranean Diet Intervention on Inflammatory Biomarkers Related to Cardiovascular Disease

Author

Mireia Urpi-Sarda, Rosa Casas, Emilio Sacanella, Dolores Corella, Cristina Andrés-Lacueva, Rafael Llorach, Gloria Garrabou, Francesc Cardellach, Aleix Sala-Vila, Emilio Ros, Miguel Ruiz-Canela, Montserrat Fitó, Jordi Salas-Salvadó, and Ramon Estruch

Subjects

dietary pattern, nutrition, inflammation, gene expression, cardiovascular diseases, Biology (General), QH301-705.5

Abstract

The intervention with the Mediterranean diet (MD) pattern has evidenced short-term anti-inflammatory effects, but little is known about its long-term anti-inflammatory properties at molecular level. This study aims to investigate the 3-year effect of MD interventions compared to low-fat diet (LFD) on changes on inflammatory biomarkers related to atherosclerosis in a free-living population with a high-risk of cardiovascular disease (CD). Participants (n = 285) in the PREDIMED trial were randomly assigned into three intervention groups: MD with extra-virgin olive oil (EVOO) or MD-Nuts, and a LFD. Fourteen plasma inflammatory biomarkers were determined by Luminex assays. An additional pilot study of gene expression (GE) was determined by RT-PCR in 35 participants. After 3 years, both MDs showed a significant reduction in the plasma levels of IL-1β, IL-6, IL-8, TNF-α, IFN-γ, hs-CRP, MCP-1, MIP-1β, RANTES, and ENA78 (p < 0.05; all). The decreased levels of IL-1β, IL-6, IL-8, and TNF-α after MD significantly differed from those in the LFD (p < 0.05). No significant changes were observed at the gene level after MD interventions, however, the GE of CXCR2 and CXCR3 tended to increase in the control LFD group (p = 0.09). This study supports the implementation of MD as a healthy long-term dietary pattern in the prevention of CD in populations at high cardiovascular risk.

Published

2021

8. Bioenergetics and Autophagic Imbalance in Patients-Derived Cell Models of Parkinson Disease Supports Systemic Dysfunction in Neurodegeneration

Author

Ingrid González-Casacuberta, Diana Luz Juárez-Flores, Constanza Morén, and Gloria Garrabou

Subjects

neurodegeneration, mitochondria, autophagy, Parkin, LRRK2, fibroblasts, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Parkinson’s disease (PD) is the second most prevalent neurodegenerative disorder worldwide affecting 2–3% of the population over 65 years. This prevalence is expected to rise as life expectancy increases and diagnostic and therapeutic protocols improve. PD encompasses a multitude of clinical, genetic, and molecular forms of the disease. Even though the mechanistic of the events leading to neurodegeneration remain largely unknown, some molecular hallmarks have been repeatedly reported in most patients and models of the disease. Neuroinflammation, protein misfolding, disrupted endoplasmic reticulum-mitochondria crosstalk, mitochondrial dysfunction and consequent bioenergetic failure, oxidative stress and autophagy deregulation, are amongst the most commonly described. Supporting these findings, numerous familial forms of PD are caused by mutations in genes that are crucial for mitochondrial and autophagy proper functioning. For instance, late and early onset PD associated to mutations in Leucine-rich repeat kinase 2 (LRRK2) and Parkin (PRKN) genes, responsible for the most frequent dominant and recessive inherited forms of PD, respectively, have emerged as promising examples of disease due to their established role in commanding bioenergetic and autophagic balance. Concomitantly, the development of animal and cell models to investigate the etiology of the disease, potential biomarkers and therapeutic approaches are being explored. One of the emerging approaches in this context is the use of patient’s derived cells models, such as skin-derived fibroblasts that preserve the genetic background and some environmental cues of the patients. An increasing number of reports in these PD cell models postulate that deficient mitochondrial function and impaired autophagic flux may be determinant in PD accelerated nigral cell death in terms of limitation of cell energy supply and accumulation of obsolete and/or unfolded proteins or dysfunctional organelles. The reliance of neurons on mitochondrial oxidative metabolism and their post-mitotic nature, may explain their increased vulnerability to undergo degeneration upon mitochondrial challenges or autophagic insults. In this scenario, proper mitochondrial function and turnover through mitophagy, are gaining in strength as protective targets to prevent neurodegeneration, together with the use of patient-derived fibroblasts to further explore these events. These findings point out the presence of molecular damage beyond the central nervous system (CNS) and proffer patient-derived cell platforms to the clinical and scientific community, which enable the study of disease etiopathogenesis and therapeutic approaches focused on modifying the natural history of PD through, among others, the enhancement of mitochondrial function and autophagy.

Published

2019

9. Transcriptomic profiling reveals distinct subsets of immune checkpoint inhibitor induced myositis

Author

Iago Pinal-Fernandez, Angela Quintana, Jose Cesar Milisenda, Maria Casal-Dominguez, Sandra Muñoz-Braceras, Assia Derfoul, Jiram Torres-Ruiz, Katherine Pak, Stefania Dell'Orso, Faiza Naz, Gustavo Gutierrez-Cruz, Margherita Milone, Shahar Shelly, Yaiza Duque-Jaimez, Ester Tobias-Baraja, Ana Matas-Garcia, Gloria Garrabou, Joan Padrosa, Javier Ros, Ernesto Trallero-Araguás, Brian Walitt, Lisa Christopher-Stine, Thomas E Lloyd, Chen Zhao, Shannon Swift, Arun Rajan, Josep Maria Grau-Junyent, Albert Selva-O'Callaghan, Teerin Liewluck, and Andrew Lee Mammen

Subjects

Rheumatology, Immunology, Immunology and Allergy, General Biochemistry, Genetics and Molecular Biology

Abstract

ObjectivesInflammatory myopathy or myositis is a heterogeneous family of immune-mediated diseases including dermatomyositis (DM), antisynthetase syndrome (AS), immune-mediated necrotising myopathy (IMNM) and inclusion body myositis (IBM). Immune checkpoint inhibitors (ICIs) can also cause myositis (ICI-myositis). This study was designed to define gene expression patterns in muscle biopsies from patients with ICI-myositis.MethodsBulk RNA sequencing was performed on 200 muscle biopsies (35 ICI-myositis, 44 DM, 18 AS, 54 IMNM, 16 IBM and 33 normal muscle biopsies) and single nuclei RNA sequencing was performed on 22 muscle biopsies (seven ICI-myositis, four DM, three AS, six IMNM and two IBM).ResultsUnsupervised clustering defined three distinct transcriptomic subsets of ICI-myositis: ICI-DM, ICI-MYO1 and ICI-MYO2. ICI-DM included patients with DM and anti-TIF1γ autoantibodies who, like DM patients, overexpressed type 1 interferon-inducible genes. ICI-MYO1 patients had highly inflammatory muscle biopsies and included all patients that developed coexisting myocarditis. ICI-MYO2 was composed of patients with predominant necrotising pathology and low levels of muscle inflammation. The type 2 interferon pathway was activated both in ICI-DM and ICI-MYO1. Unlike the other types of myositis, all three subsets of ICI-myositis patients overexpressed genes involved in the IL6 pathway.ConclusionsWe identified three distinct types of ICI-myositis based on transcriptomic analyses. The IL6 pathway was overexpressed in all groups, the type I interferon pathway activation was specific for ICI-DM, the type 2 IFN pathway was overexpressed in both ICI-DM and ICI-MYO1 and only ICI-MYO1 patients developed myocarditis.

Published

2023

10. Dysfunctional Mitochondria in the Cardiac Fibers of a Williams–Beuren Syndrome Mouse Model

Author

Campuzano, Noura Abdalla, Ester Tobías-Baraja, Alejandro Gonzalez, Gloria Garrabou, Gustavo Egea, and Victoria

Subjects

Williams–Beuren syndrome, CD mouse model, mitochondria, ATP synthesis, respiratory chain, cardiac tissue

Abstract

Williams–Beuren syndrome (WBS) is a rare neurodevelopmental disorder that, together with a rather characteristic neurocognitive profile, presents a strong cardiovascular phenotype. The cardiovascular features of WBS are mainly related to a gene dosage effect due to hemizygosity of the elastin (ELN) gene; however, the phenotypic variability between WBS patients indicates the presence of important modulators of the clinical impact of elastin deficiency. Recently, two genes within the WBS region have been linked to mitochondrial dysfunction. Numerous cardiovascular diseases are related to mitochondrial dysfunction; therefore, it could be a modulator of the phenotype present in WBS. Here, we analyze mitochondrial function and dynamics in cardiac tissue from a WBS complete deletion (CD) model. Our research reveals that cardiac fiber mitochondria from CD animals have altered mitochondrial dynamics, accompanied by respiratory chain dysfunction with decreased ATP production, reproducing alterations observed in fibroblasts from WBS patients. Our results highlight two major factors: on the one hand, that mitochondrial dysfunction is probably a relevant mechanism underlying several risk factors associated with WBS disease; on the other, the CD murine model mimics the mitochondrial phenotype of WBS and could be a great model for carrying out preclinical tests on drugs targeting the mitochondria.

Published

2023

11. Dysfunctional Mitochondria in Cardiac Fibers of a Williams-Beuren Syndrome Mouse Model

Author

Noura Abdalla, Ester Tobías-Baraja, Alejandro Gonzalez, Gloria Garrabou, Gustavo Egea, and Victoria Campuzano

Abstract

SummaryWilliams-Beuren Syndrome (WBS) is a rare neurodevelopmental disorder that, together with a rather characteristic neurocognitive profile, presents a strong cardiovascular phenotype. The cardiovascular features of WBS are mainly related to a gene dosage effect due to hemizygosity of the elastin (ELN) gene; however, the phenotypic variability between WBS patients indicates the presence of important modulators of the clinical impact of elastin deficiency. Recently, two genes within the WBS region have been linked to mitochondrial dysfunction. Numerous cardiovascular diseases are related to mitochondrial dysfunction; therefore, it could be a modulator of the phenotype present in WBS. Here, we analyze mitochondrial function and dynamics in cardiac tissue from a WBS complete deletion (CD) model. Our research reveals that cardiac fiber mitochondria from CD animals have altered mitochondrial dynamics, accompanied by respiratory chain dysfunction with decreased ATP production, reproducing alterations observed in fibroblasts from WBS patients. Our results highlight two major factors; on the one hand, that mitochondrial dysfunction is probably a relevant mechanism underlying several risk factors associated with WBS disease; on the other, the CD murine model mimics the mitochondrial phenotype of WBS and could be a great model for carrying out preclinical tests on drugs targeting the mitochondria.

Published

2023

12. Transcriptomic profiling reveals distinct subsets of immune checkpoint inhibitor-induced myositis

Author

Iago Pinal-Fernandez, Angela Quintana, Jose C. Milisenda, Maria Casal-Dominguez, Sandra Muñoz-Braceras, Assia Derfoul, Jiram Torres-Ruiz, Katherine Pak, Stefania Del Orso, Faiza Naz, Gustavo Gutierrez-Cruz, Margherita Milone, Shahar Shelly, Yaiza Duque-Jaimez, Ester Tobias-Baraja, Ana Matas-Garcia, Gloria Garrabou, Joan Padrosa, Javier Ros, Ernesto Trallero-Araguás, Brian Walitt, Lisa Christopher-Stine, Thomas E. Lloyd, Chen Zhao, Shannon Swift, Arun Rajan, Josep Maria Grau, Albert Selva-O’Callaghan, Teerin Liewluck, and Andrew L. Mammen

Abstract

ObjectivesInflammatory myopathy or myositis is a heterogeneous family of immune-mediated diseases including dermatomyositis (DM), antisynthetase syndrome (AS), immune-mediated necrotizing myopathy (IMNM), and inclusion body myositis (IBM). Immune checkpoint inhibitors (ICI) can also cause myositis (ICI-myositis). This study was designed to define gene expression patterns in muscle biopsies from patients with ICI-myositis.MethodsBulk RNA sequencing was performed on 200 muscle biopsies (35 ICI-myositis, 44 DM, 18 AS, 54 IMNM, 16 IBM, and 33 normal muscle biopsies) and single nuclei RNA sequencing was performed on 22 muscle biopsies (7 ICI-myositis, 4 DM, 3 AS, 6 IMNM, and 2 IBM).ResultsUnsupervised clustering defined three distinct transcriptomic subsets of ICI-myositis: ICI-DM, ICI-MYO1, and ICI-MYO2. ICI-DM included patients with DM and anti-TIF1γ autoantibodies who, like DM patients, overexpressed type 1 interferon-inducible genes. ICI-MYO1 patients had highly inflammatory muscle biopsies and included all patients that developed co-existing myocarditis. ICI-MYO2 was composed of patients with predominant necrotizing pathology and low levels of muscle inflammation. The type 2 interferon pathway was activated both in ICI-DM and ICI-MYO1. Unlike the other types of myositis, all three subsets of ICI-myositis patients overexpressed genes involved in the IL6 pathway.ConclusionsWe identified three distinct types of ICI-myositis based on transcriptomic analyses. The IL6 pathway was overexpressed in all groups, the type I interferon pathway activation was specific for ICI-DM, the type 2 IFN pathway was overexpressed in both ICIDM and ICI-MYO1, and only ICI-MYO1 patients developed myocarditis.

Published

2022

13. Volumetric brain reductions in adult patients with phenylketonuria and their relationship with blood phenylalanine levels

Author

Jèssica Pardo, Clara Capdevila-Lacasa, Bàrbara Segura, Adriana Pané, Cristina Montserrat, Maria de Talló Forga-Visa, Pedro J. Moreno, Glòria Garrabou, Josep M. Grau-Junyent, Carme Junqué, and Consortium PKU.cat.

Subjects

Phenylketonuria, Adult early-treated patients, Blood phenylalanine levels, Neuroimaging, Volumetry, Neuropsychological assessment, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background Continued dietary treatment since early diagnosis through newborn screening programs usually prevents brain-related complications in phenylketonuria (PKU). However, subtle neurocognitive and brain alterations may be observed in some adult patients despite early treatment. Nevertheless, neuropsychological and neuroimaging studies in the field remain scarce. Objectives This work aimed to determine possible neuropsychological and structural brain alterations in treated adult patients with PKU. Methods Thirty-five patients with PKU and 22 healthy controls (HC) underwent neuropsychological assessment and T1-weighted magnetic resonance imaging on a 3 T scanner. FreeSurfer (v.7.1) was used to obtain volumetric measures and SPSS (v27.0.1.0) was used to analyze sociodemographic, neuropsychological, volumetric, and clinical data (p

Published

2024

14. Transcriptional derepression of CHD4/NuRD-regulated genes in the muscle of patients with dermatomyositis and anti-Mi2 autoantibodies

Author

Iago Pinal-Fernandez, Jose Cesar Milisenda, Katherine Pak, Sandra Muñoz-Braceras, Maria Casal-Dominguez, Jiram Torres-Ruiz, Stefania Dell'Orso, Faiza Naz, Gustavo Gutierrez-Cruz, Yaiza Duque-Jaimez, Ana Matas-Garcia, Joan Padrosa, Francesc J Garcia-Garcia, Mariona Guitart-Mampel, Gloria Garrabou, Ernesto Trallero-Araguás, Brian Walitt, Julie J Paik, Jemima Albayda, Lisa Christopher-Stine, Thomas E Lloyd, Josep Maria Grau-Junyent, Albert Selva-O'Callaghan, and Andrew Lee Mammen

Subjects

Rheumatology, Immunology, Immunology and Allergy, General Biochemistry, Genetics and Molecular Biology

Abstract

ObjectivesMyositis is a heterogeneous family of diseases including dermatomyositis (DM), immune-mediated necrotising myopathy (IMNM), antisynthetase syndrome (AS) and inclusion body myositis (IBM). Myositis-specific autoantibodies define different subtypes of myositis. For example, patients with anti-Mi2 autoantibodies targeting the chromodomain helicase DNA-binding protein 4 (CHD4)/NuRD complex (a transcriptional repressor) have more severe muscle disease than other DM patients. This study aimed to define the transcriptional profile of muscle biopsies from anti-Mi2-positive DM patients.MethodsRNA sequencing was performed on muscle biopsies (n=171) from patients with anti-Mi2-positive DM (n=18), DM without anti-Mi2 autoantibodies (n=32), AS (n=18), IMNM (n=54) and IBM (n=16) as well as 33 normal muscle biopsies. Genes specifically upregulated in anti-Mi2-positive DM were identified. Muscle biopsies were stained for human immunoglobulin and protein products corresponding to genes specifically upregulated in anti-Mi2-positive muscle biopsies.ResultsA set of 135 genes, includingSCRT1andMADCAM1, was specifically overexpressed in anti-Mi2-positive DM muscle. This set was enriched for CHD4/NuRD-regulated genes and included genes that are not otherwise expressed in skeletal muscle. The expression levels of these genes correlated with anti-Mi2 autoantibody titres, markers of disease activity and with the other members of the gene set. In anti-Mi2-positive muscle biopsies, immunoglobulin was localised to the myonuclei, MAdCAM-1 protein was present in the cytoplasm of perifascicular fibres, and SCRT1 protein was localised to myofibre nuclei.ConclusionsBased on these findings, we hypothesise that anti-Mi2 autoantibodies could exert a pathogenic effect by entering damaged myofibres, inhibiting the CHD4/NuRD complex, and subsequently derepressing the unique set of genes defined in this study.

Published

2023

15. The Genetic Landscape of Mitochondrial Diseases in Spain: A Nationwide Call

Author

María Domínguez Ruiz, Eulàlia Rovira-Moreno, María Vázquez López, María Nieves-Moreno, Miguel López de Heredia, Roser Urreizti, Carmen Orellana, Aurora Pujol, Eduardo Ruiz Pesini, Jorge Garcia-García, Marcello Bellusci, Matías Morín, Agatha Schluter, Julio Montoya Villarroya, Rafael Artuch, Gloria Garrabou, Sergio Aguilera-Albesa, Judit Garcia-Villoria, Gerard Muñoz-Pujol, Cristina Dominguez, Abraham Jose Paredes-Fuentes, Maria del Pilar Caamaño Vara, Francesc Palau, Barredo Estibaliz, Saoud Tahsin Swafiri Swafiri, Francisco Martinez, Juan Dario Ortigoza Escobar, Miguel Fernandez-Burriel, Marta Diñeiro, Frederic Tort, Francisco Martínez-Azorín, Susana Noval, Juan Cadiñanos, Encarna Guillén-Navarro, and Patricia Fuentes Pita

Subjects

Adult, Male, medicine.medical_specialty, Mitochondrial DNA, epidemiological data, QH426-470, DNA, Mitochondrial, Article, Internal medicine, Epidemiology, Genetics, medicine, Humans, Paediatric age, Child, Spanish registry, Gene, mitochondrial DNA mutations, Genetics (clinical), Paediatric patients, mitochondrial diseases, business.industry, Incidence (epidemiology), High-Throughput Nucleotide Sequencing, Nuclear DNA, Spain, Mutation, incidence, Female, nuclear DNA mutations, business

Abstract

The frequency of mitochondrial diseases (MD) has been scarcely documented, and only a few studies have reported data in certain specific geographical areas. In this study, we arranged a nationwide call in Spain to obtain a global estimate of the number of cases. A total of 3274 cases from 49 Spanish provinces were reported by 39 centres. Excluding duplicated and unsolved cases, 2761 patients harbouring pathogenic mutations in 140 genes were recruited between 1990 and 2020. A total of 508 patients exhibited mutations in nuclear DNA genes (75% paediatric patients) and 1105 in mitochondrial DNA genes (33% paediatric patients). A further 1148 cases harboured mutations in the MT-RNR1 gene (56% paediatric patients). The number of reported cases secondary to nuclear DNA mutations increased in 2014, owing to the implementation of next-generation sequencing technologies. Between 2014 and 2020, excepting MT-RNR1 cases, the incidence was 6.34 (95% CI: 5.71–6.97) cases per million inhabitants at the paediatric age and 1.36 (95% CI: 1.22–1.50) for adults. In conclusion, this is the first study to report nationwide epidemiological data for MD in Spain. The lack of identification of a remarkable number of mitochondrial genes necessitates the systematic application of high-throughput technologies in the routine diagnosis of MD.

Published

2021

16. Aerobic capacity and mitochondrial function in bipolar disorder: a longitudinal study during acute phases and after clinical remission

Author

Anna Giménez-Palomo, Mariona Guitart-Mampel, Gemma Roqué, Ester Sánchez, Roger Borràs, Ana Meseguer, Francesc Josep García-García, Esther Tobías, Laura Valls-Roca, Gerard Anmella, Marc Valentí, Luis Olivier, Oscar de Juan, Iñaki Ochandiano, Helena Andreu, Joaquim Radua, Norma Verdolini, Michael Berk, Eduard Vieta, Glòria Garrabou, Josep Roca, Xavier Alsina-Restoy, and Isabella Pacchiarotti

Subjects

bipolar disorder, mania, depression, aerobic capacity, endurance time, mitochondrial respiration, Psychiatry, RC435-571

Abstract

BackgroundAerobic capacity has shown to predict physical and mental health-related quality of life in bipolar disorder (BD). However, the correlation between exercise respiratory capacity and mitochondrial function remains understudied. We aimed to assess longitudinally intra-individual differences in these factors during mood episodes and remission in BD.MethodsThis study included eight BD patients admitted to an acute psychiatric unit. Incremental cardiopulmonary exercise test (CPET) was conducted during acute episodes (T0), followed by constant work rate cycle ergometry (CWRCE) to evaluate endurance time, oxygen uptake at peak exercise (VO2peak) and at the anaerobic threshold. The second test was repeated during remission (T1). Mitochondrial respiration rates were assessed at T0 and T1 in peripheral blood mononuclear cells.ResultsEndurance time, VO2peak, and anaerobic threshold oxygen consumption showed no significant variations between T0 and T1. Basal oxygen consumption at T1 tended to inversely correlate with maximal mitochondrial respiratory capacity (r=-0.690, p=0.058), and VO2peak during exercise at T1 inversely correlated with basal and minimum mitochondrial respiration (r=-0.810, p=0.015; r=-0.786, p=0.021, respectively).ConclusionsOur preliminary data showed that lower basal oxygen consumption may be linked to greater mitochondrial respiratory capacity, and maximum oxygen uptake during the exercise task was associated with lower basal mitochondrial respiration, suggesting that lower oxygen requirements could be associated with greater mitochondrial capacity. These findings should be replicated in larger samples stratified for manic and depressive states.

Published

2024

17. Unravelling inclusion body myositis using a patient‐derived fibroblast model

Author

Judith Cantó‐Santos, Laura Valls‐Roca, Ester Tobías, Francesc Josep García‐García, Mariona Guitart‐Mampel, Anna Esteve‐Codina, Beatriz Martín‐Mur, Mercedes Casado, Rafael Artuch, Estel Solsona‐Vilarrasa, José Carlos Fernandez‐Checa, Carmen García‐Ruiz, Carles Rentero, Carlos Enrich, Pedro J. Moreno‐Lozano, José César Milisenda, Francesc Cardellach, Josep M. Grau‐Junyent, and Glòria Garrabou

Subjects

Inclusion body myositis, Myopathy, Fibroblasts, Autophagy, Inflammation, Mitochondria, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695

Abstract

Abstract Background Inclusion body myositis (IBM) is an inflammatory myopathy clinically characterized by proximal and distal muscle weakness, with inflammatory infiltrates, rimmed vacuoles and mitochondrial changes in muscle histopathology. There is scarce knowledge on IBM aetiology, and non‐established biomarkers or effective treatments are available, partly due to the lack of validated disease models. Methods We have performed transcriptomics and functional validation of IBM muscle pathological hallmarks in fibroblasts from IBM patients (n = 14) and healthy controls (n = 12), paired by age and sex. The results comprise an mRNA‐seq, together with functional inflammatory, autophagy, mitochondrial and metabolic changes between patients and controls. Results Gene expression profile of IBM vs control fibroblasts revealed 778 differentially expressed genes (P‐value adj

Published

2023

18. 17β-Estradiol reduces mitochondrial cAMP content and cytochrome oxidase activity in a phosphodiesterase 2-dependent manner

Author

Sofya, Pozdniakova, Mariona, Guitart-Mampel, Gloria, Garrabou, Giulietta, Di Benedetto, Yury, Ladilov, and Vera, Regitz-Zagrosek

Subjects

Electron Transport Complex IV, Mice, Estradiol, Phosphoric Diester Hydrolases, Cyclic AMP, Animals, Estrogens, Cyclic GMP, Research Papers, Cell Line, Mitochondria, Rats

Abstract

BACKGROUND AND PURPOSE: Mitochondria possess their own source of cAMP, that is, soluble adenylyl cyclase (sAC). Activation or expression of mitochondrial sAC promotes mitochondrial function. Oestrogen receptor signalling plays an essential role in the regulation of mitochondrial function. Here we aimed to determine whether 17β‐estradiol may affect mitochondrial cAMP signalling. EXPERIMENTAL APPROACH: Expression of the intra‐mitochondrial proteins (Western blot), mitochondrial cAMP content (FRET‐based live imaging and MS assay), mitochondrial membrane potential and cytochrome oxidase activity were analysed in H9C2 and C2C12 cells. KEY RESULTS: A 24 h treatment with 17β‐estradiol significantly reduced the basal level of mitochondrial cAMP, without affecting the intra‐mitochondrial content of sAC, phosphodiesterase 2 (PDE2) or PKA and the activity of the intra‐mitochondrial sAC. The effect of 17β‐estradiol on mitochondrial cAMP was prevented by inhibition of a cGMP‐activated PDE2 or soluble guanylyl cyclase (sGC), suggesting a role of NO signalling. Indeed, 17β‐estradiol raised cellular levels of cGMP and the intra‐mitochondrial expression of the catalytic subunit β of sGC was found. The 17β‐estradiol‐induced reduction of the mitochondrial cAMP level was accompanied by decreased cytochrome oxidase activity and mitochondrial membrane potential in a PDE2‐dependent manner. CONCLUSIONS AND IMPLICATIONS: 17β‐estradiol reduced the basal level of mitochondrial cAMP content and cytochrome oxidase activity in a sAC‐independent but in a PDE2‐dependent manner. The results suggest a role of 17β‐estradiol‐induced activation of NO signalling in the regulation of mitochondrial cAMP content. Our study adds a new aspect to the complex action of oestrogens on mitochondrial biology, that is relevant to hormone replacement therapy.

Published

2017

19. Genetic Rescue of Mitochondrial and Skeletal Muscle Impairment in an Induced Pluripotent Stem Cells Model of Coenzyme Q

Author

Damià, Romero-Moya, Carlos, Santos-Ocaña, Julio, Castaño, Gloria, Garrabou, José A, Rodríguez-Gómez, Vanesa, Ruiz-Bonilla, Clara, Bueno, Patricia, González-Rodríguez, Alessandra, Giorgetti, Eusebio, Perdiguero, Cristina, Prieto, Constanza, Moren-Nuñez, Daniel J, Fernández-Ayala, Maria, Victoria Cascajo, Iván, Velasco, Josep Maria, Canals, Raquel, Montero, Delia, Yubero, Cristina, Jou, José, López-Barneo, Francesc, Cardellach, Pura, Muñoz-Cánoves, Rafael, Artuch, Plácido, Navas, and Pablo, Menendez

Subjects

Gene Editing, Motor Neurons, Mitochondrial Diseases, Muscle Weakness, Ubiquinone, Dopaminergic Neurons, Induced Pluripotent Stem Cells, Primary Cell Culture, Gene Expression, Cell Differentiation, Fibroblasts, Rhabdomyolysis, Mitochondria, Mitochondrial Proteins, Fatal Outcome, Electron Transport Chain Complex Proteins, Child, Preschool, Intellectual Disability, Humans, Ataxia, Female, Genes, Lethal, CRISPR-Cas Systems

Abstract

Coenzyme Q

Published

2016

20. Diagnosis of Mitochondrial Dysfunction in HIV-Infected Patients under Highly Active Antiretroviral Therapy: Possibilities beyond the Standard Procedures

Author

Casademont J, Sanjurjo E, Gloria Garrabou, and Miró O

Subjects

Pharmacology, Magnetic Resonance Spectroscopy, Spectroscopy, Near-Infrared, Infectious Diseases, Breath Tests, Antiretroviral Therapy, Highly Active, Exercise Test, Humans, HIV Infections, Pharmacology (medical), Mitochondria

Published

2005

21. Exploration of SUMO2/3 Expression Levels and Autophagy Process in Fragile X-Associated Tremor/Ataxia Syndrome: Addressing Study Limitations and Insights for Future Research

Author

Maria Isabel Alvarez-Mora, Glòria Garrabou, Laura Molina-Porcel, Ruben Grillo-Risco, Francisco Garcia-Garcia, Tamara Barcos, Judith Cantó-Santos, and Laia Rodriguez-Revenga

Subjects

FMR1 premutation, FXTAS, SUMO2/3, p62, SUMOylation, autophagy, Cytology, QH573-671

Abstract

Fragile X-associated tremor/ataxia syndrome (FXTAS) is a late-onset neurodegenerative disorder that appears in adult FMR1 premutation carriers. The neuropathological hallmark of FXTAS is an intranuclear inclusion in neurons and astrocytes. Nearly 200 different proteins have been identified in FXTAS inclusions, being the small ubiquitin-related modifier 2 (SUMO2), ubiquitin and p62 the most highly abundant. These proteins are components of the protein degradation machinery. This study aimed to characterize SUMO2/3 expression levels and autophagy process in human postmortem brain samples and skin fibroblast cultures from FXTAS patients. Results revealed that FXTAS postmortem brain samples are positive for SUMO2/3 conjugates and supported the idea that SUMO2/3 accumulation is involved in inclusion formation. Insights from RNA-sequencing data indicated that SUMOylation processes are significantly upregulated in FXTAS samples. In addition, the analysis of the autophagy flux showed the accumulation of p62 protein levels and autophagosomes in skin fibroblasts from FXTAS patients. Similarly, gene set analysis evidenced a significant downregulation in gene ontology terms related to autophagy in FXTAS samples. Overall, this study provides new evidence supporting the role of SUMOylation and autophagic processes in the pathogenic mechanisms underlying FXTAS.

Published

2023

22. Relevance of sex-differenced analyses in bioenergetics and nutritional studies

Author

Glòria Garrabou, Francesc Josep García-García, Rosa Elvira Presmanes, Maria Feu, and Gemma Chiva-Blanch

Subjects

mitochondria, sex bias, nutrition, metabolism, endosymbiosis, Nutrition. Foods and food supply, TX341-641

Abstract

Sex-biased analyses still remain as one of the biggest limitations to obtain universal conclusions. In biomedicine, the majority of experimental analyses and a significant amount of patient-derived cohort studies exclusively included males. In nutritional and molecular medicine, sex-influence is also frequently underrated, even considering maternal-inherited organelles such as mitochondria. We herein illustrate with in-house original data examples of how sex influences mitochondrial homeostasis, review these topics and highlight the consequences of biasing scientific analyses excluding females as differentiated entities from males.

Published

2022

23. Integrated Multi-Omics Analysis for Inferring Molecular Players in Inclusion Body Myositis

Author

Judith Cantó-Santos, Laura Valls-Roca, Ester Tobías, Clara Oliva, Francesc Josep García-García, Mariona Guitart-Mampel, Félix Andújar-Sánchez, Anna Esteve-Codina, Beatriz Martín-Mur, Joan Padrosa, Raquel Aránega, Pedro J. Moreno-Lozano, José César Milisenda, Rafael Artuch, Josep M. Grau-Junyent, and Glòria Garrabou

Subjects

inclusion body myositis (IBM), metabolism, organic acids, nucleotides, biomarker, Therapeutics. Pharmacology, RM1-950

Abstract

Inclusion body myositis (IBM) is an acquired inflammatory myopathy affecting proximal and distal muscles that leads to weakness in patients over 50. It is diagnosed based on clinical and histological findings in muscle related to inflammation, degeneration, and mitochondria. In relation to IBM, a shortage of validated disease models and a lack of biomarkers and effective treatments constitute an unmet medical need. To overcome these hurdles, we performed an omics analysis of multiple samples from IBM patients (saliva, fibroblasts, urine, plasma, and muscle) to gain insight into the pathophysiology of IBM. Degeneration was evident due to the presence of amyloid β peptide 1–42 (Aβ1–42) in the saliva of the analyzed IBM patients. The presence of metabolic disarrangements in IBM was indicated by an imbalanced organic acid profile in fibroblasts and urine. Specifically, abnormal levels of L-pyroglutamic and orotic acid were supported by the abnormal expression of related metabolites in plasma and urine (glutathione and pyrimidines) and the aberrant expression of upstream gene regulators (L2HGDH, IDH2, OPLAH, and ASL) in muscle. Combined levels of L-pyroglutamic and orotic acid displayed an outstanding biomarker signature in urine with 100% sensitivity and specificity. The confirmation of systemic metabolic disarrangements in IBM and the identification of novel biomarkers reported herein unveil novel insights that require validation in larger cohorts.

Published

2023

24. Editorial: Mitochondrial OXPHOS System: Emerging Concepts and Technologies and Role in Disease

Author

Erika Fernández-Vizarra, Sylvie Callegari, Glòria Garrabou, and David Pacheu-Grau

Subjects

mitochondria, OXPHOS, mtDNA, mitochondrial proteome, mitochondrial dysfunction, mitochondrial quality control, Biology (General), QH301-705.5

Published

2022

25. Comprehensive summary of mitochondrial DNA alterations in the postmortem human brain: A systematic review

Author

Alba Valiente-Pallejà, Juan Tortajada, Bengisu K. Bulduk, Elisabet Vilella, Glòria Garrabou, Gerard Muntané, and Lourdes Martorell

Subjects

Mitochondrial DNA, Mitochondrial diseases, Neurological diseases, Psychiatric diseases, Ageing, Postmortem, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Mitochondrial DNA (mtDNA) encodes 37 genes necessary for synthesizing 13 essential subunits of the oxidative phosphorylation system. mtDNA alterations are known to cause mitochondrial disease (MitD), a clinically heterogeneous group of disorders that often present with neuropsychiatric symptoms. Understanding the nature and frequency of mtDNA alterations in health and disease could be a cornerstone in disentangling the relationship between biochemical findings and clinical symptoms of brain disorders. This systematic review aimed to summarize the mtDNA alterations in human brain tissue reported to date that have implications for further research on the pathophysiological significance of mtDNA alterations in brain functioning. Methods: We searched the PubMed and Embase databases using distinct terms related to postmortem human brain and mtDNA up to June 10, 2021. Reports were eligible if they were empirical studies analysing mtDNA in postmortem human brains. Findings: A total of 158 of 637 studies fulfilled the inclusion criteria and were clustered into the following groups: MitD (48 entries), neurological diseases (NeuD, 55 entries), psychiatric diseases (PsyD, 15 entries), a miscellaneous group with controls and other clinical diseases (5 entries), ageing (20 entries), and technical issues (5 entries). Ten entries were ascribed to more than one group. Pathogenic single nucleotide variants (pSNVs), both homo- or heteroplasmic variants, have been widely reported in MitD, with heteroplasmy levels varying among brain regions; however, pSNVs are rarer in NeuD, PsyD and ageing. A lower mtDNA copy number (CN) in disease was described in most, but not all, of the identified studies. mtDNA deletions were identified in individuals in the four clinical categories and ageing. Notably, brain samples showed significantly more mtDNA deletions and at higher heteroplasmy percentages than blood samples, and several of the deletions present in the brain were not detected in the blood. Finally, mtDNA heteroplasmy, mtDNA CN and the deletion levels varied depending on the brain region studied. Interpretation: mtDNA alterations are well known to affect human tissues, including the brain. In general, we found that studies of MitD, NeuD, PsyD, and ageing were highly variable in terms of the type of disease or ageing process investigated, number of screened individuals, studied brain regions and technology used. In NeuD and PsyD, no particular type of mtDNA alteration could be unequivocally assigned to any specific disease or diagnostic group. However, the presence of mtDNA deletions and mtDNA CN variation imply a role for mtDNA in NeuD and PsyD. Heteroplasmy levels and threshold effects, affected brain regions, and mitotic segregation patterns of mtDNA alterations may be involved in the complex inheritance of NeuD and PsyD and in the ageing process. Therefore, more information is needed regarding the type of mtDNA alteration, the affected brain regions, the heteroplasmy levels, and their relationship with clinical phenotypes and the ageing process. Funding: Hospital Universitari Institut Pere Mata; Institut d'Investigació Sanitària Pere Virgili; Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación (PI18/00514).

Published

2022

26. Neuronal induction and bioenergetics characterization of human forearm adipose stem cells from Parkinson’s disease patients and healthy controls

Author

Ingrid González-Casacuberta, Dolores Vilas, Claustre Pont-Sunyer, Ester Tobías, Judith Cantó-Santos, Laura Valls-Roca, Francesc Josep García-García, Glòria Garrabou, Josep Maria Grau-Junyent, Maria Josep Martí, Francesc Cardellach, and Constanza Morén

Subjects

Medicine, Science

Abstract

Neurodegenerative diseases, such as Parkinson’s disease, are heterogeneous disorders with a multifactorial nature involving impaired bioenergetics. Stem-regenerative medicine and bioenergetics have been proposed as promising therapeutic targets in the neurologic field. The rationale of the present study was to assess the potential of human-derived adipose stem cells (hASCs) to transdifferentiate into neuronal-like cells (NhASCs and neurospheres) and explore the hASC bioenergetic profile. hASC neuronal transdifferentiation was performed through neurobasal media and differentiation factor exposure. High resolution respirometry was assessed. Increased MAP-2 neuronal marker protein expression upon neuronal induction (p

Published

2022

27. Noninvasive Diagnosis of Mitochondrial Dysfunction in HAART‐Related Hyperlactatemia

Author

Gloria Garrabou, Eduard Sanjurjo, Oscar Miro, Esteban Martinez, Ana B. Infante, Sonia Lopez, Francesc Cardellach, Josep M. Gatell, and Jordi Casademont

Subjects

Electron Transport Complex IV, Oxygen, Microbiology (medical), Mitochondrial Diseases, Infectious Diseases, Antiretroviral Therapy, Highly Active, Exercise Test, Humans, HIV Infections, Lactic Acid, Antiviral Agents, DNA, Mitochondrial

Published

2006

28. Comment on Yeste et al. Polyphenols and IUGR Pregnancies: Intrauterine Growth Restriction and Hydroxytyrosol Affect the Development and Neurotransmitter Profile of the Hippocampus in a Pig Model. Antioxidants 2021, 10, 1505

Author

Glòria Garrabou, Ana Sandra Hernández, Mariona Guitart-Mampel, Elena Escalada-Casellas, Gemma Malats-Revelles, Sara Castro-Barquero, Ana María Ruiz-León, Kilian Vellvé, Rosa Casas, Francesc Cardellach, Fàtima Crispi, and Francesc Josep García-García

Subjects

intrauterine growth restriction, hydroxytyrosol, tyrosol, supplementation, balanced diet, Mediterranean diet, Therapeutics. Pharmacology, RM1-950

Abstract

Intrauterine growth restriction (IUGR) affects 5–10% of newborns and increases the risks of intrauterine demise, neonatal morbidity, and death. In their recent publication, Yeste et al. found the benefits of hydroxytyrosol supplementation on brain remodeling from an IUGR pig model. Additionally, we found a significant decrease in phenolic alcohol (tyrosol and hydroxytyrosol) intake in IUGR pregnant women. Altogether, these findings support the notion that dietetic interventions, through supplementation but mostly via a balanced diet, can ameliorate IUGR complications. Furthermore, diet intervention combined with early biomarkers may allow clinicians to eventually anticipate IUGR diagnosis and help avoid one of the most frequent causes of newborn mortality and morbidity.

Published

2022

29. Multicentric Standardization of Protocols for the Diagnosis of Human Mitochondrial Respiratory Chain Defects

Author

Nuria Bujan, Constanza Morén, Francesc J. García-García, Alberto Blázquez, Clara Carnicer, Ana Belén Cortés, Cristina González, Ester López-Gallardo, Ester Lozano, Sonia Moliner, Laura Gort, Ester Tobías, Aitor Delmiro, Miguel Ángel Martin, Miguel Ángel Fernández-Moreno, Eduardo Ruiz-Pesini, Elena Garcia-Arumí, Juan Carlos Rodríguez-Aguilera, and Glòria Garrabou

Subjects

mitochondrial respiratory chain, enzyme activity, standardization, diagnosis, mitochondrial disease, Therapeutics. Pharmacology, RM1-950

Abstract

The quantification of mitochondrial respiratory chain (MRC) enzymatic activities is essential for diagnosis of a wide range of mitochondrial diseases, ranging from inherited defects to secondary dysfunctions. MRC lesion is frequently linked to extended cell damage through the generation of proton leak or oxidative stress, threatening organ viability and patient health. However, the intrinsic challenge of a methodological setup and the high variability in measuring MRC enzymatic activities represents a major obstacle for comparative analysis amongst institutions. To improve experimental and statistical robustness, seven Spanish centers with extensive experience in mitochondrial research and diagnosis joined to standardize common protocols for spectrophotometric MRC enzymatic measurements using minimum amounts of sample. Herein, we present the detailed protocols, reference ranges, tips and troubleshooting methods for experimental and analytical setups in different sample preparations and tissues that will allow an international standardization of common protocols for the diagnosis of MRC defects. Methodological standardization is a crucial step to obtain comparable reference ranges and international standards for laboratory assays to set the path for further diagnosis and research in the field of mitochondrial diseases.

Published

2022

30. Exhaustion of mitochondrial and autophagic reserve may contribute to the development of LRRK2 G2019S -Parkinson’s disease

Author

Diana Luz Juárez-Flores, Ingrid González-Casacuberta, Mario Ezquerra, María Bañó, Francesc Carmona-Pontaque, Marc Catalán-García, Mariona Guitart-Mampel, Juan José Rivero, Ester Tobias, Jose Cesar Milisenda, Eduard Tolosa, Maria Jose Marti, Ruben Fernández-Santiago, Francesc Cardellach, Constanza Morén, and Glòria Garrabou

Subjects

Parkinson’s disease, LRRK2, G2019S, Non-manifesting carriers, Mitochondrial dysfunction, Mitochondrial dynamics, Medicine

Abstract

Abstract Background Mutations in leucine rich repeat kinase 2 (LRRK2) are the most common cause of familial Parkinson’s disease (PD). Mitochondrial and autophagic dysfunction has been described as etiologic factors in different experimental models of PD. We aimed to study the role of mitochondria and autophagy in LRRK2 G2019S -mutation, and its relationship with the presence of PD-symptoms. Methods Fibroblasts from six non-manifesting LRRK2 G2019S -carriers (NM-LRRK2 G2019S ) and seven patients with LRRK2 G2019S -associated PD (PD-LRRK2 G2019S ) were compared to eight healthy controls (C). An exhaustive assessment of mitochondrial performance and autophagy was performed after 24-h exposure to standard (glucose) or mitochondrial-challenging environment (galactose), where mitochondrial and autophagy impairment may be heightened. Results A similar mitochondrial phenotype of NM-LRRK2 G2019S and controls, except for an early mitochondrial depolarization (54.14% increased, p = 0.04), was shown in glucose. In response to galactose, mitochondrial dynamics of NM-LRRK2 G2019S improved (− 17.54% circularity, p = 0.002 and + 42.53% form factor, p = 0.051), probably to maintain ATP levels over controls. A compromised bioenergetic function was suggested in PD-LRRK2 G2019S when compared to controls in glucose media. An inefficient response to galactose and worsened mitochondrial dynamics (− 37.7% mitochondrial elongation, p = 0.053) was shown, leading to increased oxidative stress. Autophagy initiation (SQTSM/P62) was upregulated in NM-LRRK2 G2019S when compared to controls (glucose + 118.4%, p = 0.014; galactose + 114.44%, p = 0.009,) and autophagosome formation increased in glucose media. Despite of elevated SQSTM1/P62 levels of PD-NM G2019S when compared to controls (glucose + 226.14%, p = 0.04; galactose + 78.5%, p = 0.02), autophagosome formation was deficient in PD-LRRK2 G2019S when compared to NM-LRRK2 G2019S (− 71.26%, p = 0.022). Conclusions Enhanced mitochondrial performance of NM-LRRK2 G2019S in mitochondrial-challenging conditions and upregulation of autophagy suggests that an exhaustion of mitochondrial bioenergetic and autophagic reserve, may contribute to the development of PD in LRRK2 G2019S mutation carriers.

Published

2018

31. Metabolic, mitochondrial, renal and hepatic safety of enfuvirtide and raltegravir antiretroviral administration: Randomized crossover clinical trial in healthy volunteers.

Author

Sergio Barroso, Constanza Morén, Àlex González-Segura, Neus Riba, Joan A Arnaiz, Marcela Manriquez, Gemina Santana, José L Blanco, María Larousse, Montse Loncà, Elisa de Lazzari, Jaume Llopis, Josep Mallolas, Oscar Miró, Xavier Carné, Jose M Gatell, Glòria Garrabou, and Esteban Martínez

Subjects

Medicine, Science

Abstract

ContextClassical antiretroviral agents may acutely impact on metabolic, mitochondrial, renal and hepatic function in HIV-infected and uninfected persons. Fusion and integrase inhibitors are supposed to be safer, but have been scarcely investigated. To avoid any interference with HIV or other antiretrovirals, we assessed markers of these toxicities in healthy adult volunteers treated with Enfuvirtide (T20) or Raltegravir (RAL).MethodsTwenty-six healthy participants were randomized to T20/90mg vs. placebo (n = 12) or RAL/400mg vs. placebo (n = 14) every 12h in two 7-day periods separated by a 4-week washout period. Major end-points were changes in lipid profile (total cholesterol, high-density-lipoprotein (HDL)-cholesterol, low-density-lipoprotein (LDL)-cholesterol, triglycerides), insulin resistance (glucose) and mitochondrial toxicity (mitochondrial DNA content-mtDNA-in peripheral blood mononuclear cells). Renal and hepatic toxicity (creatinine, alanine transaminase (AST), alanine aminotransferase (ALT), bilirubin and total plasma proteins) and overall safety were also analysed. Effect of period, treatment, and basal measures were evaluated for each end-point.ResultsNeither T20-administration nor RAL-administration yielded to any statistic significant change in the markers of metabolic, mitochondrial, renal or hepatic toxicity assessed. No symptoms indicative of drug toxicity were neither found in any subject.ConclusionsIn absence of HIV infection, or concomitant treatment, short-term exposure to T20 or RAL in healthy adult volunteers did not lead to any indicative changes in toxicity markers thus presuming the safe profile of both drugs.

Published

2019

32. Cardiac and mitochondrial function in HIV-uninfected fetuses exposed to antiretroviral treatment.

Author

Laura García-Otero, Marta López, Mariona Guitart-Mampel, Constanza Morén, Anna Goncé, Carol Esteve, Laura Salazar, Olga Gómez, Josep María Martínez, Berta Torres, Sergi César, Glòria Garrabou, Fàtima Crispi, and Eduard Gratacós

Subjects

Medicine, Science

Abstract

BACKGROUND:Mitochondrial toxicity related to maternal combined antiretroviral treatment (cART) may have an impact on the heart of HIV-exposed uninfected (HEU) fetuses. Our objective was to evaluate fetal cardiovascular and mitochondrial biomarkers in HIV pregnancies. METHODS:Prospective cohort including 47 HIV-infected and 47 non HIV-infected pregnancies. Fetal echocardiography was performed at 26-32 weeks of pregnancy. Umbilical cord blood and placental tissue were collected to study mitochondrial DNA content (mtDNA) (ratio 12SrRNA/RNAseP) and mitochondrial function (cytochrome c oxidase, COX, enzymatic activity) normalized by mitochondrial content (citrate synthase, CS). RESULTS:HEU fetuses showed hypertrophic hearts (left myocardial wall thickness: HIV mean 3.21 mm (SD 0.81) vs. non-HIV 2.72 (0.42), p = 0.012), with signs of systolic and diastolic dysfunction (isovolumic relaxation time: HIV 52.2 ms (8.85) vs. non-HIV 42.5 ms (7.30); p

Published

2019

33. The Impact of Mitochondrial Deficiencies in Neuromuscular Diseases

Author

Judith Cantó-Santos, Josep M. Grau-Junyent, and Glòria Garrabou

Subjects

neuromuscular diseases (NMDs), mitophagy, reactive oxygen species (ROS), damage-associated molecular patterns (DAMPs), oxidative stress, mitochondrial respiratory chain (MRC), Therapeutics. Pharmacology, RM1-950

Abstract

Neuromuscular diseases (NMDs) are a heterogeneous group of acquired or inherited rare disorders caused by injury or dysfunction of the anterior horn cells of the spinal cord (lower motor neurons), peripheral nerves, neuromuscular junctions, or skeletal muscles leading to muscle weakness and waste. Unfortunately, most of them entail serious or even fatal consequences. The prevalence rates among NMDs range between 1 and 10 per 100,000 population, but their rarity and diversity pose difficulties for healthcare and research. Some molecular hallmarks are being explored to elucidate the mechanisms triggering disease, to set the path for further advances. In fact, in the present review we outline the metabolic alterations of NMDs, mainly focusing on the role of mitochondria. The aim of the review is to discuss the mechanisms underlying energy production, oxidative stress generation, cell signaling, autophagy, and inflammation triggered or conditioned by the mitochondria. Briefly, increased levels of inflammation have been linked to reactive oxygen species (ROS) accumulation, which is key in mitochondrial genomic instability and mitochondrial respiratory chain (MRC) dysfunction. ROS burst, impaired autophagy, and increased inflammation are observed in many NMDs. Increasing knowledge of the etiology of NMDs will help to develop better diagnosis and treatments, eventually reducing the health and economic burden of NMDs for patients and healthcare systems.

Published

2020

34. Disrupted Mitochondrial and Metabolic Plasticity Underlie Comorbidity between Age-Related and Degenerative Disorders as Parkinson Disease and Type 2 Diabetes Mellitus

Author

Diana Luz Juárez-Flores, Mario Ezquerra, ïngrid Gonzàlez-Casacuberta, Aida Ormazabal, Constanza Morén, Eduardo Tolosa, Raquel Fucho, Mariona Guitart-Mampel, Mercedes Casado, Francesc Valldeoriola, Joan de la Torre-Lara, Esteban Muñoz, Ester Tobías, Yaroslau Compta, Francesc Josep García-García, Carmen García-Ruiz, Jose Carlos Fernandez-Checa, Maria José Martí, Josep Maria Grau, Francesc Cardellach, Rafael Artuch, Rubén Fernández-Santiago, and Glòria Garrabou

Subjects

T2DM (type 2 diabetes mellitus), iPD (idiopathic Parkinson’s disease), mitochondria, metabolome, Therapeutics. Pharmacology, RM1-950

Abstract

Idiopathic Parkinson’s disease (iPD) and type 2 diabetes mellitus (T2DM) are chronic, multisystemic, and degenerative diseases associated with aging, with eventual epidemiological co-morbidity and overlap in molecular basis. This study aims to explore if metabolic and mitochondrial alterations underlie the previously reported epidemiologic and clinical co-morbidity from a molecular level. To evaluate the adaptation of iPD to a simulated pre-diabetogenic state, we exposed primary cultured fibroblasts from iPD patients and controls to standard (5 mM) and high (25 mM) glucose concentrations to further characterize metabolic and mitochondrial resilience. iPD fibroblasts showed increased organic and amino acid levels related to mitochondrial metabolism with respect to controls, and these differences were enhanced in high glucose conditions (citric, suberic, and sebacic acids levels increased, as well as alanine, glutamate, aspartate, arginine, and ornithine amino acids; p-values between 0.001 and 0.05). The accumulation of metabolites in iPD fibroblasts was associated with (and probably due to) the concomitant mitochondrial dysfunction observed at enzymatic, oxidative, respiratory, and morphologic level. Metabolic and mitochondrial plasticity of controls was not observed in iPD fibroblasts, which were unable to adapt to different glucose conditions. Impaired metabolism and mitochondrial activity in iPD may limit energy supply for cell survival. Moreover, reduced capacity to adapt to disrupted glucose balance characteristic of T2DM may underlay the co-morbidity between both diseases. Conclusions: Fibroblasts from iPD patients showed mitochondrial impairment, resulting in the accumulation of organic and amino acids related to mitochondrial metabolism, especially when exposed to high glucose. Mitochondrial and metabolic defects down warding cell plasticity to adapt to changing glucose bioavailability may explain the comorbidity between iPD and T2DM.

Published

2020

35. In vivo effects of highly active antiretroviral therapies containing the protease inhibitor nelfinavir on mitochondrially driven apoptosis

Author

Miró O, Villarroya J, Gloria Garrabou, López S, Rodríguez de la Concepción M, Pedrol E, Martínez E, Giralt M, Jm, Gatell, Cardellach F, Casademont J, and Villarroya F