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5. Editorial: Present and future of biological fluid biomarkers in dementia.

Author

Frontiñán-Rubio J, Rabanal-Ruiz Y, Peinado JR, and Deierborg T

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision.

Published
2023
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7. Spatial and Temporal Protein Modules Signatures Associated with Alzheimer Disease in 3xTg-AD Mice Are Restored by Early Ubiquinol Supplementation.

Author

Llanos-González E, Sancho-Bielsa FJ, Frontiñán-Rubio J, Rabanal-Ruíz Y, García-Carpintero S, Chicano E, Úbeda-Banon I, Flores-Cuadrado A, Giménez-Llort L, Alcaín FJ, Peinado JR, and Durán-Prado M

Abstract

Despite its robust proteopathic nature, the spatiotemporal signature of disrupted protein modules in sporadic Alzheimer's disease (AD) brains remains poorly understood. This considered oxidative stress contributes to AD progression and early intervention with coenzyme Q10 or its reduced form, ubiquinol, delays the progression of the disease. Using MALDI-MSI and functional bioinformatic analysis, we have developed a protocol to express how deregulated protein modules arise from hippocampus and cortex in the AD mice model 3xTG-AD in an age-dependent manner. This strategy allowed us to identify which modules can be efficiently restored to a non-pathological condition by early intervention with ubiquinol. Indeed, an early deregulation of proteostasis-related protein modules, oxidative stress and metabolism has been observed in the hippocampus of 6-month mice (early AD) and the mirrored in cortical regions of 12-month mice (middle/late AD). This observation has been validated by IHC using mouse and human brain sections, suggesting that these protein modules are also affected in humans. The emergence of disrupted protein modules with AD signature can be prevented by early dietary intervention with ubiquinol in the 3xTG-AD mice model.

Published
2023
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8. CoQ 10 reduces glioblastoma growth and infiltration through proteome remodeling and inhibition of angiogenesis and inflammation.

Author

Frontiñán-Rubio J, Llanos-González E, García-Carpintero S, Peinado JR, Ballesteros-Yáñez I, Rayo MV, de la Fuente J, Pérez-García VM, Perez-Romasanta LA, Malumbres M, Alcaín FJ, and Durán-Prado M

Subjects
Humans, Mice, Animals, Ubiquinone pharmacology, Ubiquinone therapeutic use, Proteome, Antioxidants, Hypoxia, Inflammation, Cell Line, Tumor, Glioblastoma pathology, Brain Neoplasms pathology
Abstract

Purpose: Most monotherapies available against glioblastoma multiforme (GBM) target individual hallmarks of this aggressive brain tumor with minimal success. In this article, we propose a therapeutic strategy using coenzyme Q 10  (CoQ 10 ) as a pleiotropic factor that crosses the blood-brain barrier and accumulates in cell membranes acting as an antioxidant, and in mitochondrial membranes as a regulator of cell bioenergetics and gene expression., Methods: Xenografts of U251 cells in nu/nu mice were used to assay tumor growth, hypoxia, angiogenesis, and inflammation. An orthotopic model was used to explore microglial infiltration, tumor growth, and invasion into the brain parenchyma. Cell proliferation, migration, invasion, proteome remodeling, and secretome were assayed in vitro. Conditioned media were used to assay angiogenesis, monocyte chemoattraction, and differentiation into macrophages in vitro., Results: CoQ 10  treatment decreased tumor volume in xenografts and orthotopic models, although its effect on tumor cell proliferation was not direct. Tumors from mice treated with CoQ 10  were less hypoxic and vascularized, having less infiltration from inflammatory cells. Treatment-induced downregulation of HIF-1α and NF-kB led to a complete remodeling of the tumor cells proteome and secretome, impacting angiogenesis, monocyte infiltration, and their differentiation into macrophages. Besides, tumor cell migration and invasion were drastically restricted by mechanisms involving modulation of the actin cytoskeleton and downregulation of matrix metalloproteases (MMPs)., Conclusions: CoQ 10  has a pleiotropic effect on GBM growth, targeting several hallmarks simultaneously. Thus, its integration into current treatments of this fatal disease should be considered., (© 2022. The Author(s).)

Published
2023
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9. APOE in the bullseye of neurodegenerative diseases: impact of the APOE genotype in Alzheimer's disease pathology and brain diseases.

Author

Fernández-Calle R, Konings SC, Frontiñán-Rubio J, García-Revilla J, Camprubí-Ferrer L, Svensson M, Martinson I, Boza-Serrano A, Venero JL, Nielsen HM, Gouras GK, and Deierborg T

Subjects
Humans, Amyloid beta-Peptides metabolism, Apolipoprotein E2 genetics, Apolipoprotein E3 genetics, Apolipoprotein E4 genetics, Apolipoproteins E metabolism, Genotype, Plaque, Amyloid pathology, tau Proteins genetics, Alzheimer Disease metabolism, Neurodegenerative Diseases genetics
Abstract

ApoE is the major lipid and cholesterol carrier in the CNS. There are three major human polymorphisms, apoE2, apoE3, and apoE4, and the genetic expression of APOE4 is one of the most influential risk factors for the development of late-onset Alzheimer's disease (AD). Neuroinflammation has become the third hallmark of AD, together with Amyloid-β plaques and neurofibrillary tangles of hyperphosphorylated aggregated tau protein. This review aims to broadly and extensively describe the differential aspects concerning apoE. Starting from the evolution of apoE to how APOE's single-nucleotide polymorphisms affect its structure, function, and involvement during health and disease. This review reflects on how APOE's polymorphisms impact critical aspects of AD pathology, such as the neuroinflammatory response, particularly the effect of APOE on astrocytic and microglial function and microglial dynamics, synaptic function, amyloid-β load, tau pathology, autophagy, and cell-cell communication. We discuss influential factors affecting AD pathology combined with the APOE genotype, such as sex, age, diet, physical exercise, current therapies and clinical trials in the AD field. The impact of the APOE genotype in other neurodegenerative diseases characterized by overt inflammation, e.g., alpha- synucleinopathies and Parkinson's disease, traumatic brain injury, stroke, amyotrophic lateral sclerosis, and multiple sclerosis, is also addressed. Therefore, this review gathers the most relevant findings related to the APOE genotype up to date and its implications on AD and CNS pathologies to provide a deeper understanding of the knowledge in the APOE field., (© 2022. The Author(s).)

Published
2022
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10. The Protective Effect of Ubiquinone against the Amyloid Peptide in Endothelial Cells Is Isoprenoid Chain Length-Dependent.

Author

Frontiñán-Rubio J, Rabanal-Ruiz Y, Durán-Prado M, and Alcain FJ

Abstract

Vascular brain pathology constitutes a common feature in neurodegenerative diseases that could underlie their development. Indeed, vascular dysfunction acts synergistically with neurodegenerative changes to exacerbate the cognitive impairment found in Alzheimer's disease. Different injuries such as hypertension, high glucose, atherosclerosis associated with oxidized low-density lipoprotein or inflammation induce NADPH oxidase activation, overproduction of reactive oxygen species, and apoptosis in endothelial cells. Since it has been shown that pretreatment of cultured endothelial cells with the lipophilic antioxidant coenzyme Q10 (CoQ10) displays a protective effect against the deleterious injuries caused by different agents, this study explores the cytoprotective role of different CoQs homologues against Aβ 25-35 -induced damage and demonstrates that only pretreatment with CoQ10 protects endothelial brain cells from Aβ 25-35 -induced damage. Herein, we show that CoQ10 constitutes the most effective ubiquinone in preventing NADPH oxidase activity and reducing both reactive oxygen species generation and the increase in free cytosolic Ca 2+ induced by Aβ 25-35 , ultimately preventing apoptosis and necrosis. The specific cytoprotective effect of CoQ with a side chain of 10 isoprenoid units could be explained by the fact that CoQ10 is the only ubiquinone that significantly reduces the entry of Aβ 25-35 into the mitochondria.

Published
2021
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11. Biological Significance of the Protein Changes Occurring in the Cerebrospinal Fluid of Alzheimer's Disease Patients: Getting Clues from Proteomic Studies.

Author

Pedrero-Prieto CM, Frontiñán-Rubio J, Alcaín FJ, Durán-Prado M, Peinado JR, and Rabanal-Ruiz Y

Abstract

The fact that cerebrospinal fluid (CSF) deeply irrigates the brain together with the relative simplicity of sample extraction from patients make this biological fluid the best target for biomarker discovery in neurodegenerative diseases. During the last decade, biomarker discovery has been especially fruitful for the identification new proteins that appear in the CSF of Alzheimer's disease (AD) patients together with amyloid-β (Aβ42), total tau (T-tau), and phosphorylated tau (P-tau). Thus, several proteins have been already stablished as important biomarkers, due to an increase (i.e., CHI3L1) or a decrease (i.e., VGF) in AD patients' CSF. Notwithstanding this, only a deep analysis of a database generated with all the changes observed in CSF across multiple proteomic studies, and especially those using state-of-the-art methodologies, may expose those components or metabolic pathways disrupted at different levels in AD. Deep comparative analysis of all the up- and down-regulated proteins across these studies revealed that 66% of the most consistent protein changes in CSF correspond to intracellular proteins. Interestingly, processes such as those associated to glucose metabolism or RXR signaling appeared inversely represented in CSF from AD patients in a significant manner. Herein, we discuss whether certain cellular processes constitute accurate indicators of AD progression by examining CSF. Furthermore, we uncover new CSF AD markers, such as ITAM, PTPRZ or CXL16, identified by this study.

Published
2021
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12. Ubiquinol Supplementation Improves Gender-Dependent Cerebral Vasoreactivity and Ameliorates Chronic Inflammation and Endothelial Dysfunction in Patients with Mild Cognitive Impairment.

Author

García-Carpintero S, Domínguez-Bértalo J, Pedrero-Prieto C, Frontiñán-Rubio J, Amo-Salas M, Durán-Prado M, García-Pérez E, Vaamonde J, and Alcain FJ

Abstract

Ubiquinol can protect endothelial cells from multiple mechanisms that cause endothelial damage and vascular dysfunction, thus contributing to dementia. A total of 69 participants diagnosed with mild cognitive impairment (MCI) received either 200 mg/day ubiquinol (Ub) or placebo for 1 year. Cognitive assessment of patients was performed at baseline and after 1 year of follow-up. Patients' cerebral vasoreactivity was examined using transcranial Doppler sonography, and levels of Ub and lipopolysaccharide (LPS) in plasma samples were quantified. Cell viability and necrotic cell death were determined using the microvascular endothelial cell line bEnd3. Coenzyme Q10 (CoQ) levels increased in patients supplemented for 1 year with ubiquinol versus baseline and the placebo group, although higher levels were observed in male patients. The higher cCoQ concentration in male patients improved cerebral vasoreactivity CRV and reduced inflammation, although the effect of Ub supplementation on neurological improvement was negligible in this study. Furthermore, plasma from Ub-supplemented patients improved the viability of endothelial cells, although only in T2DM and hypertensive patients. This suggests that ubiquinol supplementation could be recommended to reach a concentration of 5 μg/mL in plasma in MCI patients as a complement to conventional treatment.

Published
2021
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13. A comprehensive systematic review of CSF proteins and peptides that define Alzheimer's disease.

Author

Pedrero-Prieto CM, García-Carpintero S, Frontiñán-Rubio J, Llanos-González E, Aguilera García C, Alcaín FJ, Lindberg I, Durán-Prado M, Peinado JR, and Rabanal-Ruiz Y

Abstract

Background: During the last two decades, over 100 proteomics studies have identified a variety of potential biomarkers in CSF of Alzheimer's (AD) patients. Although several reviews have proposed specific biomarkers, to date, the statistical relevance of these proteins has not been investigated and no peptidomic analyses have been generated on the basis of specific up- or down- regulation. Herein, we perform an analysis of all unbiased explorative proteomics studies of CSF biomarkers in AD to critically evaluate whether proteins and peptides identified in each study are consistent in distribution; direction change; and significance, which would strengthen their potential use in studies of AD pathology and progression., Methods: We generated a database containing all CSF proteins whose levels are known to be significantly altered in human AD from 47 independent, validated, proteomics studies. Using this database, which contains 2022 AD and 2562 control human samples, we examined whether each protein is consistently present on the basis of reliable statistical studies; and if so, whether it is over- or under-represented in AD. Additionally, we performed a direct analysis of available mass spectrometric data of these proteins to generate an AD CSF peptide database with 3221 peptides for further analysis., Results: Of the 162 proteins that were identified in 2 or more studies, we investigated their enrichment or depletion in AD CSF. This allowed us to identify 23 proteins which were increased and 50 proteins which were decreased in AD, some of which have never been revealed as consistent AD biomarkers (i.e. SPRC or MUC18). Regarding the analysis of the tryptic peptide database, we identified 87 peptides corresponding to 13 proteins as the most highly consistently altered peptides in AD. Analysis of tryptic peptide fingerprinting revealed specific peptides encoded by CH3L1, VGF, SCG2, PCSK1N, FBLN3 and APOC2 with the highest probability of detection in AD., Conclusions: Our study reveals a panel of 27 proteins and 21 peptides highly altered in AD with consistent statistical significance; this panel constitutes a potent tool for the classification and diagnosis of AD., Competing Interests: Competing interestsThe authors declare that they have no competing interests., (© The Author(s) 2020.)

Published
2020
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14. Interplay Between Mitochondrial Oxidative Disorders and Proteostasis in Alzheimer's Disease.

Author

Llanos-González E, Henares-Chavarino ÁA, Pedrero-Prieto CM, García-Carpintero S, Frontiñán-Rubio J, Sancho-Bielsa FJ, Alcain FJ, Peinado JR, Rabanal-Ruíz Y, and Durán-Prado M

Abstract

Although the basis of Alzheimer's disease (AD) etiology remains unknown, oxidative stress (OS) has been recognized as a prodromal factor associated to its progression. OS refers to an imbalance between oxidant and antioxidant systems, which usually consist in an overproduction of reactive oxygen species (ROS) and reactive nitrogen species (RNS) which overwhelms the intrinsic antioxidant defenses. Due to this increased production of ROS and RNS, several biological functions such as glucose metabolism or synaptic activity are impaired. In AD, growing evidence links the ROS-mediated damages with molecular targets including mitochondrial dynamics and function, protein quality control system, and autophagic pathways, affecting the proteostasis balance. In this scenario, OS should be considered as not only a major feature in the pathophysiology of AD but also a potential target to combat the progression of the disease. In this review, we will discuss the role of OS in mitochondrial dysfunction, protein quality control systems, and autophagy associated to AD and suggest innovative therapeutic strategies based on a better understanding of the role of OS and proteostasis., (Copyright © 2020 Llanos-González, Henares-Chavarino, Pedrero-Prieto, García-Carpintero, Frontiñán-Rubio, Sancho-Bielsa, Alcain, Peinado, Rabanal-Ruíz and Durán-Prado.)

Published
2020
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15. Human amyloid-β enriched extracts: evaluation of in vitro and in vivo internalization and molecular characterization.

Author

Pedrero-Prieto CM, Flores-Cuadrado A, Saiz-Sánchez D, Úbeda-Bañón I, Frontiñán-Rubio J, Alcaín FJ, Mateos-Hernández L, de la Fuente J, Durán-Prado M, Villar M, Martínez-Marcos A, and Peinado JR

Subjects
Alzheimer Disease pathology, Amygdala pathology, Animals, Cells, Cultured, Disease Models, Animal, Endothelial Cells, Female, Hippocampus pathology, Humans, Mice, Mice, Inbred C57BL, Microvessels, Olfactory Cortex pathology, Prions metabolism, Alzheimer Disease metabolism, Amygdala metabolism, Amyloid beta-Peptides metabolism, Hippocampus metabolism, Olfactory Cortex metabolism, Peptide Fragments metabolism, Proteomics, Tissue Banks
Abstract

Background: Intracerebral inoculation of extracts from post-mortem human Alzheimer's disease brains into mice produces a prion-like spreading effect of amyloid-β. The differences observed between these extracts and the synthetic peptide, in terms of amyloid-β internalization and seed and cell-to-cell transmission of cytosolic protein aggregates, suggest that brain extracts contain key contributors that enhance the prion-like effect of amyloid-β. Nevertheless, these potential partners are still unknown due to the complexity of whole brain extracts., Methods: Herein, we established a method based on sequential detergent solubilization of post-mortem samples of human brains affected by Alzheimer's disease that strongly enrich amyloid-β aggregates by eliminating 92% of the remaining proteins. Internalization of Aβ 1-42 from the enriched AD extracts was evaluated in vitro, and internalization of fluorescent-labeled AD extracts was also investigated in vivo. Furthermore, we carried out a molecular characterization of the Aβ-enriched fraction using label-free proteomics, studying the distribution of representative components in the amygdala and the olfactory cortex of additional human AD brain samples by immunohistochemistry., Results: Aβ 1-42 from the enriched AD extracts are internalized into endothelial cells in vitro after 48 h. Furthermore, accumulation of fluorescent-labeled Aβ-enriched extracts into mouse microglia was observed in vivo after 4 months of intracerebral inoculation. Label-free proteomics (FDR < 0.01) characterization of the amyloid-β-enriched fraction from different post-mortem samples allowed for the identification of more than 130 proteins, several of which were significantly overrepresented (i.e., ANXA5 and HIST1H2BK; p < 0.05) and underrepresented (i.e., COL6A or FN1; p < 0.05) in the samples with Alzheimer's disease. We were also able to identify proteins exclusively observed in Alzheimer's disease (i.e., RNF213) or only detected in samples not affected by the disease (i.e., CNTN1) after the enrichment process. Immunohistochemistry against these proteins in additional tissues revealed their particular distribution in the amygdala and the olfactory cortex in relation to the amyloid-β plaque., Conclusions: Identification and characterization of the unique features of these extracts, in terms of amyloid-β enrichment, identification of the components, in vitro and in vivo cell internalization, and tissue distribution, constitute the best initial tool to further investigate the seeding and transmissibility proposed in the prion-like hypothesis of Alzheimer's disease.

Published
2019
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16. Sex-dependent co-occurrence of hypoxia and β-amyloid plaques in hippocampus and entorhinal cortex is reversed by long-term treatment with ubiquinol and ascorbic acid in the 3 × Tg-AD mouse model of Alzheimer's disease.

Author

Frontiñán-Rubio J, Sancho-Bielsa FJ, Peinado JR, LaFerla FM, Giménez-Llort L, Durán-Prado M, and Alcain FJ

Subjects
Animals, Antioxidants pharmacology, Ascorbic Acid pharmacology, Cell Hypoxia, Entorhinal Cortex drug effects, Entorhinal Cortex metabolism, Entorhinal Cortex pathology, Female, Hippocampus drug effects, Hippocampus metabolism, Hippocampus pathology, Male, Mice, Mice, Inbred C57BL, Ubiquinone pharmacology, Ubiquinone therapeutic use, Alzheimer Disease drug therapy, Antioxidants therapeutic use, Ascorbic Acid therapeutic use, Plaque, Amyloid drug therapy, Ubiquinone analogs & derivatives
Abstract

Structural and functional abnormalities in the cerebral microvasculature have been observed in Alzheimer's disease (AD) patients and animal models. One cause of hypoperfusion is the thickening of the cerebrovascular basement membrane (CVBM) due to increased collagen-IV deposition around capillaries. This study investigated whether these and other alterations in the cerebrovascular system associated with AD can be prevented by long-term dietary supplementation with the antioxidant ubiquinol (Ub) stabilized with Kaneka QH P30 powder containing ascorbic acid (ASC) in a mouse model of advanced AD (3 × Tg-AD mice, 12 months old). Animals were treated from prodromal stages of disease (3 months of age) with standard chow without or with Ub + ASC or ASC-containing vehicle and compared to wild-type (WT) mice. The number of β-amyloid (Aβ) plaques in the hippocampus and entorhinal cortex was higher in female than in male 3 × Tg-AD mice. Extensive regions of hypoxia were characterized by a higher plaque burden in females only. This was abolished by Ub + ASC and, to a lesser extent, by ASC treatment. Irrespective of Aβ burden, increased collagen-IV deposition in the CVBM was observed in both male and female 3 × Tg-AD mice relative to WT animals; this was also abrogated in Ub + ASC- and ASC-treated mice. The chronic inflammation in the hippocampus and oxidative stress in peripheral leukocytes of 3 × Tg-AD mice were likewise reversed by antioxidant treatment. These results provide strong evidence that long-term antioxidant treatment can mitigate plasma oxidative stress, amyloid burden, and hypoxia in the AD brain parenchyma., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2018
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17. Regulation of the oxidative balance with coenzyme Q10 sensitizes human glioblastoma cells to radiation and temozolomide.

Author

Frontiñán-Rubio J, Santiago-Mora RM, Nieva-Velasco CM, Ferrín G, Martínez-González A, Gómez MV, Moreno M, Ariza J, Lozano E, Arjona-Gutiérrez J, Gil-Agudo A, De la Mata M, Pesic M, Peinado JR, Villalba JM, Pérez-Romasanta L, Pérez-García VM, Alcaín FJ, and Durán-Prado M

Subjects
Antioxidants therapeutic use, Apoptosis physiology, Brain Neoplasms drug therapy, Brain Neoplasms enzymology, DNA Damage, Dacarbazine pharmacology, Glioblastoma drug therapy, Glioblastoma enzymology, Humans, Hydrogen Peroxide metabolism, Mitochondria metabolism, Oxidative Stress, Oxygen Consumption physiology, Radiation Tolerance, Reactive Oxygen Species metabolism, Temozolomide, Tumor Cells, Cultured, Ubiquinone metabolism, Ubiquinone pharmacology, Brain Neoplasms radiotherapy, Dacarbazine analogs & derivatives, Glioblastoma radiotherapy, Ubiquinone analogs & derivatives
Abstract

Objectives: To investigate how the modulation of the oxidative balance affects cytotoxic therapies in glioblastoma, in vitro., Material and Methods: Human glioblastoma U251 and T98 cells and normal astrocytes C8D1A were loaded with coenzyme Q10 (CoQ). Mitochondrial superoxide ion (O 2 - ) and H 2 O 2 were measured by fluorescence microscopy. OXPHOS performance was assessed in U251 cells with an oxytherm Clark-type electrode. Radio- and chemotherapy cytotoxicity was assessed by immunostaining of γH2AX (24 h), annexin V and nuclei morphology, at short (72 h) and long (15 d) time. Hif-1α, SOD1, SOD2 and NQO1 were determined by immunolabeling. Catalase activity was measured by classic enzymatic assay. Glutathione levels and total antioxidant capacity were quantified using commercial kits., Results: CoQ did not affect oxygen consumption but reduced the level of O 2 - and H 2 O 2 while shifted to a pro-oxidant cell status mainly due to a decrease in catalase activity and SOD2 level. Hif-1α was dampened, echoed by a decrease lactate and several key metabolites involved in glutathione synthesis. CoQ-treated cells were twofold more sensitive than control to radiation-induced DNA damage and apoptosis in short and long-term clonogenic assays, potentiating TMZ-induced cytotoxicity, without affecting non-transformed astrocytes., Conclusions: CoQ acts as sensitizer for cytotoxic therapies, disarming GBM cells, but not normal astrocytes, against further pro-oxidant injuries, being potentially useful in clinical practice for this fatal pathology., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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18. Graphene and graphene oxide induce ROS production in human HaCaT skin keratinocytes: the role of xanthine oxidase and NADH dehydrogenase.

Author

Pelin M, Fusco L, Martín C, Sosa S, Frontiñán-Rubio J, González-Domínguez JM, Durán-Prado M, Vázquez E, Prato M, and Tubaro A

Subjects
Cell Line, Filaggrin Proteins, Humans, Keratinocytes metabolism, Membrane Potential, Mitochondrial, Nanostructures, Oxides, Graphite pharmacology, Keratinocytes drug effects, NADH Dehydrogenase metabolism, Reactive Oxygen Species metabolism, Xanthine Oxidase metabolism
Abstract

The extraordinary physicochemical properties of graphene-based nanomaterials (GBNs) make them promising tools in nanotechnology and biomedicine. Considering the skin contact as one of the most feasible exposure routes to GBNs, the mechanism of toxicity of two GBNs (few-layer-graphene, FLG, and graphene oxide, GO) towards human HaCaT skin keratinocytes was investigated. Both materials induced a significant mitochondrial membrane depolarization: 72 h cell exposure to 100 μg mL-1 FLG or GO increased mitochondrial depolarization by 44% and 56%, respectively, while the positive control valinomycin (0.1 μg mL-1) increased mitochondrial depolarization by 48%. Since the effect was not prevented by cyclosporine-A, it appears to be unrelated to mitochondrial transition pore opening. By contrast, it seems to be mediated by reactive oxygen species (ROS) production: FLG and GO induced time- and concentration-dependent cellular ROS production, significant already at the concentration of 0.4 μg mL-1 after 24 h exposure. Among a panel of specific inhibitors of the major ROS-producing enzymes, diphenyliodonium, rotenone and allopurinol significantly reverted or even abolished FLG- or GO-induced ROS production. Intriguingly, the same inhibitors also significantly reduced FLG- or GO-induced mitochondrial depolarization and cytotoxicity. This study shows that FLG and GO induce a cytotoxic effect due to a sustained mitochondrial depolarization. This seems to be mediated by a significant cellular ROS production, caused by the activation of flavoprotein-based oxidative enzymes, such as NADH dehydrogenase and xanthine oxidase.

Published
2018
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19. Differential effects of graphene materials on the metabolism and function of human skin cells.

Author

Frontiñán-Rubio J, Gómez MV, Martín C, González-Domínguez JM, Durán-Prado M, and Vázquez E

Subjects
Apoptosis, Cell Line, Filaggrin Proteins, Humans, Oxides, Reactive Oxygen Species, Skin cytology, Skin drug effects, Graphite pharmacology, Keratinocytes drug effects, Nanostructures
Abstract

Graphene-related materials (GRMs) such as graphene oxide (GO) and few-layer graphene (FLG) are used in multiple biomedical applications; however, there is still insufficient information available regarding their interactions with the main biological barriers such as skin. In this study, we explored the effects of GO and FLG on HaCaTs human skin keratinocytes, using NMR-based metabolomics and fluorescence microscopy to evaluate the global impact of each GRM on cell fate and damage. GO and FLG at low concentrations (5 μg mL-1) induced a differential remodeling of the metabolome, preceded by an increase in the level of radical oxygen species (ROS) and free cytosolic Ca2+. These changes are linked to a concentration-dependent increase in cell death by triggering apoptosis and necrosis, the latter being predominant at higher concentrations of the nanostructures. In addition, both compounds reduce the ability of HaCaT cells to heal wounds. Our results demonstrate that the GO and FLG used in this study, which mainly differ in their oxidation state, slightly trigger differential effects on HaCaTs cells, but with evident outcomes at the cellular and molecular levels. Their behavior as pro-apoptotic/necrotic substances and their ability to inhibit cell migration, even at low doses, should be considered in the development of future applications.

Published
2018
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20. Neophobia, NQO1 and SIRT1 as premorbid and prodromal indicators of AD in 3xTg-AD mice.

Author

Torres-Lista V, Parrado-Fernández C, Alvarez-Montón I, Frontiñán-Rubio J, Durán-Prado M, Peinado JR, Johansson B, Alcaín FJ, and Giménez-Llort L

Subjects
Aging metabolism, Amyloid beta-Protein Precursor metabolism, Animals, Cerebral Cortex metabolism, Disease Models, Animal, Hippocampus metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Superoxide Dismutase metabolism, Superoxide Dismutase-1, Aging psychology, Alzheimer Disease metabolism, Alzheimer Disease psychology, Cognition, NAD(P)H Dehydrogenase (Quinone) metabolism, Sirtuin 1 metabolism
Abstract

Increased oxidative stress seems to be a key factor underlying natural processes of aging, but also to occur prior to neuropathological hallmarks of neurodegenerative diseases. The present work studied the temporal variation of three key antioxidant enzymes in cortex and hippocampus during the development of behavioral and cognitive symptoms in 3xTg-AD mice, and as compared to age-matched controls. At 2 months of age, when no intraneuronal Aβ immunoreactivity has been reported, increased neophobia shown as a delayed and reduced rearing, evidenced the onset of BPSD-like symptoms at premorbid stages of disease. In these animals, NQO1 was found increased in both the hippocampus (800%) and cortex (400%) and progressively diminished at older ages. SOD1 was increased in the hippocampus at 4 months of age, when neuronal Aβ accumulation has been established. These hippocampal increases of antioxidants before the prodromal emergence of cognitive symptoms support their role as defense mechanisms. SIRT1 levels showed opposite age-dependent changes in cortex (increase) and hippocampus (decrease) relative to controls. Prodromal cognitive deficits emerged at 6 months of age, concomitantly to cortical overexpression of SIRT1 but down-regulation of NQO1 and SIRT1 in the hippocampus, suggesting inadequate antioxidative protection to prevent or delay the subjacent neuronal damage. The present data further support the link between oxidative status and the anxious profile. Their crosstalk may underline AD-pathological mechanisms that may lead to deranged physiology and selective neuronal degeneration. It also points out increased neophobia and high expression of NQO1 among the first indicators of disease in the 3xTg-AD mice., (Copyright © 2014. Published by Elsevier B.V.)

Published
2014
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