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1.
Diabetologia ; 2024 Oct 18.
Article in English | MEDLINE | ID: mdl-39422717

ABSTRACT

AIMS/HYPOTHESIS: Metabolic disorders associated with abdominal obesity, dyslipidaemia, arterial hypertension and hyperglycaemia are risk factors for the development of insulin resistance. Extracellular vesicles (EVs) may play an important role in the regulation of metabolic signalling pathways in insulin resistance and associated complications. METHODS: Circulating large EVs (lEVs) and small EVs (sEVs) from individuals with (IR group) and without insulin resistance (n-IR group) were isolated and characterised. lEVs and sEVs were administered by i.v. injection to mice and systemic, adipose tissue and liver insulin signalling were analysed. The role of phosphatases was analysed in target tissues and cells. RESULTS: Injection of lEVs and sEVs from IR participants impaired systemic, adipose tissue and liver insulin signalling in mice, while EVs from n-IR participants had no effect. Moreover, lEVs and sEVs from IR participants brought about a twofold increase in adipocyte size and adipogenic gene expression. EVs from IR participants expressed two types of phosphatases, phosphotyrosine 1 phosphatase (PTP1B) and protein phosphatase 2 (PP2A), IR lEVs being enriched with the active form of PTP1B while IR sEVs mainly carried active PP2A. Blockade of PTP1B activity in IR lEVs fully restored IRS1 and Akt phosphorylation in adipocytes and blunted insulin-induced Akt phosphorylation by inhibition of the macrophage secretome in hepatocytes. Conversely, blockade of PP2A activity in IR sEVs completely prevented insulin resistance in adipocytes and hepatocytes. CONCLUSIONS/INTERPRETATION: These data demonstrate that inhibition of phosphatases carried by EVs from IR participants rescues insulin signalling in adipocytes and hepatocytes and point towards PTP1B and PP2A carried by IR EVs as being novel potential therapeutic targets against insulin resistance in adipose tissue and liver and the development of obesity.

2.
Int J Mol Sci ; 25(6)2024 Mar 11.
Article in English | MEDLINE | ID: mdl-38542182

ABSTRACT

Obstructive sleep apnea syndrome (OSA) has been associated with increased cancer incidence and aggressiveness. One hypothesis to support this association is the implication of immune response, particularly the programmed cell death pathway, formed by the receptor PD-1 and its ligand PD-L1. Recent studies have shown dysregulation of this pathway in severe OSA patients. It has also been shown that small extracellular vesicles (sEVs) carrying PD-L1 induce lymphocyte dysfunction. Thus, the aim of our study was to analyze the expression of PD-L1 on sEVs of OSA patients and to evaluate the role of sEVs on lymphocyte activation and cytotoxicity. Circulating sEVs were isolated from OSA patients and the control group. Lymphocytes were isolated from the control group. Circulating sEVs were characterized by western blot, nanotracking analysis, and flow cytometry and were incubated with lymphocytes. Our results show no differences in the quantity and composition of sEVs in OSA patients and no significant effects of sEVs in OSA patients on lymphocyte activation and cytotoxicity. These results suggest that OSA does not modify PD-L1 expression on sEVs, which does not contribute to dysregulation of cytotoxic lymphocytes.


Subject(s)
Extracellular Vesicles , Neoplasms , Sleep Apnea, Obstructive , Humans , B7-H1 Antigen , Extracellular Vesicles/metabolism , Neoplasms/complications , Sleep Apnea, Obstructive/metabolism
3.
Surg Endosc ; 37(12): 9080-9088, 2023 12.
Article in English | MEDLINE | ID: mdl-37798533

ABSTRACT

INTRODUCTION: Retrorectal tumors (RRTs) are rare and often surgically excised due to the risk of malignant degeneration and compressive or obstructive symptoms. The approach for excision has traditionally been based on tumor location and performed using either a transabdominal or perineal approach depending on the position of the tumor. The advent of minimally invasive surgery, however, has challenged this paradigm. Here, we determined the applicability and potential advantages of a laparoscopic transabdominal approach in a series of 23 patients with RRTs. MATERIAL AND METHODS: We included 23 patients presenting with RRTs treated at the Surgical Gastrointestinal Unit at Hospital de Sant Pau that were registered prospectively since 1998. The preoperative evaluation consisted of colonoscopy, CT scan and/or MRI, mechanical bowel lavage, and antibiotic therapy. Signed consent was obtained from all patients for a laparoscopic transabdominal approach unless the tumor was easily accessible via a perineal approach. In case of recurrence, a transanal endoscopic microsurgery (TEM) approach was considered. Surgical details, immediate morbidity, and short- and long-term outcomes were recorded. RESULTS: Of the 23 RRT cases evaluated, 16 patients underwent a laparoscopic transabdominal approach and 6 underwent a perineal approach. No patients required conversion to open surgery. In the laparoscopic transabdominal group, the mean operating time was 158 min, the average postoperative hospital stay was 5 days, and postoperative morbidity was 18%. Three patients had recurrent RRTs, two of the three underwent surgical reintervention. The third patient was radiologically stable and close follow-up was decided. CONCLUSION: Our results show that laparoscopic transabdominal excision of RRT is a safe and effective technique, offering the potential advantages of less invasive access and reduced morbidity. This approach challenges the traditional paradigm of excision of these infrequent tumors based solely on tumor location and offers a viable alternative for the treatment of these infrequent tumors.


Subject(s)
Laparoscopy , Rectal Neoplasms , Transanal Endoscopic Microsurgery , Humans , Neoplasm Recurrence, Local/surgery , Laparoscopy/methods , Rectal Neoplasms/surgery , Rectal Neoplasms/pathology , Colonoscopy , Treatment Outcome
4.
Circ Res ; 127(6): 747-760, 2020 08 28.
Article in English | MEDLINE | ID: mdl-32539601

ABSTRACT

RATIONALE: Metabolic syndrome (MetS) is a cluster of interrelated risk factors for cardiovascular diseases and atherosclerosis. Circulating levels of large extracellular vesicles (lEVs), submicrometer-sized vesicles released from plasma membrane, from MetS patients were shown to induce endothelial dysfunction, but their role in early stage of atherosclerosis and on vascular smooth muscle cells (SMC) remain to be fully elucidated. OBJECTIVE: To determine the mechanisms by which lEVs lead to the progression of atherosclerosis in the setting of MetS. METHODS AND RESULTS: Proteomic analysis revealed that the small GTPase, Rap1 was overexpressed in lEVs from MetS patients compared with those from non-MetS subjects. Rap1 was in GTP-associated active state in both types of lEVs, and Rap1-lEVs levels correlated with increased cardiovascular risks, including stenosis. MetS-lEVs, but not non-MetS-lEVs, increased Rap1-dependent endothelial cell permeability. MetS-lEVs significantly promoted migration and proliferation of human aortic SMC and increased expression of proinflammatory molecules and activation of ERK (extracellular signal-regulated kinase) 5/p38 pathways. Neutralization of Rap1 by specific antibody or pharmacological inhibition of Rap1 completely prevented the effects of lEVs from MetS patients. High-fat diet-fed ApoE-/- mice displayed an increased expression of Rap1 both in aortas and circulating lEVs. lEVs accumulated in plaque atherosclerotic lesions depending on the progression of atherosclerosis. lEVs from high-fat diet-fed ApoE-/- mice, but not those from mice fed with a standard diet, enhanced SMC proliferation. Human atherosclerotic lesions were enriched in lEVs expressing Rap1. CONCLUSIONS: These data demonstrate that Rap1 carried by MetS-lEVs participates in the enhanced SMC proliferation, migration, proinflammatory profile, and activation of ERK5/p38 pathways leading to vascular inflammation and remodeling, and atherosclerosis. These results highlight that Rap1 carried by MetS-lEVs may be a novel determinant of diagnostic value for cardiometabolic risk factors and suggest Rap1 as a promising therapeutic target against the development of atherosclerosis. Graphical Abstract: A graphical abstract is available for this article.


Subject(s)
Atherosclerosis/metabolism , Endothelial Cells/metabolism , Extracellular Vesicles/metabolism , Muscle, Smooth, Vascular/metabolism , Myocytes, Smooth Muscle/metabolism , Plaque, Atherosclerotic , rap1 GTP-Binding Proteins/metabolism , Adult , Aged , Aged, 80 and over , Animals , Atherosclerosis/blood , Atherosclerosis/pathology , Case-Control Studies , Cell Movement , Cell Proliferation , Cells, Cultured , Disease Models, Animal , Endothelial Cells/pathology , Female , Humans , Male , Mice, Inbred C57BL , Mice, Knockout, ApoE , Middle Aged , Mitogen-Activated Protein Kinase 7/metabolism , Muscle, Smooth, Vascular/pathology , Myocytes, Smooth Muscle/pathology , Permeability , Phosphorylation , Prognosis , Proteomics , Risk Assessment , Risk Factors , Signal Transduction , p38 Mitogen-Activated Protein Kinases/metabolism , rap GTP-Binding Proteins
5.
Handb Exp Pharmacol ; 274: 205-226, 2022.
Article in English | MEDLINE | ID: mdl-34853949

ABSTRACT

The epidemics of obesity and type 2 diabetes have led to intensive investigation of the underlying mechanisms of these diseases and their main complications such as cardiovascular diseases and non-alcoholic fatty liver disease. This search has contributed to better understand how organs and tissues communicate with each other in the so-called inter-organ crosstalk. Adipose tissue, the liver, or skeletal muscle can actively release secreted factors termed "organokines" which can interact with other distant targets in complex networks. More recently, other novel mediators of inter-organ crosstalk such as extracellular vesicles and their non-traditional cargoes as miRNAs and lncRNAs are gaining importance and represent potential therapeutic targets. In the present chapter we summarize some of the current knowledge on inter-organ communication with a focus on adipose tissue-released factors and their modulation on other organs and tissues like pancreas, liver, skeletal muscle, the cardiovascular system, and the gut in the context of obesity and its progression to insulin resistance. We also provide a perspective on mediators of inter-organ crosstalk as potential therapeutic targets.


Subject(s)
Diabetes Mellitus, Type 2 , Insulin Resistance , Non-alcoholic Fatty Liver Disease , Adipose Tissue , Diabetes Mellitus, Type 2/etiology , Humans , Insulin Resistance/physiology , Obesity
6.
FASEB J ; 33(5): 5864-5875, 2019 05.
Article in English | MEDLINE | ID: mdl-30817178

ABSTRACT

Angiogenesis is a complex process leading to the growth of new blood vessels from existing vasculature, triggered by local proangiogenic factors such as VEGF. An excess of angiogenesis is a recurrent feature of various pathologic conditions such as tumor growth. Phostines are a family of synthetic glycomimetic compounds that exhibit anticancer properties, and the lead compound 3-hydroxy-4,5-bis-benzyloxy-6-benzyloxymethyl-2-phenyl2-oxo-2λ5-[1,2]oxaphosphinane (PST 3.1a) shows antiglioblastoma properties both in vitro and in vivo. In the present study, we assessed the effect of PST 3.1a on angiogenesis and endothelial metabolism. In vitro, PST 3.1a (10 µM) inhibited all steps that regulate angiogenesis, including migration, proliferation, adhesion, and tube formation. In vivo, PST 3.1a reduced intersegmental vessel formation and vascularization of the subintestinal plexus in zebrafish embryos and also altered pathologic angiogenesis and glioblastoma progression in vivo. Mechanistically, PST 3.1a altered interaction of VEGF receptor 2 and glycosylation-regulating protein galectin-1, a key component regulating angiogenesis associated with tumor resistance. Thus, these data show that use of PST 3.1a is an innovative approach to target angiogenesis.-Bousseau, S., Marchand, M., Soleti, R., Vergori, L., Hilairet, G., Recoquillon, S., Le Mao, M., Gueguen, N., Khiati, S., Clarion, L., Bakalara, N., Martinez, M. C., Germain, S., Lenaers, G., Andriantsitohaina, R. Phostine 3.1a as a pharmacological compound with antiangiogenic properties against diseases with excess vascularization.


Subject(s)
Angiogenesis Inhibitors/pharmacology , Neovascularization, Pathologic/drug therapy , Phosphines/pharmacology , Adenosine Diphosphate/metabolism , Adenosine Triphosphate/metabolism , Animals , Apoptosis , Cell Adhesion , Cell Line, Tumor , Cell Movement/drug effects , Cell Proliferation , Endothelial Cells/metabolism , Extracellular Matrix/metabolism , Galectin 1/metabolism , Glioblastoma/metabolism , Glycosylation , Human Umbilical Vein Endothelial Cells , Humans , Male , Mice , Mice, Nude , Neoplasm Transplantation , Signal Transduction/drug effects , Vascular Endothelial Growth Factor A/metabolism , Vascular Endothelial Growth Factor Receptor-2/metabolism , Zebrafish
7.
Thorax ; 74(5): 496-499, 2019 05.
Article in English | MEDLINE | ID: mdl-30366971

ABSTRACT

Systemic inflammation and metabolic disorders are among the mechanisms linking obstructive sleep apnoea (OSA) and cardiovascular disease (CVD). In 109 patients with severe OSA and no overt CVD, biomarkers of inflammation (C reactive protein, interleukin-6, tumour necrosis factor-α and its receptors, adiponectin, leptin and P-selectin), glucose and lipid metabolism, and N-terminal pro-brain natriuretic peptide, were measured before and after 2 months of treatment with a mandibular advancement device (MAD) (n=55) or a sham device (n=54). MAD reduced the Apnoea-Hypopnoea Index (p<0.001) but had no effect on circulating biomarkers compared with the sham device, despite high treatment adherence (6.6 hour/night). TRIAL REGISTRATION NUMBER: NCT01426607.


Subject(s)
C-Reactive Protein/metabolism , Inflammation/blood , Interleukin-6/blood , Mandibular Advancement/methods , Sleep Apnea, Obstructive/therapy , Tumor Necrosis Factor-alpha/blood , Biomarkers/blood , Female , Humans , Male , Middle Aged , Polysomnography , Severity of Illness Index , Sleep Apnea, Obstructive/blood , Sleep Apnea, Obstructive/diagnosis , Treatment Outcome
8.
Circ Res ; 120(10): 1674-1686, 2017 May 12.
Article in English | MEDLINE | ID: mdl-28495997

ABSTRACT

Metabolic syndrome defines a cluster of interrelated risk factors for cardiovascular disease and diabetes mellitus. These factors include metabolic abnormalities, such as hyperglycemia, elevated triglyceride levels, low high-density lipoprotein cholesterol levels, high blood pressure, and obesity, mainly central adiposity. In this context, extracellular vesicles (EVs) may represent novel effectors that might help to elucidate disease-specific pathways in metabolic disease. Indeed, EVs (a terminology that encompasses microparticles, exosomes, and apoptotic bodies) are emerging as a novel mean of cell-to-cell communication in physiology and pathology because they represent a new way to convey fundamental information between cells. These microstructures contain proteins, lipids, and genetic information able to modify the phenotype and function of the target cells. EVs carry specific markers of the cell of origin that make possible monitoring their fluctuations in the circulation as potential biomarkers inasmuch their circulating levels are increased in metabolic syndrome patients. Because of the mixed components of EVs, the content or the number of EVs derived from distinct cells of origin, the mode of cell stimulation, and the ensuing mechanisms for their production, it is difficult to attribute specific functions as drivers or biomarkers of diseases. This review reports recent data of EVs from different origins, including endothelial, smooth muscle cells, macrophages, hepatocytes, adipocytes, skeletal muscle, and finally, those from microbiota as bioeffectors of message, leading to metabolic syndrome. Depicting the complexity of the mechanisms involved in their functions reinforce the hypothesis that EVs are valid biomarkers, and they represent targets that can be harnessed for innovative therapeutic approaches.


Subject(s)
Extracellular Vesicles/metabolism , Metabolic Syndrome/blood , Cell Communication/physiology , Diabetes Mellitus/blood , Diabetes Mellitus/diagnosis , Diabetes Mellitus/therapy , Exosomes/metabolism , Humans , Hypertension/blood , Hypertension/diagnosis , Hypertension/therapy , Metabolic Syndrome/diagnosis , Metabolic Syndrome/therapy , Obesity/blood , Obesity/diagnosis , Obesity/therapy , Risk Factors
9.
Arch Biochem Biophys ; 644: 57-63, 2018 04 15.
Article in English | MEDLINE | ID: mdl-29518372

ABSTRACT

Polyphenols are found in plant-derived foods and beverages and display numerous protective effects against cancers, cardiovascular, metabolic and neurodegenerative diseases. Extracellular vesicles (EVs), microparticles, exosomes, and apoptotic bodies, originated by different cell types are emerging as a novel mean of cell-to-cell communication in physiology and pathology and represent a new way to convey fundamental information between cells. Polyphenols can act on signaling pathways that interfere with the biogenesis of EVs. Thus, they are able to control EV release from cells and their content and therefore their functional properties. Both EVs and polyphenols are therapeutic tools that can be used against several diseases. In this context, the combination of both tools can increase their therapeutic potential. Three types of strategies can be used: (i) plants are able to produce EVs that encapsulate natural components from vegetables, polyphenols for instance, (ii) mammalian cells can be treated with polyphenols and the subsequent EVs produced are enriched in these components, and (iii) EVs from mammalian cells can be uploaded with polyphenols. We review the novel aspects of the interplay between polyphenols and EVs that could trigger and improve the health benefits in cancer, cardiovascular, metabolic and neurodegenerative diseases.


Subject(s)
Antineoplastic Agents, Phytogenic , Cardiovascular Diseases/drug therapy , Drug Delivery Systems , Extracellular Vesicles/metabolism , Metabolic Diseases/drug therapy , Neoplasms/drug therapy , Neurodegenerative Diseases/drug therapy , Plants, Medicinal/chemistry , Polyphenols , Animals , Antineoplastic Agents, Phytogenic/chemistry , Antineoplastic Agents, Phytogenic/therapeutic use , Cardiovascular Diseases/metabolism , Cardiovascular Diseases/pathology , Extracellular Vesicles/pathology , Humans , Metabolic Diseases/metabolism , Metabolic Diseases/pathology , Neoplasms/metabolism , Neoplasms/pathology , Neurodegenerative Diseases/metabolism , Neurodegenerative Diseases/pathology , Polyphenols/chemistry , Polyphenols/therapeutic use , Signal Transduction/drug effects
10.
Brain ; 139(11): 2864-2876, 2016 11 01.
Article in English | MEDLINE | ID: mdl-27633772

ABSTRACT

Leber's hereditary optic neuropathy (MIM#535000), the commonest mitochondrial DNA-related disease, is caused by mutations affecting mitochondrial complex I. The clinical expression of the disorder, usually occurring in young adults, is typically characterized by subacute, usually sequential, bilateral visual loss, resulting from the degeneration of retinal ganglion cells. As the precise action of mitochondrial DNA mutations on the overall cell metabolism in Leber's hereditary optic neuropathy is unknown, we investigated the metabolomic profile of the disease. High performance liquid chromatography coupled with tandem mass spectrometry was used to quantify 188 metabolites in fibroblasts from 16 patients with Leber's hereditary optic neuropathy and eight healthy control subjects. Latent variable-based statistical methods were used to identify discriminating metabolites. One hundred and twenty-four of the metabolites were considered to be accurately quantified. A supervised orthogonal partial least squares discriminant analysis model separating patients with Leber's hereditary optic neuropathy from control subjects showed good predictive capability (Q 2cumulated = 0.57). Thirty-eight metabolites appeared to be the most significant variables, defining a Leber's hereditary optic neuropathy metabolic signature that revealed decreased concentrations of all proteinogenic amino acids, spermidine, putrescine, isovaleryl-carnitine, propionyl-carnitine and five sphingomyelin species, together with increased concentrations of 10 phosphatidylcholine species. This signature was not reproduced by the inhibition of complex I with rotenone or piericidin A in control fibroblasts. The importance of sphingomyelins and phosphatidylcholines in the Leber's hereditary optic neuropathy signature, together with the decreased amino acid pool, suggested an involvement of the endoplasmic reticulum. This was confirmed by the significantly increased phosphorylation of PERK and eIF2α, as well as the greater expression of C/EBP homologous protein and the increased XBP1 splicing, in fibroblasts from affected patients, all these changes being reversed by the endoplasmic reticulum stress inhibitor, TUDCA (tauroursodeoxycholic acid). Thus, our metabolomic analysis reveals a pharmacologically-reversible endoplasmic reticulum stress in complex I-related Leber's hereditary optic neuropathy fibroblasts, a finding that may open up new therapeutic perspectives for the treatment of Leber's hereditary optic neuropathy with endoplasmic reticulum-targeting drugs.


Subject(s)
DNA, Mitochondrial/genetics , Electron Transport Complex I/metabolism , Endoplasmic Reticulum Stress/physiology , Mutation/genetics , Optic Atrophy, Hereditary, Leber/metabolism , Adult , Aged , Cells, Cultured , Cohort Studies , Electron Transport Complex I/genetics , Endoplasmic Reticulum Stress/drug effects , Female , Fibroblasts/drug effects , Fibroblasts/metabolism , Fibroblasts/pathology , Gene Expression Regulation/drug effects , Gene Expression Regulation/genetics , Humans , Insecticides/pharmacology , Male , Metabolomics/methods , Middle Aged , Optic Atrophy, Hereditary, Leber/genetics , Optic Atrophy, Hereditary, Leber/pathology , Pyridines/pharmacology , Rotenone/pharmacology , Young Adult
11.
Stem Cells ; 33(4): 1292-303, 2015 Apr.
Article in English | MEDLINE | ID: mdl-25524540

ABSTRACT

Peroxisome proliferator-activated receptor-alpha (PPARα) is a key modulator of lipid metabolism. Here, we propose that PPARα regulates the maturation and function of bone marrow (BM) progenitor cells. Although PPARα deletion increased the number of BM-resident cells and the differentiation of endothelial progenitor cells (EPCs) and monocytic progenitor cells, it impaired re-endothelialization of injured carotid artery that was associated with reduced circulating EPCs. Also, PPARα deletion diminished the in vivo proangiogenic effect of PPARα agonist without affecting EPC differentiation markers. Macrophage colony-stimulating factor treatment increased the population of monocytic progenitor cells as well as secretome of BM-derived cells in PPARα wild-type but not in knockout mice. In addition, PPARα-null mice displayed reduced lymphocytes and increased monocytes and neutrophils in the blood. Furthermore, PPARα-null mice exhibited increments in the number of total cells (as well as of phenotypically distinct subpopulations of lymph node cells) but also a significant alteration in the number of various subpopulations of splenocytes and thymocytes. Finally, PPARα negatively regulated reactive oxygen species derived by NADPH oxidase in BM-resident progenitor cells. Taken together, our data provide evidence that PPARα is a critical regulator of recruitment, homing, and maturation of BM-derived progenitor cells.


Subject(s)
Cell Differentiation/physiology , Cell Lineage/physiology , Endothelial Progenitor Cells/physiology , NADPH Oxidases/physiology , PPAR alpha/physiology , Animals , Cell Movement/physiology , Cells, Cultured , Male , Mice , Mice, Inbred C57BL , Mice, Knockout
12.
Biochim Biophys Acta ; 1842(2): 202-7, 2014 Feb.
Article in English | MEDLINE | ID: mdl-24275556

ABSTRACT

Microparticles are deemed true biomarkers and vectors of biological information between cells. Depending on their origin, the composition of microparticles varies and the subsequent message transported by them, such as proteins, mRNA, or miRNA, can differ. In obstructive sleep apnea syndrome (OSAS), circulating microparticles are associated with endothelial dysfunction by reducing endothelial-derived nitric oxide production. Here, we have analyzed the potential role of circulating microparticles from OSAS patients on the regulation of angiogenesis and the involved pathway. VEGF content carried by circulating microparticles from OSAS patients was increased when compared with microparticles from non-OSAS patients. Circulating microparticles from OSAS patients induced an increase of angiogenesis that was abolished in the presence of the antagonist of endothelin-1 receptor type B. In addition, endothelin-1 secretion was increased in human endothelial cells treated by OSAS microparticles. We highlight that circulating microparticles from OSAS patients can modify the secretome of endothelial cells leading to angiogenesis.


Subject(s)
Cell-Derived Microparticles/physiology , Endothelial Cells/physiology , Endothelin-1/metabolism , Neovascularization, Physiologic/physiology , Receptor, Endothelin B/metabolism , Adult , Aged , Aorta/cytology , Apoptosis/physiology , Blotting, Western , Cell Adhesion/physiology , Cell-Derived Microparticles/metabolism , Endothelial Cells/drug effects , Endothelial Cells/metabolism , Endothelin B Receptor Antagonists , Flow Cytometry , Humans , Male , Middle Aged , Neovascularization, Physiologic/drug effects , Oligopeptides/pharmacology , Piperidines/pharmacology , Sleep Apnea, Obstructive/blood , Sleep Apnea, Obstructive/physiopathology , Vascular Endothelial Growth Factor A/metabolism , Vascular Endothelial Growth Factor A/pharmacology , Young Adult
13.
Clin Sci (Lond) ; 129(8): 687-98, 2015 Oct 01.
Article in English | MEDLINE | ID: mdl-26201020

ABSTRACT

During sepsis, endothelial barrier dysfunction contributes to cardiovascular failure, mainly through the release of oxidative metabolites by penetrant leukocytes. We reported the non-muscular isoform of myosin light chain kinase (nmMLCK) playing a pivotal role in endotoxin shock injury associated with oxidative and nitrative stresses, and vascular hyporeactivity. The present study was aimed at understanding the molecular mechanism of lipopolysaccharide (LPS)-induced vascular alterations as well as studying a probable functional association of nmMLCK with nuclear factor κ-light-chain enhancer of activated B cells (NF-κB). Aortic rings from mice were exposed in vitro to LPS and, then, vascular reactivity was measured. Human aortic endothelial cells (HAoECs) were incubated with LPS, and interaction of nmMLCK with NF-κB was analysed. We provide evidence that nmMLCK deletion prevents vascular hyporeactivity induced by in vitro LPS treatment but not endothelial dysfunction in the aorta. Deletion of nmMLCK inhibits LPS-induced NF-κB activation and increases nitric oxide (NO) release via induction of inducible NO synthase (iNOS) within the vascular wall. Also, removal of endothelium prevented both NF-κB and iNOS expression in aortic rings. Among the proinflammatory factors released by LPS-treated endothelial cells, interleukin-6 accounts for the induction of iNOS on smooth muscle cells in response to LPS. Of particular interest is the demonstration that, in HAoECs, LPS-induced NF-κB activation occurs via increased MLCK activity sensitive to the MLCK inhibitor, ML-7, and physical interactions between nmMLCK and NF-κB. We report for the first time on NF-κB as a novel partner of nmMLCK within endothelial cells. The present study demonstrates a pivotal role of nmMLCK in vascular inflammatory pathologies.


Subject(s)
Endothelium, Vascular/enzymology , Myosin-Light-Chain Kinase/metabolism , NF-kappa B/metabolism , Sepsis/enzymology , Animals , Aorta/enzymology , Cells, Cultured , Endothelium, Vascular/physiopathology , Humans , In Vitro Techniques , Lipopolysaccharides , Male , Mice, Knockout , Nitric Oxide/metabolism , Nitric Oxide Synthase Type II/metabolism , Sepsis/physiopathology
14.
Biochim Biophys Acta ; 1827(3): 239-47, 2013 Mar.
Article in English | MEDLINE | ID: mdl-23201478

ABSTRACT

The enzyme S-nitrosoglutathione reductase (GSNOR) has an important role in the metabolism of S-nitrosothiols (SNO) and, consequently, in the modulation of nitric oxide (NO)-mediated processes. Although the mitochondrial electron transport chain is an important target of NO, the role of GSNOR in the functionality of plant mitochondria has not been addressed. Here, we measured SNO content and NO emission in Arabidopsis thaliana cell suspension cultures of wild-type (WT) and GSNOR overexpressing (GSNOR(OE)) or antisense (GSNOR(AS)) transgenic lines, grown under optimal conditions and under nutritional stress. Respiratory activity of isolated mitochondria and expression of genes encoding for mitochondrial proteins were also analyzed. Under optimal growth conditions, GSNOR(OE) had the lowest SNO and NO levels and GSNOR(AS) the highest, as expected by the GSNO-consuming activity of GSNOR. Under stress, this pattern was reversed. Analysis of oxygen uptake by isolated mitochondria showed that complex I and external NADH dehydrogenase activities were inhibited in GSNOR(OE) cells grown under nutritional stress. Moreover, GSNOR(OE) could not increase alternative oxidase (AOX) activity under nutritional stress. GSNOR(AS) showed constitutively high activity of external NADH dehydrogenase, and maintained the activity of the uncoupling protein (UCP) under stress. The alterations observed in mitochondrial protein activities were not strictly correlated to changes in gene expression, but instead seemed to be related with the SNO/NO content, suggesting a post-transcriptional regulation. Overall, our results highlight the importance of GSNOR in modulating SNO and NO homeostasis as well mitochondrial functionality, both under normal and adverse conditions in A. thaliana cells.


Subject(s)
Aldehyde Oxidoreductases/metabolism , Arabidopsis/metabolism , Mitochondria/metabolism , Arabidopsis/genetics , Arabidopsis/growth & development , Cell Line , Electron Transport Complex I/metabolism , Mitochondrial Proteins/metabolism , NADH Dehydrogenase/metabolism , Nitric Oxide/metabolism , Oxidoreductases/metabolism , Plant Proteins/metabolism , Plants, Genetically Modified , S-Nitrosothiols/analysis
15.
Biochim Biophys Acta Mol Basis Dis ; 1870(4): 167095, 2024 04.
Article in English | MEDLINE | ID: mdl-38428684

ABSTRACT

Among the different pathways involved in the cell-to-cell communication, extracellular vesicles (EVs) are defined as key players in the transport of different signalling molecules, such as lipids, proteins, and RNA, from the originating cells to specific target cells. The biogenesis and composition of EVs are complex and confer them a unique ability to more effectively reach tissues and cells as compared to other types of synthetic carriers. Owing to these properties, EVs have been suggested as new therapeutic tools for personalized medicine. Since cardiometabolic diseases have reached pandemic proportions, new therapies are needed to be developed. In this context, EVs appear as promising therapeutic tools against cardiometabolic disorders associated with obesity and diabetes. This review focuses on the latest research on preclinical applications of EVs for cardiometabolic diseases, and draw primarily on our experience in this area.


Subject(s)
Cardiovascular Diseases , Extracellular Vesicles , Humans , Extracellular Vesicles/metabolism , Signal Transduction , Cell Communication , Proteins/metabolism , Cardiovascular Diseases/therapy , Cardiovascular Diseases/metabolism
16.
Circ Res ; 109(1): 110-9, 2011 Jun 24.
Article in English | MEDLINE | ID: mdl-21700952

ABSTRACT

Considered during the past decades as cell dust, microparticles are now deemed true biomarkers and vectors of biological information between cells. Depending on their origin, the composition of microparticles varies and the subsequent message transported by them, such as proteins, mRNA, or miRNA, can differ. Recent studies have described microparticles as "cargos" of deleterious information in blood vessel wall under pathological situations such as hypertension, myocardial infarction, and metabolic syndrome. In addition, it has been reported that depending on their origin, microparticles also possess a therapeutic potential regarding angiogenesis. Microparticles can act directly through the interaction ligand/receptor or indirectly on angiogenesis by modulating soluble factor production involved in endothelial cell differentiation, proliferation, migration, and adhesion; by reprogramming endothelial mature cells; and by inducing changes in levels, phenotype, and function of endothelial progenitor cells. This results in an increase in formation of in vitro capillary-like tubes and the generation of new vessels in vivo under ischemic conditions, for instance. Taking into consideration these properties of microparticles, recent evidence provides new basis to expand the possibility that microparticles might be used as therapeutic tools in pathologies associated with an alteration of angiogenesis.


Subject(s)
Cell-Derived Microparticles/physiology , Neovascularization, Physiologic/physiology , Animals , Endothelial Cells/cytology , Endothelial Cells/physiology , Exosomes/physiology , Humans , Metabolic Diseases/physiopathology , Neoplasms/blood supply , Neovascularization, Pathologic/etiology , Stem Cells/physiology
17.
Trends Cell Biol ; 33(9): 729-731, 2023 09.
Article in English | MEDLINE | ID: mdl-37468354

ABSTRACT

Liver metastasis is a major cause of death in patients with colorectal cancer (CRC). A recent study by Wang et al. has deciphered unprecedented prometastatic and immunosuppressive properties of the tumor microenvironment (TME) mediated by hepatocyte-derived extracellular vesicles (EVs) in fatty liver, paving the way for therapeutic innovations to treat patients with CRC and liver metastasis.


Subject(s)
Extracellular Vesicles , Fatty Liver , Liver Neoplasms , Humans , Liver Neoplasms/pathology , Liver Neoplasms/secondary , Tumor Microenvironment
18.
Metabolism ; 139: 155350, 2023 02.
Article in English | MEDLINE | ID: mdl-36423694

ABSTRACT

BACKGROUND AND AIMS: Leptin receptor (LEPR) deficiency promotes severe obesity and metabolic disorders. However, the current therapeutic options against this syndrome are scarce. METHODS: db/db mice and their wildtypes were systemically treated with neuronal-targeted small extracellular vesicles (sEVs) harboring a plasmid encoding a dominant negative mutant of AMP-activated protein kinase alpha 1 (AMPKα1-DN) driven by steroidogenic factor 1 (SF1) promoter; this approach allowed to modulate AMPK activity, specifically in SF1 cells of the ventromedial nucleus of the hypothalamus (VMH). Animals were metabolically phenotyped. RESULTS: db/db mice intravenously injected with SF1-AMPKα1-DN loaded sEVs showed a marked feeding-independent weight loss and decreased adiposity, associated with increased sympathetic tone, brown adipose tissue (BAT) thermogenesis and browning of white adipose tissue (WAT). CONCLUSION: Overall, this evidence indicates that specific modulation of hypothalamic AMPK using a sEV-based technology may be a suitable strategy against genetic forms of obesity, such as LEPR deficiency.


Subject(s)
Extracellular Vesicles , Receptors, Leptin , Mice , Animals , Receptors, Leptin/genetics , Receptors, Leptin/metabolism , AMP-Activated Protein Kinases/genetics , AMP-Activated Protein Kinases/metabolism , Hypothalamus/metabolism , Obesity/genetics , Obesity/metabolism , Adipose Tissue, Brown/metabolism , Weight Loss , Thermogenesis/physiology , Adipose Tissue, White/metabolism , Extracellular Vesicles/metabolism , Energy Metabolism
19.
J Extracell Vesicles ; 12(2): e12303, 2023 02.
Article in English | MEDLINE | ID: mdl-36708245

ABSTRACT

The role of extracellular vesicles (EVs) from faeces (fEVs) and small circulating EVs (cEVs) in liver diseases such as non-alcoholic fatty diseases (NAFLD) and non-alcoholic steatohepatitis (NASH) has not been demonstrated. fEVs and cEVs of healthy donors, NAFLD and NASH patients were isolated and characterized. The effects of EVs were evaluated in intestinal, endothelial, Kupffer and stellate cells. Non-muscular myosin light chain kinase (nmMLCK) deficient mice were used in vivo. Bacterial origins of fEVs were analysed by 16s rDNA gene sequencing. fEVs and small cEVs were composed of prokaryotic and eukaryotic origins. Only NASH-fEVs exerted deleterious effects. NASH-fEVs increased intestinal permeability and reduced expression of tight junction proteins that were prevented by nmMLCK inhibition, increased endothelial cell permeability and inflammatory cytokines and chemokines requiring TLR4/lipopolysaccharide pathway. NASH-fEVs and NASH-cEVs activated profibrotic and proinflammatory proteins of hepatic stellate cells. Treatment with NASH-fEVs evoked an increase in intestinal permeability in wild type but not in nmMLCK deficient mice. Bacterial origins of fEVs were different between NAFLD and NASH patients and 16 amplicon sequence variants were differentially abundant. We demonstrate that fEVs actively participate in barrier dysfunctions leading to liver injuries underscoring the role of nmMLCK and lipopolysaccharide carried by fEVs.


Subject(s)
Extracellular Vesicles , Non-alcoholic Fatty Liver Disease , Mice , Animals , Non-alcoholic Fatty Liver Disease/metabolism , Lipopolysaccharides , Extracellular Vesicles/metabolism , Feces
20.
Plant J ; 67(1): 169-80, 2011 Jul.
Article in English | MEDLINE | ID: mdl-21435053

ABSTRACT

Protein kinase CK2 is a pleiotropic Ser/Thr kinase, evolutionary conserved in eukaryotes. Studies performed in different organisms, from yeast to humans, have highlighted the importance of CK2 in cell growth and cell-cycle control. However, the signalling pathways in which CK2 is involved have not been fully identified. In plants, the phytohormone auxin is a major regulator of cell growth. Recent discoveries have demonstrated that differential distribution of within auxin plant tissues is essential for developmental processes, and that this distribution is dependent on polar auxin transport. We report here that a dominant-negative mutant of CK2 (CK2mut) in Arabidopsis thaliana shows phenotypic traits that are typically linked to alterations in auxin-dependent processes. However, CK2mut plants exhibit normal responses to exogenous indole-3-acetic acid (IAA) indicating that they are not affected in the perception of the hormone but upstream in the pathway. We demonstrate that mutant plants are not deficient in IAA but are impaired in its transport. Using genetic and pharmacological tools we show that CK2 activity depletion hinders correct formation of auxin gradients and leads to widespread changes in the expression of auxin-related genes. In particular, members of the auxin efflux carrier family (PINs), and the protein kinase PINOID, both key regulators of auxin fluxes, were misexpressed. PIN4 and PIN7 were also found mislocalized, with accumulation in endosomal bodies. We propose that CK2 functions in the regulation of auxin-signalling pathways, particularly in auxin transport.


Subject(s)
Arabidopsis Proteins/metabolism , Arabidopsis/enzymology , Casein Kinase II/metabolism , Indoleacetic Acids/metabolism , Plant Growth Regulators/metabolism , Arabidopsis/genetics , Arabidopsis/growth & development , Arabidopsis Proteins/genetics , Biological Transport , Casein Kinase II/genetics , DNA, Plant/genetics , Gene Expression Regulation, Developmental , Gene Expression Regulation, Enzymologic , Gene Expression Regulation, Plant , Genes, Reporter , Indoleacetic Acids/pharmacology , Membrane Transport Proteins/metabolism , Mutation , Phenotype , Plant Growth Regulators/pharmacology , Plant Roots/enzymology , Plant Roots/genetics , Plant Roots/growth & development , Plants, Genetically Modified/enzymology , Plants, Genetically Modified/genetics , Plants, Genetically Modified/growth & development , Protein Serine-Threonine Kinases/metabolism , RNA, Plant/genetics , Seedlings/enzymology , Seedlings/genetics , Seedlings/growth & development , Signal Transduction
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