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An investigation into the antidepressant–like profile of pioglitazone in a genetic rat model of depression / Brand S.J.Brand, Sarel Jacobus January 2011 (has links)
Major depression is a highly prevalent mood disorder with chronic debilitating effects. Additional to a rising rate in incidence, depression is highly co–morbid with other psychiatric disorders, but also chronic cardiometabolic illnesses that present with an inflammatory component. The exact aetiology of depression is still unknown, being multifactorial in its possible aetiology. Various hypotheses have attempted to shed light on both endogenous and exogenous risk factors as well as the underlying pathology that may lead to the development of the disease. This has led to a wide range of mediators being implicated, including biogenic amines, the HPA–axis, neurotrophic factors, inflammatory agents, the cholinergic system and circadian rhythm, to name a few. The mechanisms of action of current treatment strategies, except for a few atypical and novel treatment approaches, are limited to interactions with monoamines and are at best only 65% effective. Many of these are also plagued by troubling side–effects, relapse and recurrence. It has therefore become imperative to explore novel targets for the treatment of depression that may produce more rapid, robust and lasting antidepressant effects with a less daunting side–effect profile. The strong co–morbidity between depression and various cardiometabolic disorders, including cardiovascular disease, atherosclerosis, type 2 diabetes mellitus (T2DM) and metabolic syndrome (MetS) has led to the proposal that a metabolic disturbance may be a vital component that drives inflammatory and immunological dysfunction in depression. Supporting of this is evidence for a role of inflammatory cytokines and neurotrophic factors in the pathogenesis of depression.
It has also been demonstrated that a link exists between insulin– and nitric oxide (NO)– mediated pathways in the brain, which further highlights the role of oxidative stress and cell damage. Furthermore, evidence supports a role for oxidative stress and NO in T2DM and/or insulin resistance. Insulin has also been implicated in various physiological processes in the central nervous system (CNS) and may also influence the release and reuptake of neurotransmitters. Preclinical and clinical evidence has provided support for the antidepressant–like effects of insulin–sensitizing peroxisome proliferator activated receptor (PPAR)– agonists, such as rosiglitazone and pioglitazone. In preclinical studies, however, these effects are limited to acute treatment with pioglitazone or sub–chronic (5 days) treatment with rosiglitazone. It is well–recognized that such findings need to be confirmed by chronic treatment paradigms. The aim of the current study was therefore to further investigate the proposed antidepressant–like effects of pioglitazone in a genetic animal model of depression, the Flinders sensitive line (FSL) rat, using a chronic treatment protocol. The FSL rat model was reaffirmed as presenting with inherent depressive–like behaviour compared to its more resilient counterpart, the Flinders resistant line (FRL) rat. Moreover, imipramine demonstrated a robust and reliable antidepressant–like effect in these animals using the forced swim test (FST), thus confirming the face and predictive validity of the FSL rat model for depression. In contrast to previous preclinical studies, acute dose–ranging studies with pioglitazone in Sprague Dawley rats delivered no significant anti–immobility effects in the FST, whereas results similar to that seen in the dose–ranging studies were observed following chronic treatment using FSL rats. Since altered pharmacokinetics could possibly influence the drug’s performance, another route of administration, viz. the subcutaneous route, was utilized as an additional measure to exclude this possibility. The results of the subcutaneous study, however, were congruent with that observed after oral treatment.
In order to confirm an association between altered insulin sensitivity and antidepressant action and demonstration by recent studies that thiazolidinediones may augment the efficacy of existing antidepressants, we therefore investigated whether concomitant treatment with gliclazide (an insulin releaser and insulin desensitizer) or pioglitazone (an insulin sensitizer) may alter the antidepressant–like effects evoked by chronic treatment with imipramine. Pioglitazone did not positively or negatively affect the antidepressant effect of imipramine, although gliclazide tended to decrease the anti–immobility effects induced by this antidepressant. Taken together and considering the current available literature, this finding supports evidence linking the insulin–PPAR pathway to depression. However, further explorative studies are required to delineate the role of insulin sensitivity and glucose homeostasis in depression and antidepressant response. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2012.
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Agonistas PPAR (Rosiglitazona, Bezafibrato e Fenofibrato) e alterações bioquímicas e estruturais em órgãos-alvo de camundongos C57BL/6 alimentados com dieta hiperlipídica rica em sacarose / PPAR agonists (Rosiglitazone, Bezafibrate and Fenofibrate) and biochemical and structural changes in target organs of C57BL/6 mice fed a high-fat high-sucrose dietCaroline Fernandes dos Santos 07 June 2010 (has links)
Fundação Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio de Janeiro / Este trabalho teve o objetivo de estudar o efeito de medicamentos com diferentes ações agonista PPAR (rosiglitazona, fenofibrato e bezafibrato) sobre o perfil lipídico, glicídico e alterações na massa corporal e morfologia do tecido adiposo e pancreático em modelo de diabetes e sobrepeso induzido por dieta. Camundongos C57BL/6 (2 meses de idade) foram alimentados com dieta padrão (SC, n=10) ou dieta hiperlipídica rica em sacarose (HFHS, n=40) por 6 semanas. Logo após, os animais HFHS foram subdividos em: HFHS não tratado e HFHS tratado com rosiglitazona (HFHS-Ro), fenofibrato (HFHS-Fe) ou bezafibrato (HFHS-Bz) (5 semanas). Os camundongos alimentados com dieta HFHS apresentaram maior glicemia e insulina de jejum (+33% e +138%, respectivamente), intolerância à glicose, resistência à insulina, aumento da massa corporal (MC) (+20%) e adiposidade, hipertrofia de adipócitos e redução da imunocoloração para adiponectina no tecido adiposo. No pâncreas houve aumento da massa (+28%), acúmulo de gordura (+700%), hipertrofia da ilhota (+38%) e redução da imunocoloração para GLUT-2 (-60%). A rosiglitazona diminuiu a glicemia e insulina de jejum, porém induziu o ganho de MC e hipertrofia cardíaca. O fenofibrato estabilizou a MC, enquanto o bezafibrato levou a perda de MC. Apenas o bezafibrato impediu a hipertrofia da ilhota. A imunocoloração para GLUT-2 foi aumentada por todos os medicamentos, e não houve alterações na imunocoloração para o PPARα. Sinais morfológicos de pancreatite foram vistos no grupo HFHS-Fe, apesar dos níveis normais de amilase e lipase séricos. A rosiglitazona exacerbou a infiltração intrapancreática de gordura (+75% vs. HFHS), e o bezafibrato aumento a imunocoloração para o PPARβ/δ nas ilhotas pancreáticas. Em conclusão, o bezafibrato apresentou um efeito mais amplo sobre as alterações metabólicas, morfológicas e biométricas decorrentes da dieta HFHS, sugerindo que a inibição das três isoformas do PPAR seria melhor do que a inibição de apenas uma isoforma. A rosiglitazona exacerbou o ganho de MC, a infiltração de gordura no pâncreas e induziu hipertrofia cardíaca, assim, é necessário cautela ao prescrever este medicamento a um paciente obeso. / This work aimed to evaluate the effect of peroxisome proliferator-activated receptor (PPAR) agonists (rosiglitazone, fenofibrate and bezafibrate) on lipid and glucose metabolism, body mass, and adipose and pancreatic tissue morphology in a model of diet-induced type 2 diabetes and overweight in mice. Two-month-old male C57BL/6 mice were fed a standard chow (SC, n=10) or a high-fat high-sucrose chow (HFHS, n=40) for 6 weeks, and then HFHS-fed mice were subdivided by treatment: untreated HFHS and HFHS treated with rosiglitazone (HFHS-Ro), fenofibrate (HFHS-Fe), or bezafibrate (HFHS-Bz) (5 weeks on medication). HFHS-fed mice have altered fasting glucose (+33%) and insulin (+138%), GI, IR, increased body mass (+20%) and fat pad weight, adipocyte hypertrophy, and decreased adiponectin immunostain. They also presented increased pancreatic (+28%) mass, intrapancreatic fat (+700%), islet hypertrophy (+38%), and decreased GLUT-2 immunostain (-60%). Rosiglitazone reduced fasting glucose and insulin but induced weight gain and heart hypertrophy. Fenofibrate impaired body mass gain, while bezafibrate induced weight loss. Only bezafibrate impaired islet hypertrophy. GLUT-2 immunostain was improved by all treatments, and there were no alterations in PPAR-α stain. There were morphological signs of pancreatitis in fenofibrate-treated mice, although there was no alteration in serum amylase and lipase. Rosiglitazone exacerbated pancreatic fat infiltration (+75% vs. HFHS group), and bezafibrate increased PPAR-β expression in pancreatic islets. In conclusion, bezafibrate showed a wider range of action on metabolic, morphologic, and biometric alterations due to HFHS intake, suggesting that inhibiting the three PPAR isoforms is better than inhibiting each isoform alone. Rosiglitazone exacerbated body mass gain, pancreatic fat infiltration and induced heart hypertrophy as well, thus, precaution has to be taken in prescribing rosiglitazone to obese patients.
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Transcriptional regulation of the hepatic cytochrome <em>P450 2a5</em> geneArpiainen, S. (Satu) 25 September 2007 (has links)
Abstract
Cytochrome P450 (CYP) enzymes are the major metabolizers of xenobiotics, e.g. drugs, and environmental toxins. Thus, changes in CYP expression have an important impact on drug metabolism and susceptibility to chemical toxicity.
In the present study, the transcriptional mechanisms of both constitutive and inducible regulation of the Cyp2a5 gene in mouse liver were investigated. Mouse primary hepatocyte cultures were used as the main model system together with cell and molecular biology methods.
The key activation regions of the Cyp2a5 5' promoter were determined using reporter gene assays. Two major transcription activation sites of the Cyp2a5 5' promoter, called the proximal and the distal, were found. Transcription factors hepatocyte nuclear factor-4 (HNF-4) and nuclear factor I were shown to bind to the proximal promoter. Aryl hydrocarbon receptor nuclear translocator (ARNT) and upstream stimulatory factor bound to a common palindromic E-box element in the distal promoter region. All three response elements were shown to be essential for constitutive expression of CYP2A5 in murine hepatocytes. ARNT appeared to control Cyp2a5 transcription without a heterodimerization partner suggesting active involvement of the ARNT homodimer in mammalian gene regulation.
Aryl hydrocarbon receptor (AHR) ligands were shown to induce Cyp2a5 transcriptionally by an AHR-dependent mechanism, and established Cyp2a5 as a novel AHR-regulated gene. The AHR response element and the E-box, identified in these studies, were located near to each other and close to a separately defined nuclear factor (erythroid-derived 2)-like 2 binding site in the distal region of the Cyp2a5 promoter, suggesting cooperation between these elements.
Peroxisome proliferator-activated receptor gamma coactivator-1α was shown to up-regulate Cyp2a5 transcription through coactivation of HNF-4α. This indicates that xenobiotic metabolism can be regulated by modification of co-activation.
The present results show that CYP2A5 is regulated by several different cross-regulatory pathways. The regulatory mechanisms involved in the transcription of the Cyp2a5 gene may also control other CYP genes, especially the human ortholog CYP2A6, and may explain some of the individual variations in the metabolism of xenobiotics.
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Effects of the Peroxisome Proliferator-Activated Receptor-γ Agonist Pioglitazone on Peripheral Vessel Function and Clinical Parameters in Nondiabetic Patients: A Double-Center, Randomized Controlled Pilot TrialChristoph, Marian, Herold, Jörg, Berg-Holldack, Anna, Rauwolf, Thomas, Ziemssen, Tjalf, Schmeisser, Alexander, Weinert, Sönke, Ebner, Bernd, Ibrahim, Karim, Strasser, Ruth H., Braun-Dullaeus, Rüdiger C. 20 May 2020 (has links)
Objective: Despite the advanced therapy with statins, antithrombotics, and antihypertensive agents, the medical treatment of atherosclerotic disease is less than optimal. Therefore, additional therapeutic antiatherosclerotic options are desirable. This pilot study was performed to assess the potential antiatherogenic effect of the peroxisome proliferator-activated receptor-γ agonist pioglitazone in nondiabetic patients. Methods: A total of 54 nondiabetic patients were observed in a prospective, double-blind, placebo-controlled study. Patients were randomized to pioglitazone or placebo. The following efficacy parameters were determined by serial analyses: artery pulse wave analysis and carotid-femoral pulse wave velocity (PWV), static and dynamic retinal vessel function, and the common carotid intima-media thickness (IMT). The main secondary endpoint was the change in different biochemical markers. Results: After 9 months, no relevant differences could be determined in the two treatment groups in PWV (pioglitazone 14.3 ± 4.4 m/s vs. placebo 14.2 ± 4.2 m/s), retinal arterial diameter (pioglitazone 112.1 ± 23.3 μm vs. placebo 117.9 ± 21.5 μm) or IMT (pioglitazone 0.85 ± 0.30 mm vs. placebo 0.79 ± 0.15 mm). Additionally, there were no differences in the change in biochemical markers like cholesteryl ester transfer protein, lowdensity lipoprotein cholesterol, high-sensitivity C-reactive protein or white blood cell count. Conclusions : Treatment with a peroxisome proliferator-activated receptor-γ agonist in nondiabetic patients did not improve the function of large and small peripheral vessels (PPP Trial, clinicaltrialsregister. eu: 2006-000186-11).
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The Co-chaperones FKBP51 and PP5 Control Nuclear Receptor Phosphorylation and AdipogenesisStechschulte, Lance A. 21 August 2013 (has links)
No description available.
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Identification of Novel Ligands and Structural Requirements for Heterodimerization of the Liver X Receptor AlphaBedi, Shimpi 31 May 2017 (has links)
No description available.
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Molecular Mechanisms Underlying SSRI-induced Non-alcoholic Fatty Liver DiseaseAyyash, Ahmed January 2022 (has links)
This thesis aims to investigate fluoxetine, a widely prescribed SSRI antidepressant, for its role in the pathogenesis of NAFLD and uncover novel mechanisms by which it may contribute to drug-induced steatosis. We demonstrated that increased hepatic lipid accumulation was mediated, in part, via elevated serotonin production. The inhibition of hepatic serotonin synthesis prevented lipid accumulation in fluoxetine-treated hepatocytes demonstrating a causal role for serotonin in fluoxetine-induced hepatic steatosis. Interestingly, in several studies, serotonin signaling has been shown to impact prostaglandin biosynthesis. As prostaglandins have been implicated in the development of NAFLD, and fluoxetine has previously been shown to alter the production of prostaglandins I assessed the role of prostaglandins in fluoxetine-induced hepatic lipid accumulation. Fluoxetine treatment increased mRNA expression of prostaglandin biosynthetic enzymes, increased production of prostaglandin 15-deoxy-Δ12,14PGJ2 (PPARG agonist), and elevated PPARG targets involved in fatty acid uptake. Fluoxetine-induced lipid accumulation, 15-deoxy-Δ12,14PGJ2 production, and the expression of PPARG lipogenic genes were attenuated with a PTGS1 specific inhibitor. Taken together these findings suggested that fluoxetine-induced lipid accumulation was mediated via PTGS1 and its downstream product 15-deoxy-Δ12,14PGJ2. Given that Pparg was elevated following fluoxetine treatment, and PPARG regulates microRNA involved in hepatic lipid accumulation, my final project focused on PPARG’s role in altered miRNA expression. Indeed, fluoxetine treatment increased the miRNA expression of miR-122, an effect that was attenuated when fluoxetine treatment was combined with the PPARG antagonist GW9662, suggesting a fluoxetine-PPARG-miR122 axis contributing to hepatic steatosis. While these studies have only been performed in vitro, an understanding of the molecular changes associated with SSRI treatment may lead to the development of strategies to prevent the increased risk of adverse metabolic outcomes associated with the use of SSRI antidepressants. / Dissertation / Doctor of Philosophy (Medical Science) / In adults, major depressive disorder (depression) is one of the most common psychiatric illnesses. Recent data suggests that there are more than 4.1 million Canadians who currently suffer from depression. Depression is commonly treated using selective serotonin reuptake inhibitor (SSRI) antidepressants. While these antidepressants do help manage depressive symptoms, they can also cause unwanted side effects including a build-up of fat in the liver, leading to fatty liver disease. The goal of my research is to understand the link between SSRI use and the development of fatty liver disease. This thesis investigates the effects of fluoxetine (Prozac®), a commonly used SSRI antidepressant, on molecular pathways that can lead to the development of fatty liver disease. An understanding of the molecular changes with SSRI treatment may lead to the development of strategies to prevent the harmful effects of SSRI antidepressants on the liver.
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Óleo de peixe (fonte de ácidos graxos n-3) atenua inflamação das vias aéreas e hiper-reatividade pulmonar induzida por alérgeno em camundongos / Fish oil (source of n-3 fatty acids) attenuates airway inflammation and pulmonary hyperreactivity induced by allergen in miceThereza Cristina Lonzetti Bargut 07 March 2013 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O óleo de peixe é rico em ácidos graxos poli-insaturados (AGPI) n-3 e vem sendo apontado como anti-inflamatório associado à melhora de diversas doenças de natureza inflamatória. No presente estudo, objetivou-se avaliar a influência do óleo de peixe sobre a inflamação pulmonar e hiper-reatividade em camundongos ativamente sensibilizados desafiados com ovoalbumina (OVA). Camundongos A/J machos foram alimentados com dieta standard-chow (SC) ou dieta rica em óleo de peixe (Px) durante 8 semanas. Após 4 semanas do início da dieta, cada grupo foi subdividido aleatoriamente para ser desafiado com salina (SC-SAL e PX-SAL) ou ovoalbumina (SC-OVA e PX-OVA). A função pulmonar (resistência e elastância) foi avaliada através de pletismografia invasiva, na condição de aerolização ou não com metacolina 24 horas após o último desafio antigênico. Foi realizado lavado broncoalveolar (LBA) para contagem de leucócitos e quantificação de eotaxina-2. A deposição de muco e de matriz peribronquiolar e o infiltrado de eosinófilos foram quantificados no tecido pulmonar. Foram avaliados interleucina (IL)-13 através de imunohistoquímica e NFκB, GATA-3 e PPARγ, por western-blotting. O desafio com OVA resultou em aumento da infiltração de eosinófilos, elevada produção de citocinas inflamatórias, remodelamento pulmonar, produção de muco e hiper-reatividade das vias aéreas. Detectou-se aumento na expressão dos fatores de transcrição NFκB e GATA-3 nos camundongos do grupo sensibilizado e desafiado com OVA em comparação aos controles. Todas essas alterações foram atenuadas nos camundongos que receberam dieta com óleo de peixe. Expressão elevada de PPARγ foi detectada nos pulmões dos camundongos dos grupos alimentados com óleo de peixe. Em conclusão, nossos resultados mostram que a ingestão de óleo de peixe atenuou as características clássicas do quadro asmático através da modulação da síntese de mediadores inflamatórios, via regulação negativa de NFκB e GATA-3 e regulação positiva de PPARγ. O óleo de peixe parece ser uma terapia alternativa para o controle e tratamento da asma. / Fish oil (FO) is rich in n-3 polyunsaturated fatty acids (PUFA), which have been suggested to be anti-inflammatory and are associated with improvement of several inflammatory diseases. In this study, we investigated the influence of FO on allergen-induced lung inflammation and airway hyperreactivity in mice. Male A/J mice were fed either a standard-chow (SC) or a FO diet (FO) for 8 weeks. After 4 weeks, each group was further randomized for ovalbumin (SC-OVA and FO-OVA) or saline (SC-SAL and FO-SAL) challenge. Resistance and elastance were measured at baseline and after aerosolized methacholine, 24h after the last challenge. Bronchoalveolar lavage (BAL) was performed for leukocyte counts and eotaxin-2 quantification. Lung tissue mucus deposition, peribronchiolar matrix deposition and eosinophil infiltration were quantified. Interleukin-13 expression was evaluated by immunohistochemistry and nuclear factor kappa B (NFκB), GATA-3 and peroxisome proliferator-activated receptor gamma (PPARγ) expression was measured by Western blot. OVA challenge resulted in increased eosinophil infiltration, increased inflammatory cytokine production, peribronchiolar matrix and mucus deposition and airway hyperreactivity to aerosolized methacholine. Elevated lung NFκB and GATA-3 expression was noted in OVA-challenged mice, which was attenuated in FO diet-fed mice. Higher PPARγ expression was also detected in the lungs from the FO-fed groups. In conclusion, FO intake attenuated classical asthma features by reducing inflammatory mediator production via GATA-3 and NFκB down-regulation and PPARγ up-regulation. Thus, FO might be an alternative therapy for asthma prevention and control.
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Óleo de peixe (fonte de ácidos graxos n-3) atenua inflamação das vias aéreas e hiper-reatividade pulmonar induzida por alérgeno em camundongos / Fish oil (source of n-3 fatty acids) attenuates airway inflammation and pulmonary hyperreactivity induced by allergen in miceThereza Cristina Lonzetti Bargut 07 March 2013 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O óleo de peixe é rico em ácidos graxos poli-insaturados (AGPI) n-3 e vem sendo apontado como anti-inflamatório associado à melhora de diversas doenças de natureza inflamatória. No presente estudo, objetivou-se avaliar a influência do óleo de peixe sobre a inflamação pulmonar e hiper-reatividade em camundongos ativamente sensibilizados desafiados com ovoalbumina (OVA). Camundongos A/J machos foram alimentados com dieta standard-chow (SC) ou dieta rica em óleo de peixe (Px) durante 8 semanas. Após 4 semanas do início da dieta, cada grupo foi subdividido aleatoriamente para ser desafiado com salina (SC-SAL e PX-SAL) ou ovoalbumina (SC-OVA e PX-OVA). A função pulmonar (resistência e elastância) foi avaliada através de pletismografia invasiva, na condição de aerolização ou não com metacolina 24 horas após o último desafio antigênico. Foi realizado lavado broncoalveolar (LBA) para contagem de leucócitos e quantificação de eotaxina-2. A deposição de muco e de matriz peribronquiolar e o infiltrado de eosinófilos foram quantificados no tecido pulmonar. Foram avaliados interleucina (IL)-13 através de imunohistoquímica e NFκB, GATA-3 e PPARγ, por western-blotting. O desafio com OVA resultou em aumento da infiltração de eosinófilos, elevada produção de citocinas inflamatórias, remodelamento pulmonar, produção de muco e hiper-reatividade das vias aéreas. Detectou-se aumento na expressão dos fatores de transcrição NFκB e GATA-3 nos camundongos do grupo sensibilizado e desafiado com OVA em comparação aos controles. Todas essas alterações foram atenuadas nos camundongos que receberam dieta com óleo de peixe. Expressão elevada de PPARγ foi detectada nos pulmões dos camundongos dos grupos alimentados com óleo de peixe. Em conclusão, nossos resultados mostram que a ingestão de óleo de peixe atenuou as características clássicas do quadro asmático através da modulação da síntese de mediadores inflamatórios, via regulação negativa de NFκB e GATA-3 e regulação positiva de PPARγ. O óleo de peixe parece ser uma terapia alternativa para o controle e tratamento da asma. / Fish oil (FO) is rich in n-3 polyunsaturated fatty acids (PUFA), which have been suggested to be anti-inflammatory and are associated with improvement of several inflammatory diseases. In this study, we investigated the influence of FO on allergen-induced lung inflammation and airway hyperreactivity in mice. Male A/J mice were fed either a standard-chow (SC) or a FO diet (FO) for 8 weeks. After 4 weeks, each group was further randomized for ovalbumin (SC-OVA and FO-OVA) or saline (SC-SAL and FO-SAL) challenge. Resistance and elastance were measured at baseline and after aerosolized methacholine, 24h after the last challenge. Bronchoalveolar lavage (BAL) was performed for leukocyte counts and eotaxin-2 quantification. Lung tissue mucus deposition, peribronchiolar matrix deposition and eosinophil infiltration were quantified. Interleukin-13 expression was evaluated by immunohistochemistry and nuclear factor kappa B (NFκB), GATA-3 and peroxisome proliferator-activated receptor gamma (PPARγ) expression was measured by Western blot. OVA challenge resulted in increased eosinophil infiltration, increased inflammatory cytokine production, peribronchiolar matrix and mucus deposition and airway hyperreactivity to aerosolized methacholine. Elevated lung NFκB and GATA-3 expression was noted in OVA-challenged mice, which was attenuated in FO diet-fed mice. Higher PPARγ expression was also detected in the lungs from the FO-fed groups. In conclusion, FO intake attenuated classical asthma features by reducing inflammatory mediator production via GATA-3 and NFκB down-regulation and PPARγ up-regulation. Thus, FO might be an alternative therapy for asthma prevention and control.
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Oxidative Stress Induces Mitochondrial Compromise in CD4 T Cells From Chronically HCV-Infected IndividualsSchank, Madison B., Zhao, Juan, Wang, Ling, Nguyen, Lam N., Cao, Dechao, Dang, Xindi, Khanal, Sushant, Zhang, Jinyu, Zhang, Yi, Wu, Xiao Y., Ning, Shunbin, Elgazzar, Mohamed A., Moorman, Jonathan P., Yao, Zhi Q. 01 January 2021 (has links)
We have previously shown that chronic Hepatitis C virus (HCV) infection can induce DNA damage and immune dysfunctions with excessive oxidative stress in T cells. Furthermore, evidence suggests that HCV contributes to increased susceptibility to metabolic disorders. However, the underlying mechanisms by which HCV infection impairs cellular metabolism in CD4 T cells remain unclear. In this study, we evaluated mitochondrial mass and intracellular and mitochondrial reactive oxygen species (ROS) production by flow cytometry, mitochondrial DNA (mtDNA) content by real-time qPCR, cellular respiration by seahorse analyzer, and dysregulated mitochondrial-localized proteins by Liquid Chromatography-Mass Spectrometry (LC-MS) in CD4 T cells from chronic HCV-infected individuals and health subjects. Mitochondrial mass was decreased while intracellular and mitochondrial ROS were increased, expressions of master mitochondrial regulators peroxisome proliferator-activated receptor 1 alpha (PGC-1α) and mitochondrial transcription factor A (mtTFA) were down-regulated, and oxidative stress was increased while mitochondrial DNA copy numbers were reduced. Importantly, CRISPR/Cas9-mediated knockdown of mtTFA impaired cellular respiration and reduced mtDNA copy number. Furthermore, proteins responsible for mediating oxidative stress, apoptosis, and mtDNA maintenance were significantly altered in HCV-CD4 T cells. These results indicate that mitochondrial functions are compromised in HCV-CD4 T cells, likely the deregulation of several mitochondrial regulatory proteins.
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