scholarly journals PPAR-γ Activation Prevents Septic Cardiac Dysfunction via Inhibition of Apoptosis and Necroptosis

2017 ◽  
Vol 2017 ◽  
pp. 1-11 ◽  
Author(s):  
Shiyan Peng ◽  
Junmei Xu ◽  
Wei Ruan ◽  
Suobei Li ◽  
Feng Xiao
Keyword(s):  
Cell Death ◽  
Proinflammatory Cytokines ◽  
Cardiac Dysfunction ◽  
Myocardial Dysfunction ◽  
Cecal Ligation ◽  
Peroxisome Proliferator ◽  
Peroxisome Proliferator Activated Receptor ◽  
Interacting Protein ◽  
Cardiac Inflammation ◽  
Ppar Γ

Sepsis-induced cardiac dysfunction remains one of the major causes of death in intensive care units. Overwhelmed inflammatory response and unrestrained cell death play critical roles in sepsis-induced cardiac dysfunction. Peroxisome proliferator-activated receptor- (PPAR-) γ has been proven to be cardioprotective in sepsis. However, the mechanism of PPAR-γ-mediated cardioprotection and its relationship with inflammation and cell death are unclear. We hypothesized that activation of PPAR-γ by reducing cardiac inflammation, myocardial apoptosis, and necroptosis may prevent myocardial dysfunction in sepsis. Rats were subjected to cecal ligation and puncture (CLP) with or without PPAR-γ agonist (rosiglitazone) or antagonist T0070907 (T007). After CLP, cardiac function was significantly depressed, which was associated with the destructed myocardium, upregulated proinflammatory cytokines, and increased apoptosis, necrosis, and necroptosis. This process is corresponded with decreased inhibitor κB (IκBα) and increased NF-κB, receptor-interacting protein kinase-1 (RIP1), RIP3, and mixed lineage kinase-like (MLKL) protein. Activation of PPAR-γ by rosiglitazone pretreatment enhanced PPAR-γ activity and prevented these changes, thereby improving the survival of septic rats. In contrast, inhibition of PPAR-γ by T007 further exacerbated the condition, dropping the survival rate to nearly 0%. In conclusion, PPAR-γ activation by reducing proinflammatory cytokines, apoptosis, and necroptosis in the myocardium prevents septic myocardial dysfunction.

Endotoxin downregulates peroxisome proliferator-activated receptor-γ via the increase in TNF-α release

2008 ◽  
Vol 294 (1) ◽  
pp. R84-R92 ◽  
Author(s):  
Mian Zhou ◽  
Rongqian Wu ◽  
Weifeng Dong ◽  
Asha Jacob ◽  
Ping Wang
Keyword(s):  
Gene Expression ◽  
Neutralizing Antibodies ◽  
Cecal Ligation ◽  
Polymyxin B ◽  
Peroxisome Proliferator ◽  
Peroxisome Proliferator Activated Receptor ◽  
Protein Levels ◽  
Ppar Γ ◽  
Tnf Α ◽  
A Cell

The nuclear receptor peroxisome proliferator-activated receptor-γ (PPAR-γ) is anti-inflammatory in a cell-based system and in animal models of endotoxemia. We have shown that PPAR-γ gene expression is downregulated in macrophages after lipopolysaccharide (LPS) stimulation. However, it remains unknown whether hepatic PPAR-γ is altered in sepsis and, if so, whether LPS directly downregulates PPAR-γ. To study this, rats were subjected to sepsis by cecal ligation and puncture (CLP). Hepatic tissues were harvested at 5, 10, and 20 h after CLP. PPAR-γ gene expression and protein levels were determined by RT-PCR and Western blot analysis, respectively. The results showed that PPAR-γ gene expression decreased at 10 and 20 h and that its proteins levels were reduced at 20 h after CLP. PPAR-γ levels were also decreased in animals that were administered LPS. To determine the direct effects of LPS on PPAR-γ downregulation, LPS binding agent polymyxin B (PMB) was administered intramuscularly after CLP. The administration of PMB significantly reduced plasma levels of endotoxin, but it did not prevent the downregulation of PPAR-γ expression. We found that circulating levels of TNF-α still remained significantly elevated in PMB-treated septic animals. We, therefore, hypothesize that the decrease of PPAR-γ expression is TNF-α dependent. To investigate this, Kupffer cells (KCs) were isolated from normal rats and stimulated with LPS or TNF-α. TNF-α significantly attenuated PPAR-γ gene expression in KCs. Although LPS decreased PPAR-γ in KCs, the downregulatory effect of LPS was blocked by the addition of TNF-α-neutralizing antibodies. Furthermore, the administration of TNF-α-neutralizing antibodies to animals before the onset of sepsis prevented the downregulation of PPAR-γ in sepsis. We, therefore, conclude that LPS downregulates PPAR-γ expression during sepsis via an increase in TNF-α release.

scholarly journals MG53 Protects against Sepsis-Induced Myocardial Dysfunction by Upregulating Peroxisome Proliferator-Activated Receptor-α

2020 ◽  
Vol 2020 ◽  
pp. 1-16
Author(s):  
Xue Han ◽  
Daili Chen ◽  
Ning Liufu ◽  
Fengtao Ji ◽  
Qingshi Zeng ◽  
...  
Keyword(s):  
Oxidative Stress ◽  
Cardiac Function ◽  
Myocardial Dysfunction ◽  
Cecal Ligation ◽  
Underlying Mechanism ◽  
Cardiomyocyte Apoptosis ◽  
Peroxisome Proliferator ◽  
Protective Effects ◽  
Peroxisome Proliferator Activated Receptor ◽  
Myocardial Oxidative Stress

Background. The heart is one of the most commonly affected organs during sepsis. Mitsugumin-53 (MG53) has attracted attention in research due to its cardioprotective function. However, the role of MG53 in sepsis-induced myocardial dysfunction (SIMD) remains unknown. The purpose of this study was to explore the underlying mechanism of MG53 in SIMD and investigate its potential relationship with peroxisome proliferator-activated receptor-α (PPARα). Methods. The cecal ligation and puncture (CLP) model was created to induce SIMD in rats. Protein levels of MG53 and PPARα, cardiac function, cardiomyocyte injury, myocardial oxidative stress and inflammatory indicators, and cardiomyocyte apoptosis were measured at 18 h after CLP. The effects of MG53 on PPARα in SIMD were investigated via preconditioning recombinant human MG53 (rhMG53) and PPARα antagonist GW6471. Results. The expression of MG53 and PPARα sharply decreased in the myocardium at 18 h after CLP. Compared with the sham group, cardiac function was significantly depressed, which was associated with the destructed myocardium, upregulated oxidative stress indicators and proinflammatory cytokines, and excessive cardiomyocyte apoptosis in the CLP group. Supplementation with rhMG53 enhanced myocardial MG53, increased the survival rate with improved cardiac function, and reduced oxidative stress, inflammation, and myocardial apoptosis, which were associated with PPARα upregulation. Pretreatment with GW6471 abolished the abovementioned protective effects induced by MG53. Conclusions. Both MG53 and PPARα were downregulated after sepsis shock. MG53 supplement protects the heart against SIMD by upregulating PPARα expression. Our results provide a new treatment strategy for SIMD.

scholarly journals Andrographis paniculata and Its Main Bioactive Ingredient Andrographolide Decrease Alcohol Drinking and Seeking in Rats Through Activation of Nuclear PPARγ Pathway

2021 ◽  
Author(s):  
Serena Stopponi ◽  
Yannick Fotio ◽  
Carlo Cifani ◽  
Hongwu Li ◽  
Carolina L Haass-Koffler ◽  
...  
Keyword(s):  
Oral Administration ◽  
Alcohol Drinking ◽  
Andrographis Paniculata ◽  
Peroxisome Proliferator ◽  
Herbaceous Plant ◽  
Dependent Manner ◽  
Peroxisome Proliferator Activated Receptor ◽  
Ppar Γ ◽  
Treatment Administration ◽  
Dried Extract

Abstract Background and aims Andrographis paniculata is an annual herbaceous plant which belongs to the Acanthaceae family. Extracts from this plant have shown hepatoprotective, anti-inflammatory and antidiabetic properties, at least in part, through activation of the nuclear receptor Peroxisome Proliferator-Activated Receptor-gamma (PPAR γ). Recent evidence has demonstrated that activation of PPARγ reduces alcohol drinking and seeking in Marchigian Sardinian (msP) alcohol-preferring rats. Methods The present study evaluated whether A. paniculata reduces alcohol drinking and relapse in msP rats by activating PPARγ. Results Oral administration of an A. paniculata dried extract (0, 15, 150 mg/kg) lowered voluntary alcohol consumption in a dose-dependent manner and achieved ~65% reduction at the dose of 450 mg/kg. Water and food consumption were not affected by the treatment. Administration of Andrographolide (5 and 10 mg/kg), the main active component of A. paniculata, also reduced alcohol drinking. This effect was suppressed by the selective PPARγ antagonist GW9662. Subsequently, we showed that oral administration of A. paniculata (0, 150, 450 mg/kg) prevented yohimbine- but not cues-induced reinstatement of alcohol seeking. Conclusions Results point to A. paniculata-mediated PPARγactivation as a possible therapeutic strategy to treat alcohol use disorder.

scholarly journals Diet and PPARG2 Pro12Ala Polymorphism Interactions in Relation to Cancer Risk: A Systematic Review

Nutrients ◽  
2021 ◽  
Vol 13 (1) ◽  
pp. 261
Author(s):  
Lieu Tran ◽  
Gerd Bobe ◽  
Gayatri Arani ◽  
Yang Zhang ◽  
Zhenzhen Zhang ◽  
...  
Keyword(s):  
Cancer Risk ◽  
Dietary Factors ◽  
Dietary Fats ◽  
Current Evidence ◽  
Peroxisome Proliferator ◽  
Allele Polymorphism ◽  
Peroxisome Proliferator Activated Receptor ◽  
Complex Relation ◽  
Ppar Γ ◽  
Pubmed Database

Peroxisome proliferator-activated receptor-γ2 gene Pro12Ala allele polymorphism (PPARG2 Pro12Ala; rs1801282) has been linked to both cancer risk and dietary factors. We conducted the first systematic literature review of studies published before December 2020 using the PubMed database to summarize the current evidence on whether dietary factors for cancer may differ by individuals carrying C (common) and/or G (minor) alleles of the PPARG2 Pro12Ala allele polymorphism. The inclusion criteria were observational studies that investigated the association between food or nutrient consumption and risk of incident cancer stratified by PPARG2 Pro12Ala allele polymorphism. From 3815 identified abstracts, nine articles (18,268 participants and 4780 cancer cases) covering three cancer sites (i.e., colon/rectum, prostate, and breast) were included. CG/GG allele carriers were more impacted by dietary factors than CC allele carriers. High levels of protective factors (e.g., carotenoids and prudent dietary patterns) were associated with a lower cancer risk, and high levels of risk factors (e.g., alcohol and refined grains) were associated with a higher cancer risk. In contrast, both CG/GG and CC allele carriers were similarly impacted by dietary fats, well-known PPAR-γ agonists. These findings highlight the complex relation between PPARG2 Pro12Ala allele polymorphism, dietary factors, and cancer risk, which warrant further investigation.

scholarly journals Abdominal Fat SIRT6 Expression and Its Relationship with Inflammatory and Metabolic Pathways in Pre-Diabetic Overweight Patients

2019 ◽  
Vol 20 (5) ◽  
pp. 1153 ◽  
Author(s):  
Nunzia D’Onofrio ◽  
Gorizio Pieretti ◽  
Feliciano Ciccarelli ◽  
Antonio Gambardella ◽  
Nicola Passariello ◽  
...  
Keyword(s):  
Regulatory Element ◽  
Abdominal Fat ◽  
Control Group ◽  
Diabetic Patients ◽  
Peroxisome Proliferator ◽  
Peroxisome Proliferator Activated Receptor ◽  
Metformin Therapy ◽  
Ppar Γ ◽  
Visceral Abdominal Fat ◽  
Factor Α

: The role of sirtuin 6 (SIRT6) in adipose abdominal tissue of pre-diabetic (pre-DM) patients is poorly known. Here, we evaluated SIRT6 expression in visceral abdominal fat of obese pre-diabetic patients and the potential effects of metformin therapy. Results indicated that obese pre-DM subjects showed low SIRT6 protein expression and high expression of nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB), peroxisome proliferator-activated receptor gamma (PPAR-γ), and sterol regulatory element-binding transcription factor 1 (SREBP-1). Obese pre-DM patients showed high values of glucose, insulin resistance (HOMA-IR), C reactive protein (CRP), nitrotyrosine, tumor necrosis factor-α (TNF-α) and interleukin 6 (IL-6), and low values of insulin (p < 0.05). Of note, abdominal fat tissue of obese pre-DM patients treated with metformin therapy presented higher SIRT6 expression and lower NF-κB, PPAR-γ, and SREBP-1 expression levels compared to pre-DM control group. Collectively, results show that SIRT6 is involved in the inflammatory pathway of subcutaneous abdominal fat of obese pre-DM patients and its expression responds to metformin therapy.

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