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Reducing Oxidative Stress and Inflammation by Pyruvate Dehydrogenase Kinase 4 Inhibition Is Important in Prevention of Renal Ischemia-Reperfusion Injury in Diabetic Mice
Ah Reum Khang, Dong Hun Kim, Min-Ji Kim, Chang Joo Oh, Jae-Han Jeon, Sung Hee Choi, In-Kyu Lee
Diabetes Metab J. 2024;48(3):405-417.   Published online February 1, 2024
DOI: https://doi.org/10.4093/dmj.2023.0196
  • 3,655 View
  • 303 Download
  • 2 Web of Science
  • 2 Crossref
AbstractAbstract PDFSupplementary MaterialPubReader   ePub   
Background
Reactive oxygen species (ROS) and inflammation are reported to have a fundamental role in the pathogenesis of ischemia-reperfusion (IR) injury, a leading cause of acute kidney injury. The present study investigated the role of pyruvate dehydrogenase kinase 4 (PDK4) in ROS production and inflammation following IR injury.
Methods
We used a streptozotocin-induced diabetic C57BL6/J mouse model, which was subjected to IR by clamping both renal pedicles. Cellular apoptosis and inflammatory markers were evaluated in NRK-52E cells and mouse primary tubular cells after hypoxia and reoxygenation using a hypoxia work station.
Results
Following IR injury in diabetic mice, the expression of PDK4, rather than the other PDK isoforms, was induced with a marked increase in pyruvate dehydrogenase E1α (PDHE1α) phosphorylation. This was accompanied by a pronounced ROS activation, as well as tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6), interleukin-1β (IL-1β), and monocyte chemoattractant protein-1 (MCP-1) production. Notably, sodium dichloroacetate (DCA) attenuated renal IR injury-induced apoptosis which can be attributed to reducing PDK4 expression and PDHE1α phosphorylation levels. DCA or shPdk4 treatment reduced oxidative stress and decreased TNF-α, IL-6, IL-1β, and MCP-1 production after IR or hypoxia-reoxygenation injury.
Conclusion
PDK4 inhibition alleviated renal injury with decreased ROS production and inflammation, supporting a critical role for PDK4 in IR mediated damage. This result indicates another potential target for reno-protection during IR injury; accordingly, the role of PDK4 inhibition needs to be comprehensively elucidated in terms of mitochondrial function during renal IR injury.

Citations

Citations to this article as recorded by  
  • Exploring Renal Pyruvate Metabolism as a Therapeutic Avenue for Diabetic Kidney Injury
    Jaemin Lee
    Diabetes & Metabolism Journal.2024; 48(3): 385.     CrossRef
  • Cardiovascular Disease and miRNAs: Possible Oxidative Stress-Regulating Roles of miRNAs
    Seahyoung Lee
    Antioxidants.2024; 13(6): 656.     CrossRef
Basic Research
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CycloZ Improves Hyperglycemia and Lipid Metabolism by Modulating Lysine Acetylation in KK-Ay Mice
Jongsu Jeon, Dohyun Lee, Bobae Kim, Bo-Yoon Park, Chang Joo Oh, Min-Ji Kim, Jae-Han Jeon, In-Kyu Lee, Onyu Park, Seoyeong Baek, Chae Won Lim, Dongryeol Ryu, Sungsoon Fang, Johan Auwerx, Kyong-Tai Kim, Hoe-Yune Jung
Diabetes Metab J. 2023;47(5):653-667.   Published online April 26, 2023
DOI: https://doi.org/10.4093/dmj.2022.0244
  • 3,820 View
  • 223 Download
  • 1 Web of Science
  • 1 Crossref
AbstractAbstract PDFSupplementary MaterialPubReader   ePub   
Background
CycloZ, a combination of cyclo-His-Pro and zinc, has anti-diabetic activity. However, its exact mode of action remains to be elucidated.
Methods
KK-Ay mice, a type 2 diabetes mellitus (T2DM) model, were administered CycloZ either as a preventive intervention, or as a therapy. Glycemic control was evaluated using the oral glucose tolerance test (OGTT), and glycosylated hemoglobin (HbA1c) levels. Liver and visceral adipose tissues (VATs) were used for histological evaluation, gene expression analysis, and protein expression analysis.
Results
CycloZ administration improved glycemic control in KK-Ay mice in both prophylactic and therapeutic studies. Lysine acetylation of peroxisome proliferator-activated receptor gamma coactivator 1-alpha, liver kinase B1, and nuclear factor-κB p65 was decreased in the liver and VATs in CycloZ-treated mice. In addition, CycloZ treatment improved mitochondrial function, lipid oxidation, and inflammation in the liver and VATs of mice. CycloZ treatment also increased the level of β-nicotinamide adenine dinucleotide (NAD+), which affected the activity of deacetylases, such as sirtuin 1 (Sirt1).
Conclusion
Our findings suggest that the beneficial effects of CycloZ on diabetes and obesity occur through increased NAD+ synthesis, which modulates Sirt1 deacetylase activity in the liver and VATs. Given that the mode of action of an NAD+ booster or Sirt1 deacetylase activator is different from that of traditional T2DM drugs, CycloZ would be considered a novel therapeutic option for the treatment of T2DM.

Citations

Citations to this article as recorded by  
  • Cyclo His‐Pro Attenuates Muscle Degeneration in Murine Myopathy Models
    Alessia De Masi, Nadège Zanou, Keno Strotjohann, Dohyun Lee, Tanes I. Lima, Xiaoxu Li, Jongsu Jeon, Nicolas Place, Hoe‐Yune Jung, Johan Auwerx
    Advanced Science.2024;[Epub]     CrossRef
Review
Basic Research
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The Link between Mitochondrial Dysfunction and Sarcopenia: An Update Focusing on the Role of Pyruvate Dehydrogenase Kinase 4
Min-Ji Kim, Ibotombi Singh Sinam, Zerwa Siddique, Jae-Han Jeon, In-Kyu Lee
Diabetes Metab J. 2023;47(2):153-163.   Published online January 12, 2023
DOI: https://doi.org/10.4093/dmj.2022.0305
  • 6,409 View
  • 442 Download
  • 10 Web of Science
  • 11 Crossref
AbstractAbstract PDFPubReader   ePub   
Sarcopenia, defined as a progressive loss of muscle mass and function, is typified by mitochondrial dysfunction and loss of mitochondrial resilience. Sarcopenia is associated not only with aging, but also with various metabolic diseases characterized by mitochondrial dyshomeostasis. Pyruvate dehydrogenase kinases (PDKs) are mitochondrial enzymes that inhibit the pyruvate dehydrogenase complex, which controls pyruvate entry into the tricarboxylic acid cycle and the subsequent adenosine triphosphate production required for normal cellular activities. PDK4 is upregulated in mitochondrial dysfunction-related metabolic diseases, especially pathologic muscle conditions associated with enhanced muscle proteolysis and aberrant myogenesis. Increases in PDK4 are associated with perturbation of mitochondria-associated membranes and mitochondrial quality control, which are emerging as a central mechanism in the pathogenesis of metabolic disease-associated muscle atrophy. Here, we review how mitochondrial dysfunction affects sarcopenia, focusing on the role of PDK4 in mitochondrial homeostasis. We discuss the molecular mechanisms underlying the effects of PDK4 on mitochondrial dysfunction in sarcopenia and show that targeting mitochondria could be a therapeutic target for treating sarcopenia.

Citations

Citations to this article as recorded by  
  • Synthesis, activatory effects, molecular docking and ADME studies as rabbit muscle pyruvate kinase activators of ureido phenyl substituted 1,4-dihydropyridine derivatives
    Mustafa Oğuzhan Kaya, Tuna Demirci, Ümit Çalışır, Oğuzhan Özdemir, Yeşim Kaya, Mustafa Arslan
    Research on Chemical Intermediates.2024; 50(1): 437.     CrossRef
  • Unraveling the causes of sarcopenia: Roles of neuromuscular junction impairment and mitochondrial dysfunction
    Yanmei Miao, Leiyu Xie, Jiamei Song, Xing Cai, Jinghe Yang, Xinglong Ma, Shaolin Chen, Peng Xie
    Physiological Reports.2024;[Epub]     CrossRef
  • Metabolic clues to aging: exploring the role of circulating metabolites in frailty, sarcopenia and vascular aging related traits and diseases
    Zonghao Qian, Yuzhen Huang, Yucong Zhang, Ni Yang, Ziwei Fang, Cuntai Zhang, Le Zhang
    Frontiers in Genetics.2024;[Epub]     CrossRef
  • Inhibition of Pyruvate Dehydrogenase Kinase 4 Protects Cardiomyocytes from lipopolysaccharide-Induced Mitochondrial Damage by Reducing Lactate Accumulation
    Tangtian Chen, Qiumin Xie, Bin Tan, Qin Yi, Han Xiang, Rui Wang, Qin Zhou, Bolin He, Jie Tian, Jing Zhu, Hao Xu
    Inflammation.2024; 47(4): 1356.     CrossRef
  • Effect of resistance training plus enriched probiotic supplement on sestrin2, oxidative stress, and mitophagy markers in elderly male Wistar rats
    Majid Mohabbat, Hamid Arazi
    Scientific Reports.2024;[Epub]     CrossRef
  • Comparison between single-muscle evaluation and cross-sectional area muscle evaluation for predicting the prognosis in patients with oral squamous cell carcinoma: a retrospective cohort study
    Hirotaka Takayama, Takuya Yoshimura, Hajime Suzuki, Yuka Hirano, Masahiro Tezuka, Takayuki Ishida, Kiyohide Ishihata, Marie Amitani, Haruka Amitani, Yasunori Nakamura, Yasushi Imamura, Akio Inui, Norifumi Nakamura
    Frontiers in Oncology.2024;[Epub]     CrossRef
  • Resveratrol and Vitamin D: Eclectic Molecules Promoting Mitochondrial Health in Sarcopenia
    Cristina Russo, Maria Stella Valle, Floriana D’Angeli, Sofia Surdo, Lucia Malaguarnera
    International Journal of Molecular Sciences.2024; 25(14): 7503.     CrossRef
  • Unveiling the crucial role of peroxisomal acyl-CoA metabolism in muscle atrophy: Insights from genetic models and therapeutic interventions
    Songling Jiang, Han Sol Kim, Ji Hyun Ryu, Yong-Soo Lee, Dong-Ik Kim, Eun-Jung Jin
    Nano Today.2024; 58: 102417.     CrossRef
  • Dichloroacetate Prevents Sepsis Associated Encephalopathy by Inhibiting Microglia Pyroptosis through PDK4/NLRP3
    Xuliang Huang, Yuhao Zheng, Nan Wang, Mingming Zhao, Jinhui Liu, Wen Lin, Ye Zhu, Xiaofan Xie, Ya Lv, Junlu Wang, Yunchang Mo
    Inflammation.2024;[Epub]     CrossRef
  • The MyoGravity project to study real microgravity effects on human muscle precursor cells and tissue
    Ester Sara Di Filippo, Sara Chiappalupi, Stefano Falone, Vincenza Dolo, Fernanda Amicarelli, Silvia Marchianò, Adriana Carino, Gabriele Mascetti, Giovanni Valentini, Sara Piccirillo, Michele Balsamo, Marco Vukich, Stefano Fiorucci, Guglielmo Sorci, Stefan
    npj Microgravity.2024;[Epub]     CrossRef
  • Neuroprotective Effects and Therapeutic Potential of Dichloroacetate: Targeting Metabolic Disorders in Nervous System Diseases
    Yue Zhang, Meiyan Sun, Hongxiang Zhao, Zhengyan Wang, Yanan Shi, Jianxin Dong, Kaifang Wang, Xi Wang, Xingyue Li, Haiyan Qi, Xiaoyong Zhao
    International Journal of Nanomedicine.2023; Volume 18: 7559.     CrossRef
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