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KMID : 0043320230460050408
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Archives of Pharmacal Research
2023 Volume.46 No. 5 p.408 ~ p.422
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Metformin mitigates renal dysfunction in obese insulin-resistant rats via activation of the AMPK/PPAR¥á pathway
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Laongdao Thongnak
Nattavadee Pengrattanachot
Sasivimon Promsan
Nichakorn Phengpol
Prempree Sutthasupha
Krit Jaikumkao
Anusorn Lungkaphin
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Abstract
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Insulin signaling and lipid metabolism are disrupted by long-term consumption of a high-fat diet (HFD). This disruption can lead to insulin resistance, dyslipidemia and subsequently renal dysfunction as a consequence of the inactivation of the AMP-activated protein kinase (AMPK) and peroxisome proliferator-activated receptor-¥á (PPAR¥á) or AMPK/PPAR¥á pathways. We investigated the impact of metformin on the prevention of renal dysfunction through the modulation of AMPK-regulated PPAR¥á-dependent pathways in insulin-resistant rats induced by a HFD. Male Wistar rats were fed a HFD for 16 weeks to induce insulin resistance. After insulin resistance had been confirmed, metformin (30 mg/kg) or gemfibrozil (50 mg/kg) was given orally for 8 weeks. Evidence of insulin resistance, dyslipidemia, lipid accumulation and kidney injury were observed in HF rats. Impairment of lipid oxidation, energy metabolism and renal organic anion transporter 3 (Oat3) expression and function were demonstrated in HF rats. Metformin can stimulate the AMPK/PPAR¥á pathways and suppress sterol regulatory element-binding transcription factor 1 (SREBP1) and fatty acid synthase (FAS) signaling (SREBP1/FAS) to enable the regulation of lipid metabolism. Renal inflammatory markers and renal fibrosis expression induced by a HFD were more effectively reduced after metformin treatment than after gemfibrozil treatment. Interestingly, renal Oat3 function and expression and kidney injury were improved following metformin and gemfibrozil treatment. Renal cluster of differentiation 36 (CD36) or sodium glucose cotransporter type 2 (SGLT2) expression did not differ after treatment with metformin or gemfibrozil. Metformin and gemfibrozil could reduce the impairment of renal injury in obese conditions induced by a HFD through the AMPK/PPAR¥á-dependent pathway. Interestingly, metformin demonstrated greater efficacy than gemfibrozil in attenuating renal lipotoxicity through the AMPK-regulated SREBP1/FAS signaling pathway.
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KEYWORD
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Insulin resistance, Metformin, Renal function, AMPK/PPAR¥á, Oat3
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