α-Lipoic Acid Alleviated Fluoride-Induced Hepatocyte Injury via Inhibiting Ferroptosis

Zhao, Yangfei; Liu, Xueyan; Liang, Chen; Pei, Ting; Guo, Mingyue; Wang, Jundong; Zhang, Jianhai

doi:10.1021/acs.jafc.2c07484

Cited by 8 publications

(3 citation statements)

References 48 publications

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“…This underscores the potential of lipoic acid to be employed as an effective therapeutic agent for treating APAP overdose-induced liver damage. Also, a certain study that is in agreement with histopathological findings in the current study, has found that results of the study indicate that it can mitigate the harm to the liver morphology and ultrastructure induced by hepatotoxicity caused by fluoride (Zhao et al, 2022). In a scientific investigation involving rodents that had sustained liver damage due to lipopolysaccharide injection, it was discovered that lipoic acid served to regulate the equilibrium of the oxidant/antioxidant status and avert the occurrence of oxidative stress (Cimen et al, 2019;Zalzala and Kareem, 2021;Al-Azzawi and Baraaj, 2016).…”

Section: Histopathologysupporting

confidence: 91%

“…Furthermore, it was observed that Tempol treatment led to a decrease in the expression of pro-apoptotic proteins (cleaved caspase-3 and Bax) and an increase in the expression of the anti-apoptotic protein Bcl-2 in the liver. Moreover, the number of apoptotic cells, as determined by TUNEL staining, was significantly reduced following Tempol treatment, suggesting its potential to prevent apoptosis (Zhao et al, 2022). Overall, the evidence suggests that Tempol has the ability to restore normal liver function in mice with APAP-induced acute hepatotoxicity by activating the PI3K/Akt/Nrf2 pathway, thereby enhancing the antioxidant response and inhibiting hepatic apoptosis.…”

Section: Histopathologymentioning

confidence: 85%

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The Role of Alpha Lipoic Acid and Tempol Against Liver Injury after Acetaminophen Subacute Exposure in Mice

Alrobyrai,

Al-Rekabi

2024

AAVS

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| Acetaminophen (APAP) is a widely used analgesic and antipyretic drug, but it can cause liver damage when taken in high doses or for prolonged periods. Alpha Lipoic Acid (ALA) and Tempol are two antioxidants that have been shown to protect against various forms of oxidative stress and inflammation. This study explored the hepatoprotective effects of Alpha Lipoic Acid (ALA) and Tempol against subacutely repeated acetaminophen (APAP) exposure in a murine model. Fifty male Balb-c mice were divided into five groups. Groups received 700 mg/ kg.BW of APAP and oral treatments: G1 (distilled water, negative control), G2 (no treatment, positive control), G3 (Par+Tempol, 20 mg/kg.BW), G4 (Par+ALA, 20 mg/kg.BW), G5 (Par+Tempol+ALA, 10 mg/kg.BW each). Half animals were sacrificed after 30 days, the rest after one week of treatment withdrawal. Investigation included body weight, biochemical markers (ALT, GGT, PT, INR), and liver histopathology. After 30 days, G5 showed a significant (P ≤ 0.05) increase in body weight (29.2±1.32) compared to the positive control (20.8±1.2). After withdrawal, G5 displayed a significant (P ≤ 0.05) increase in body weight(31.4±1.17) compared to all other experimental groups G1(29.2±0.37),G2(25.8±2.4), G3(25.0±1.38) and G4(27.2±1.02). Positive control (117 ± 42.9) had significantly (P ≤ 0.05) increased ALT after 30 days, but all experimental groups G1(6.10 ± 1.81), G3(6.96 ± 3.33), G4(10.4 ± 5.56) and G5(7.62 ± 2.34) showed decreased ALT after withdrawal in comparison with positive control(16.1 ± 6.8). GGT levels were significantly increased in G4(2.05 ± 1.14) after 30 days, while G5(1.92 ± 0.97) showed a significant (P ≤ 0.05) decrease after withdrawal. PT increased significantly (P ≤ 0.05) in G4(2.05 ± 1.14) after 30 days but decreased in G3(5.01 ± 1.02), G4(3.85 ± 1.46), and G5(3.85 ± 1.46) after withdrawal. INR significantly increased in G4(16.6 ± 0.39) after 30 days but decreased in G3(13.1 ± 0.72), G4(3.96 ± 0.04), and G5(14.6 ± 0.66) after withdrawal. Liver sections displayed necrotic hepatocytes in G3 after 30 days, and G4 showed normal features. G5 exhibited normal hepatocytes after 30 days, with mild cellular swelling after withdrawal. These findings suggest the potential of ALA and Tempol in mitigating APAP-induced subacute toxicity, indicating a promising therapeutic avenue. However, further research is essential to elucidate the precise mechanisms, and caution is warranted in interpreting these preliminary results. The clinical implications could revolutionize APAP-induced toxicity management, emphasizing the need for continued research in this area.

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Section: Histopathologysupporting

confidence: 91%

Section: Histopathologymentioning

confidence: 85%

The Role of Alpha Lipoic Acid and Tempol Against Liver Injury after Acetaminophen Subacute Exposure in Mice

Alrobyrai,

Al-Rekabi

2024

AAVS

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“…Alpha lipoic acid is an important natural free radical scavenger. It was reported to inhibit the occurrence of lipid peroxidation via the System Xc - /GPX4 axis, thereby preventing fluorine-induced ferroptosis in liver cells [ 129 ]. Alpha lipoic acid also ameliorated cobalt-induced liver injury via inhibiting ferroptosis [ 130 ].…”

Section: Nac Treat Liver Disease By Targeting Ferroptosismentioning

confidence: 99%

Ferroptosis in Liver Disease: Natural Active Compounds and Therapeutic Implications

Wu,

Zhu,

Liu

et al. 2024

Antioxidants

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Ferroptosis is an emerging type of regulated cell death usually accompanied by the accumulation of ferrous ions (Fe2+) and lipid peroxides. As the metabolic hub of the body, the liver is crucial for iron storage and lipid metabolism. The liver seems to be closely related to ferroptosis through iron and lipid metabolism. Liver disease greatly threatens host health, and exploring effective interventions is essential. Mounting studies have demonstrated that ferroptosis is one of the possible pathogenic mechanisms involved in liver disease. Targeting ferroptosis may provide a promising opportunity for treating liver disease. However, drugs targeting ferroptosis are extremely limited. Therefore, it is an urgent need to develop new and safe ferroptosis regulators. Natural active compounds (NAC), especially those derived from traditional Chinese medicine, have recently shown great therapeutic potential in liver disease via modulating ferroptosis-related genes or pathways. Here, we outline the molecular mechanism of ferroptosis and systematically summarize the regulatory function of NAC on ferroptosis in liver disease. Finally, we discuss the application prospects and potential problems concerning NAC as ferroptosis regulators for managing liver disease.

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Fluoride Induces Neurocytotoxicity by Disrupting Lysosomal Iron Metabolism and Membrane Permeability

Xu,

Xing,

et al. 2024

Biol Trace Elem Res

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α-Lipoic Acid Alleviated Fluoride-Induced Hepatocyte Injury via Inhibiting Ferroptosis

Cited by 8 publications

References 48 publications

The Role of Alpha Lipoic Acid and Tempol Against Liver Injury after Acetaminophen Subacute Exposure in Mice

The Role of Alpha Lipoic Acid and Tempol Against Liver Injury after Acetaminophen Subacute Exposure in Mice

Ferroptosis in Liver Disease: Natural Active Compounds and Therapeutic Implications

Fluoride Induces Neurocytotoxicity by Disrupting Lysosomal Iron Metabolism and Membrane Permeability

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