Combined β-Sitosterol and Trimetazidine mitigate potassium dichromate-induced cardiotoxicity in rats through the interplay between NF-κB/AMPK/mTOR/TLR4 and HO-1/NADPH signaling pathways

El-Shoura, Ehab A.M.; Salem, Maha A.; Ahmed, Yasmine H.; Ahmed, Lamiaa Khalaf; Zaafar, Dalia

doi:10.21203/rs.3.rs-2524702/v1

Cited by 2 publications

(3 citation statements)

References 57 publications

(58 reference statements)

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“…The present results highlight the pronounced effects of nicorandil on AMPK phosphorylation in ATO‐treated rats. This aligns with other studies demonstrating the protective antioxidant role of AMPK, which suppresses NF‐κB activity and impedes its migration from the cytosol of activated macrophages to the nucleus, thereby restraining the initiation of the pro‐inflammatory cascade (El‐Shoura et al, 2023; Xiang et al, 2019).…”

Section: Discussionsupporting

confidence: 91%

“…Furthermore, disturbed redox balance and heightened levels of oxidative stress biomarkers are known to trigger NF‐κB activation via TLR‐4. This activation exacerbates the redox status imbalance, stimulating an increased influx of inflammatory cells and cytokines, including TNF‐α, IL‐6, and IL‐1β, while concurrently decreasing levels of anti‐inflammatory cytokines (Atwa et al, 2022; Baeuerle & Baichwal, 1997; El‐Shoura et al, 2023). Cytokine activation stimulates STATs through JAK activation via tyrosine phosphorylation (Liu et al, 2023; Morris et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

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Nicorandil mitigates arsenic trioxide‐induced lung injury via modulating vital signalling pathways SIRT1/PGC‐1α/TFAM, JAK1/STAT3, and miRNA‐132 expression

Abdel‐Wahab,

Zafaar,

Habeeb

et al. 2024

British J Pharmacology

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Background and PurposeNicorandil, a selective opener of potassium channels, used to treat angina, has drawn attention for its potential in mitigating lung injury, positioning it as a promising therapeutic approach to treat drug‐induced lung toxicity. This study aimed to explore the protective role of nicorandil in arsenic trioxide (ATO)‐induced lung injury and to elucidate the underlying mechanistic pathways.Experimental ApproachWe assessed the effects of nicorandil (15 mg·kg−1, p.o.) in a rat model of pulmonary injury induced by ATO (5 mg·kg−1, i.p.). The assessment included oxidative stress biomarkers, inflammatory cytokine levels, and other biomarkers, including sirtuin‐1, sirtuin‐3, STAT3, TFAM, and JAK in lung tissue. Histological examination using H&E staining and molecular investigations using western blotting and PCR techniques were conducted.Key ResultsIn our model of lung injury, treatment with nicorandil ameliorated pathological changes as seen with H&E staining, reduced tissue levels of toxicity markers, and exerted significant antioxidant and anti‐inflammatory actions. On a molecular level, treatment with nicorandil down‐regulated JAK, STAT3, PPARγ, Nrf2, VEGF, p53, and micro‐RNA 132 while up‐regulating Sirt1, 3, TFAM, AMPK, and ERR‐α in lung tissue.Conclusions and ImplicationsThe results presented here show nicorandil as a significant agent in attenuating lung injury induced by ATO in a rodent model. Nonetheless, further clinical studies are warranted to strengthen these findings.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Nicorandil mitigates arsenic trioxide‐induced lung injury via modulating vital signalling pathways SIRT1/PGC‐1α/TFAM, JAK1/STAT3, and miRNA‐132 expression

Abdel‐Wahab,

Zafaar,

Habeeb

et al. 2024

British J Pharmacology

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“…These effects were associated with modulation of PPARγ/NF-κB signaling during myocardial I/R El Omari et al Natural Products and Bioprospecting (2024) 14:27 injury. Recently, El-Shoura et al [149] investigated the effectiveness of a combination therapy of β-sitosterol with trimetazidine (TMZ) to attenuate experimentally induced cardiotoxicity (in vivo). Study results showed that the administration of β-sitosterol alone or combined with TMZ provides high protection against cardiotoxicity by decreasing oxidative stress as well as inflammatory and apoptotic biomarkers.…”

Section: Other Protective Mechanismsmentioning

confidence: 99%

Unveiling the molecular mechanisms: dietary phytosterols as guardians against cardiovascular diseases

El Omari,

Bakrim,

Khalid

et al. 2024

Nat. Prod. Bioprospect.

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Until recently, the main pharmaceuticals used to control cholesterol and prevent cardiovascular disease (CVD) were statin-related drugs, known for their historical side effects. Therefore, there is growing interest in exploring alternatives, such as nutritional and dietary components, that could play a central role in CVD prevention. This review aims to provide a comprehensive understanding of how natural phytosterols found in various diets combat CVDs. We begin with a description of the overall approach, then we explore in detail the different direct and indirect mechanisms that contribute to reducing cardiovascular incidents. Phytosterols, including stigmasterol, β-sitosterol, ergosterol, and fucosterol, emerge as promising molecules within nutritional systems for protection against CVDs due to their beneficial effects at different levels through direct or indirect cellular, subcellular, and molecular mechanisms. Specifically, the mentioned phytosterols exhibit the ability to diminish the generation of various radicals, including hydroperoxides and hydrogen peroxide. They also promote the activation of antioxidant enzymes such as superoxide dismutase, catalase, and glutathione, while inhibiting lipid peroxidation through the activation of Nrf2 and Nrf2/heme oxygenase-1 (HO-1) signaling pathways. Additionally, they demonstrate a significant inhibitory capacity in the generation of pro-inflammatory cytokines, thus playing a crucial role in regulating the inflammatory/immune response by inhibiting the expression of proteins involved in cellular signaling pathways such as JAK3/STAT3 and NF-κB. Moreover, phytosterols play a key role in reducing cholesterol absorption and improving the lipid profile. These compounds can be used as dietary supplements or included in specific diets to aid control cholesterol levels, particularly in individuals suffering from hypercholesterolemia. Graphical Abstract

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Combined β-Sitosterol and Trimetazidine mitigate potassium dichromate-induced cardiotoxicity in rats through the interplay between NF-κB/AMPK/mTOR/TLR4 and HO-1/NADPH signaling pathways

Cited by 2 publications

References 57 publications

Nicorandil mitigates arsenic trioxide‐induced lung injury via modulating vital signalling pathways SIRT1/PGC‐1α/TFAM, JAK1/STAT3, and miRNA‐132 expression

Nicorandil mitigates arsenic trioxide‐induced lung injury via modulating vital signalling pathways SIRT1/PGC‐1α/TFAM, JAK1/STAT3, and miRNA‐132 expression

Unveiling the molecular mechanisms: dietary phytosterols as guardians against cardiovascular diseases

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