Untargeted metabolomics‐based identification of bioactive compounds from <i>Mangifera indica</i> L. seed extracts in drug discovery through molecular docking and assessment of their anticancer potential

Kaneria, Mital; Rakholiya, Kalpna; Bavaliya, Kaushal R; Pandya, Mohit H; Sipai, Tahir N; Vadher, Sharmishtha A; Patel, Margi; Yadav, Virendra Kumar; Solanki, Raghu; Patel, Sunita; Sahoo, Dipak Kumar; Patel, Ashish

doi:10.1002/jsfa.13421

Cited by 3 publications

(1 citation statement)

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“…Plant-derived antioxidant compounds and their mechanisms of antioxidant defenses can play a crucial role in preventing diseases that are triggered by oxidative stress. [2][3][4]6,[18][19][20][21][22] Curcumin is a physiologically active phenolic molecule derived from the Indian spice Curcuma longa (turmeric) that has been demonstrated to possess potent anti-inflammatory, anticancer, and antioxidant activities. 4,6 It efficiently eliminates ROS such as superoxide anion and hydroxyl radicals.…”

Section: Introductionmentioning

confidence: 99%

Curcumin‐loaded nanoparticles effectively prevent T₄‐induced oxidative stress in rat heart

Mishra,

Sahoo,

Mohanty

et al. 2024

Cell Biochemistry & Function

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In this study, we report the cardioprotective effect of the glycerol monooleate (GMO) based nanocurcumin in both in vitro and in vivo conditions under a hyperthyroid state. The heart is one of the primary target organs sensitive to the action of thyroid hormone, and slight variations in the thyroid hormone serum concentrations result in measurable changes in cardiac performance. Hyperthyroidism‐induced hypermetabolism is associated with oxidative stress and is an important mechanism responsible for the progression of heart failure. Curcumin has been known to play a protective role against oxidative stress‐related diseases like Alzheimer's, asthma, and aging due to its antioxidant properties. Nevertheless, its potent biological activity has been hindered due to its poor bioavailability. To overcome this drawback, a GMO‐based biodegradable nanoparticle (NP) formulation loaded with curcumin has been developed, and the protective effect of curcumin‐loaded NPs was compared against the native drug. Oxidative stress parameters like reactive oxygen species (ROS) release, change in mitochondrial membrane permeability, lipid peroxidation (LPx), lactate dehydrogenase (LDH) release, and the activity and protein expression of the endogenous antioxidant enzymes like superoxide dismutase, catalase (CAT) and glutathione peroxidase were evaluated. The results from in vitro showed that curcumin‐loaded NPs showed better DPPH and NO radical scavenging activity than native curcumin in a concentrations range of 2.5–20 µM. It was also observed that the nanoparticulate curcumin was comparatively more effective than native curcumin in protecting against ROS‐induced membrane damage by reducing LPx and LDH leakage at low concentrations of 5–10 µM. Further, curcumin NPs performed better in facilitating the activities of antioxidant enzymes under in vitro and in vivo conditions with respect to time and concentrations, resulting in reduced cellular ROS levels. In this scenario, we anticipate that curcumin‐loaded NPs can serve as a better antioxidant than its native counterpart in protecting the heart from oxidative stress‐related diseases.

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Section: Introductionmentioning

confidence: 99%

Curcumin‐loaded nanoparticles effectively prevent T₄‐induced oxidative stress in rat heart

Mishra,

Sahoo,

Mohanty

et al. 2024

Cell Biochemistry & Function

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Recent advancement in mass based plant metabolomics: techniques, tools, and analytical approaches

Kumar,

Bharat,

Kumar

et al. 2024

Phytochem Rev

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A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

Wadhwa,

Kapoor,

Kaur

et al. 2024

Mycobiology

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Untargeted metabolomics‐based identification of bioactive compounds from Mangifera indica L. seed extracts in drug discovery through molecular docking and assessment of their anticancer potential

Cited by 3 publications

References 84 publications

Curcumin‐loaded nanoparticles effectively prevent T₄‐induced oxidative stress in rat heart

Curcumin‐loaded nanoparticles effectively prevent T₄‐induced oxidative stress in rat heart

Recent advancement in mass based plant metabolomics: techniques, tools, and analytical approaches

A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

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Untargeted metabolomics‐based identification of bioactive compounds from Mangifera indica L. seed extracts in drug discovery through molecular docking and assessment of their anticancer potential

Cited by 3 publications

References 84 publications

Curcumin‐loaded nanoparticles effectively prevent T4‐induced oxidative stress in rat heart

Curcumin‐loaded nanoparticles effectively prevent T4‐induced oxidative stress in rat heart

Recent advancement in mass based plant metabolomics: techniques, tools, and analytical approaches

A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

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Curcumin‐loaded nanoparticles effectively prevent T₄‐induced oxidative stress in rat heart

Curcumin‐loaded nanoparticles effectively prevent T₄‐induced oxidative stress in rat heart