Naturally Occurring Bioactive Compound‐Derived Nanoparticles for Biomedical Applications

Saw, Phei Er; Lee, So‐Young; Jon, Sangyong

doi:10.1002/adtp.201800146

Cited by 25 publications

(18 citation statements)

References 113 publications

(122 reference statements)

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“…Simply having a slightly targeted system that would increase the accumulation of the drug at the cancer site compared to chemotherapy would prove to be beneficial and required. A nanoparticle system should be stable, have the ability to carry large loads of cargo, and most importantly, could be accumulated to the tumor site through an enhanced permeability and retention (EPR) effect [5,9,15]. The drug must maintain its toxic effects and as a result should be stable in the sense that it does not break open, releasing its contents and should only do so at the cancer site.…”

Section: Discussionmentioning

confidence: 99%

“…Through the aid of a nanocarrier, a drug can be safely administered, with long systemic circulation; which could effectively increase drug bioavailability while reducing its systemic toxicity [4]. Additionally, using a naturally occurring phenolic compound may have a less negative toxic effect on healthy cells and as a result the entire body, but with the difficulty of forming a stable nanoparticle that can still administer the contents of the nanoparticle [5,6].…”

Section: Introductionmentioning

confidence: 99%

“…L-epicatechin (EPI), (-)-epigallocatechin gallate (EGCG), and piceatannol (PIC) are the three phenolic compounds analyzed in section [7]. Each solution is a phenolic compound and has hydroxyl groups attached to the benzene rings in the compound which result in strong intermolecular interactions due to hydrogen bonding [5,13]. The three solutions are also made up of at least one benzene ring and also have intermolecular interactions through pi stacking.…”

Section: Introductionmentioning

confidence: 99%

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Transforming Tea Catechins into Potent Anticancer Compound: Analysis of Three Boronated-PEG Delivery System

et al. 2021

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Chemotherapy has led to many undesirable side effects, as these are toxic drugs that are unable to differentiate between cancer and normal cells. Polyphenols (tea catechins) are an ideal option as alternative chemotherapeutics owing to their inherent anticancer properties, antioxidant properties and being naturally occurring compounds, are deemed safe for consumption. However, without proper administration, the bioavailability of these compounds is low and inefficient. Therefore, proper delivery of these phenolic compounds is vital for cancer therapy. Herein, we analyzed three potential solutions to creating nanoparticle drugs using naturally occurring phenolic compounds (piceatannol (PIC), epigallocatechin gallate hydrophilic (EGCG) and l-epicatechin (EPI)). By using a simple pi-pi stacking mechanism, we utilized boronated PEG (PEG-Br) as an anchor to efficiently load EPI, PIC and EGCG, respectively, to produce three effective phenolic compound-based nanoparticles, which could be delivered safely in systemic circulation, yet detach from its cargo intracellularly to exert its anticancer effect for effective cancer therapy.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Transforming Tea Catechins into Potent Anticancer Compound: Analysis of Three Boronated-PEG Delivery System

et al. 2021

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“…Modern strategies are particularly focused on ecofriendly nanosize materials, produced during the greener synthesis/the green chemistry processes (Kharissova et al 2019). Such attempts have been successfully undertaken with other substances of plant origin (Park et al 2016;Saw et al 2019). The R. rhabarbarum-based silver nanoparticles were found to possess significant antibacterial activity both against E. coli (CCM 4517) and Staphylococcus aureus (CCM 4516).…”

Section: Other Biological Activitiesmentioning

confidence: 99%

Rheum rhaponticum and Rheum rhabarbarum: a review of phytochemistry, biological activities and therapeutic potential

Kołodziejczyk-Czepas

Liudvytska

2020

Phytochem Rev

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The Rheum genus (Polygonaceae) covers about 60 species of rhubarbs, including specimens with a long ethnomedicinal history in Asia, Europe and other regions of the world. The work reviews available literature (until March, 2020) on phytochemical profile, ethnomedicinal recommendations, biological activities, pharmacological uses and future prospects for therapeutic applications of Rheum rhabarbarum L. (garden rhubarb) and Rheum rhaponticum L. (rhapontic rhubarb). Although the above species are well-known vegetables, scientific interest in these plants is a relatively new issue; most of evidence of their biological activities and therapeutic potential derives from the last 15 years. Rhubarbs contain numerous bioactive substances, belonging to diverse groups of phytochemicals, e.g. stilbenes, anthraquinones and flavonoids. The registered special extract of R. rhaponticum (ERr731®) is administered to alleviate the menopause-related complaints. Furthermore, both ethnomedicinal surveys and recent studies on bioactive substances from rhubarbs indicate that these plants may have significantly broader range of beneficial effects such as antioxidant, anti-inflammatory, antimicrobial and cardioprotective activities.

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“…The extraction of a bioactive compound always brings focus areas toward microbes, plant, and animal matrices. Bioactive compounds are used as a carrier agent in the treatment of various emerging diseases (Saw et al., 2019). The bioactive compounds extraction becomes focused toward a spice recognized as fenugreek.…”

Section: Introductionmentioning

confidence: 99%

Diosgenin a steroidal compound: An emerging way to cancer management

Arya

Kumar

2021

J Food Biochem

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To endure respective research for cancer via common food ingredients has become more prominent with preferably minuscule toxicity. Spices are emerging as a new source of bioactive compounds which have the potential to cure cancer. Fenugreek is rich in diosgenin that has curative and preventive potency toward various cancers. Cancer is invading various cellular mechanisms by altering cellular receptors. Cancer falsifies healthy cells by altered cell receptors like p38, p53, mTOR, Akt, and PARP. Distinct stages of cancer development are triggered by various cellular mechanisms. Diosgenin helps in suppressing cancer mechanisms and induces programmed cell death. Diosgenin brought changes in treatment line of lung, breast, prostate, liver, and colon cancer. Apoptosis changes cytoplasmic different caspase pathways and triggers selected sequence for cancer cell line death. Cell death comprised of series of events carried out by metalloprotease caspase. The complex relationship among cancer, caspase, cell death, and cellular receptors is reviewed in this article in respect of diosgenin. The utilization of diosgenin in creating a bar for cancer, its triggering sites, and various ways to cause apoptosis of abnormal cells. This article focused on diosgenin, its role in the prevention of different cancer and cellular apoptosis throughout different pathways involved in complex interaction of bioactive compound‐cellular mechanism cancer. Practical applications The concept of curing diseases from daily routine food is quite old. Fenugreek is an excellent source of various bioactive compounds especially diosgenin. Diosgenin is steroidal sapogenin that cures various health issues including cancers. Cancer is one of the most life‐threating disease which can affect any cell, tissue, and organ in living system. Diosgenin is proved to be beneficial in terms curing cancer of various types but majorly include lung, liver, colon breast, and prostate. Cancer cure with diosgenin is providing a new base to the pharmaceutical and medical researchers to commence new and more specific journey of diosgenin. Diosgenin could alter cellular pathways that modify cell mechanism in way toward treating cancer. Cell mechanism mainly affected by the interaction of cell signals and cell different receptors that cause triggered cell death. This review article focused over various cancer and diosgenin effect in controlling different cellular pathways which include cellular signaling and cell death mechanism.

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Naturally Occurring Bioactive Compound‐Derived Nanoparticles for Biomedical Applications

Cited by 25 publications

References 113 publications

Transforming Tea Catechins into Potent Anticancer Compound: Analysis of Three Boronated-PEG Delivery System

Transforming Tea Catechins into Potent Anticancer Compound: Analysis of Three Boronated-PEG Delivery System

Rheum rhaponticum and Rheum rhabarbarum: a review of phytochemistry, biological activities and therapeutic potential

Diosgenin a steroidal compound: An emerging way to cancer management

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