Insights & Discussion
The bioactive compounds in Chrysanthemums can be used to develop next generation, multi-functional drugs for various diseases including diabetes and prostate cancer.
The methodology comprised a detailed literature review to understand the organic components found in dried Chrysanthemum flowers, such as alkanes, flavonoids, terpinoids, unsaturated fatty acids, and polysaccharides. These components are classified as secondary constituents within Phytochemicals. The study then focused on understanding the bioactive compounds in the Chrysanthemums, to explore their potential use in novel drug development processes.
The results showed that the Chrysanthemum plant, due to its antifungal, antibacterial and anti-inflammation activities, holds great promise for biomolecules research. It was found that the phytochemical properties of Chrysanthemums can serve as the foundation for the production of non-toxic and eco-friendly drugs. This implies that these plants could play a crucial role in addressing global health concerns, such as diabetes and prostate cancer, in the future.
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Gold kiwifruit extracts contained different bioactive materials which showed selective cytotoxic activity against human oral tumor cells and displayed anti-HIV, antioxidant, and antibacterial activities.
2023 Journal of Ethnopharmacology Cancer prevention and therapy with kiwifruit in Chinese folklore medicine: a study of kiwifruit extracts Motohashi N, Shirataki Y, Kawase M, Tani S, Sakagami H, Satoh K, et al.
Network Pharmacology Antibacterial Antioxidant Kiwifruit
The methodology involved stepwise extraction of gold kiwifruit with hexane, acetone, methanol, and 70% methanol; the extracts were then fractionated using silica gel and ODS column chromatographies to examine their biological activities. Different fractions like H1, H2 (from the hexane extract), A1, A2 (from the acetone extract), and M2 (from the methanol extract) were tested, as well as more hydrophilic fractions from the 70% methanol extract.
In the discussion of the results, fractions H1, H2, A1, A2 and M2 displayed notable cytotoxic activity against human oral tumor cell lines, with these showing more sensitivity compared to human gingival fibroblasts. The hydrophilic fractions from the 70% methanol extract demonstrated higher anti-HIV activity, radical generation, and oxygen scavenging activity. However, the antibacterial activity of these fractions was generally lower than that of the more lipophilic (hexane, acetone, methanol) extracts, indicating no distinct antimicrobial action. Interestingly, all fractions were inactive against Helicobacter pylori.
Fresh raw wildflower honey, particularly at concentrations of 10–30%, exhibit comparable efficacy to manuka honey in inhibiting antibiotic-resistant "superbugs" implicated in wound infections, offering a potentially cost-effective alternative for wound care in the United States.
2022 Antibiotics Both Manuka and Non-Manuka Honey Types Inhibit Antibiotic Resistant Wound-Infecting Bacteria Hewett SR, Crabtrey SD, Dodson EE, Rieth CA, Tarkka RM, Naylor K
Network Pharmacology Antibacterial Antimicrobial Honey
Postoperative infections, a significant concern in US hospitals, often involve drug-resistant wound-infecting bacteria, contributing to life-threatening complications. Manuka honey, FDA-approved for wound treatment, has demonstrated antibacterial efficacy. This study sought alternative honey types for wound infections. Using a honey-plate method, it identified fresh raw Arkansas wildflower honeys as effective against antibiotic-resistant bacteria, mirroring manuka honey's inhibition. Concentrations of 10–30% honey proved effective against critical "superbugs," indicating potential cost-effective alternatives for wound care in the US, where manuka honey accessibility and antibiotic resistance are challenges.
The study presents a promising revelation: fresh raw Arkansas wildflower honeys, akin to manuka honey, exhibit substantial efficacy against antibiotic-resistant bacteria implicated in wound infections. The demonstrated effectiveness at concentrations of 10–30% suggests a feasible and cost-effective alternative for wound care in the US, addressing challenges associated with manuka honey availability and antibiotic resistance. These findings have the potential to reshape wound treatment practices, providing accessible and efficient solutions to combat infections caused by drug-resistant bacteria.
Adzuki beans' high lysine content, antioxidative, antibacterial, and anti-inflammatory properties highlight their dual-use as a nutritious food source and a therapeutic agent for various diseases.
2022 Molecules Nutritional Composition, Efficacy, and Processing of Vigna angularis (Adzuki Bean) for the Human Diet: An Overview Wang Y, Yao X, Shen H, Zhao R, Li Z, Shen X, et al.
Review Article Adzuki Bean Antibacterial Lysine
The study methodology involved comprehensive analysis of the nutritional profile and health benefits offered by adzuki beans. Different varieties of the beans were tested to assess disparities in the contents and compositions of starch, protein, fat, polysaccharides, and polyphenols. The processing characteristic components such as isolated protein and heated flavor were also examined to aid in the development of adzuki bean-based food products.
The results showed that adzuki beans have diverse benefits both in terms of nutrition and health. Their proteins were found to be rich in lysine, an essential amino acid, compensating for its shortage in the everyday diet typically containing cereals. The antioxidant, antibacterial, and anti-inflammatory properties are capable of enhancing human health in multiple ways. Adzuki beans and their extracts were found to hold potential in preventing and treating conditions like diabetes, kidney disease, obesity, and even cognitive decline from a high-fat diet. This discovery highlighted the usefulness of adzuki beans as not just food but also a practical ingredient in medicinal treatments.
The underutilized pomegranate peel, full of abundant bioactive substances, could be repurposed for its potential health benefits like anti-inflammatory, anti-cancer, cardiovascular protection, and antibacterial activities.
2022 Frontiers in Nutrition Pomegranate Peel as a Source of Bioactive Compounds: A Mini Review on Their Physiological Functions Mo Y, Ma J, Gao W, Zhang L, Li J, Li J, et al.
Review Article Anti-Inflammatory Antibacterial Anticancer
This paper conducts a miniature review of the characterization and physiological functions of the key bioactive compounds present in pomegranate peel. The exploration underscores the main phenolic compounds in the peel, illustrating substances such as tannins, flavonoids, phenolic acids, dietary fibers, alkaloids, minerals, and vitamins. A deep understanding of these components and their potential benefits is vital to the study and future applications.
The research finds that these core components essentially function as antioxidants, either enhancing oxidative biomarkers or proactively neutralizing reactive oxygen species. By establishing these key functions, it essentially links these activities to a broader context of benefits, including but not limited to anti-inflammatory, anti-cancer, cardiovascular protection, and antibacterial attributes, thereby indicating a potential for substantial health benefits. With comprehensive understanding and appropriate application of these substances, the pomegranate peels, often classified as waste, could find a new life as robust health-enhancing elements.
Prunus mume fruit extracts display hepatoprotective, anti-inflammatory, antioxidative, antibacterial effects, and show promise for treating cancer and alleviating chemotherapy side-effects.
2020 Journal of Ethnopharmacology Anticancer properties of Prunus mume extracts (Chinese plum, Japanese apricot) Bailly C
Review Article Antibacterial Anticancer Chemotherapy
The authors conducted an extensive database retrieval via SciFinder, PubMed, and various other resources using relevant keywords such as "Prunus mume", "Chinese plum", "Japanese apricot", and "cancer". They also consulted relevant textbooks, patents, reviews, and digital documents (in English). The purpose was to analyze the anticancer activities of the P. mume extracts and their potential use to prevent or treat cancers. They also aimed to review the use of the P. mume extracts to alleviate the side effects of chemotherapy, notably drug-induced gastrointestinal toxicities.
In addition to showing hepatoprotective, anti-inflammatory, antioxidative, and antibacterial effects, the P. mume extracts were found to exhibit anticancer properties. Specifically, the extracts inhibited proliferation and induced apoptotic death of multiple types of cancer cells from both solid and hematological tumors. Furthermore, the extracts were found useful in treating mucositis and other gastrointestinal damages induced by anticancer drugs. The scientists profiled key natural products found in the extracts including ursolic acid and oleanic acid. However, they call for more robust evidence of anticancer activity in humans.
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