Wikstroemia: A Review on its Phytochemistry and Pharmacology.

BACKGROUND: Wikstroemia (the family Thymelaeaceae) consists of medicinal plants which established great value in traditional medicines for many years. For instance, W. indica is always recommended for treatments of syphilis, arthritis, whooping cough, and cancer. No systematic review of bioactive compounds from this genus has been recorded to date. OBJECTIVE: The objective of the current study is to review phytochemical investigations and pharmacological effects of Wikstroemia plant extracts and isolates. METHODS: By searching on the internet, the relevant data about Wikstroemia medicinal plants were retrieved from internationally renowned scientific databases, such as Web of Science, Google Scholar, Sci-Finder, Pubmed, and so on. RESULTS: More than 290 structurally diverse metabolites were separated and identified from this genus. They include terpenoids, lignans, flavonoids, coumarins, mono-phenols, diarylpentanoids, fatty acids, phytosterols, anthraquinones, and others. Pharmacological records indicated that Wikstroemia plant crude extracts and their isolated compounds bring out various beneficial effects, such as anticancer, antiinflammatory, anti-aging, anti-viral, antimicrobacterial, antimalarial, neuroprotective, and hepatoprotective activities Conclusion: Wikstroemia has been regarded as a worthy genus with numerous phytochemicals and various pharmacological potentials. Modern pharmacological studies have successfully provided evidence for traditional uses. Nonetheless, their action mechanisms need to be further investigated. Although various secondary metabolites were identified from Wikstroemia plants, the current pharmacological research mainly concentrated on terpenoids, lignans, flavonoids, and coumarins.

Oxymatrine: A current overview of its health benefits.

Oxymatrine (OMT), was identified as a quinolizidine alkaloid, which was one of the major matrine-type alkaloids extracted from Sophora medicinal plants. Growing studies revealed that OMT has a wide range of beneficial pharmacological values, consisting of anticancer, antidiabetic, antivirus, and antiinflammtion, as well as the protective activities to the brain, liver, heart, lung, vascular, gastrointestinal, bone, kidney, and skin organs. Various in vitro and in vivo models of pharmacological actions were recorded in regard to the usage of alkaloidal OMT. Mechanisms underlying anticancer activity of this compound may have been possibly involved anti-proliferation, invasion, migration, angiogenesis, epithelial-mesenchymal transition of cells, autophagy, especially apoptotic cell deaths. OMT could reduce hyperglycemia and hyperlipemia in a high-fat diet and streptozotocin-stimulated diabetic mice by improving insulin secretion and sensitivity. OMT suppressed gastric ulcer via gastric inflammatory and oxidative inhibitions, and pro-apoptotic actions. It turns out that OMT is relatively safe for cell and animal experiments. In this study, we offer a systematic review of natural occurrence, pharmacological potentials, possible mechanisms of action, pharmacokinetics, and bioavailability. Clinical research with OMT is needed to extensively elucidate its health potential benefits.

Effect of NPK-SRFS on the Growth, Yield and Essential Oil Composition of Basil (Ocimum basilicum L.).

<b>Background and Objective:</b> Basil (<i>Ocimum basilicum</i> L.), an aromatic herb, is considered one of the most important crops with essential oils as well as other bioactive compounds. Basil leaves have tremendous pharmaceutical benefits and are used for foods. Slow-release fertilizers have been developed to optimize the fertilization of crops. This work aims to discover the effect of NPK Slow-Release Fertilizer Coated by Starch (NPK-SRFS) at different rates on growth, yield and essential oil components of basil grown on the field in Northern Vietnam. <b>Materials and Methods:</b> Basil seedlings, sown from seeds, were used as plant materials. NPK-SRFS was stocked in the Faculty of Chemistry, Hanoi Pedagogical University 2. The experiments were designed in a fully randomized block model, consisting of four treatments with different rates of NPK-SRFS. Each treatment had three replicates with an area of 8 m². Duncan's Multiple Range Test was being used for statistical analysis (p = 0.05). <b>Results:</b> All 3 NPK-SRFS treatments significantly increased the number of buds and leaves per plant compared to the control. However, NPK-SRFS at different rates affected diversely plant height and leaf area of the basil. F5.0 and F10 treatments accelerated chlorophyll content as well as Fv/Fm value in comparison with none NPK-SRFS treatment. The application of NPK-SRFS at different rates caused slightly different changes in basil essential oil composition, especially the content of Methyl Chavicol, the most abundant oxygenated monoterpene and α-trans-Bergamotene, the most abundant sesquiterpene hydrocarbon. <b>Conclusion:</b> The present study provides further insight into the influence of NPK-SRFS on the growth, yield and essential oil components of basil.