Transcriptomic and Lipidomic Analysis of Lipids in Forsythia suspensa

Evaluation of genotoxicity and teratogenicity of phillyrin

Phillyrin is extracted from Forsythia suspensa (Thunb.) Vahl, is significantly higher in (unripe Forsythiae Fructus) Qing qiao than in (ripe Forsythiae Fructus) Lao qiao fruits of the plant. However, the toxicity of phillyrin has not been adequately investigated. The study investigates the genetic and teratogenic effects of phillyrin to determine its safety profile. Assessing the genotoxicity and teratogenicity of phillyrin involved various tests, such as the bacterial reverse mutation assay, mammalian erythrocyte micronucleus assay, spermatocyte chromosome aberration assay, and teratogenicity assay. The results demonstrated that phillyrin exhibited no discernible impact on the following: number of colonies that spontaneously revert for Salmonella typhimurium TA 97, TA98, TA100, TA102, and TA1535, frequency of bone marrow polychromatic erythrocytes, and the rate of chromosomal aberrations. In the teratogenicity test, the pregnant rats exhibited no signs of toxicity or abnormal changes, and the growth, embryonic development, and visual anatomy of each pup were normal. In comparison with the negative control group, there were no significant differences in fetal body weight, mortality, deformity rate, malformed nest rate, gravid uterus weight, average number of fetuses per litter, fetal body length, or visceral and skeletal development in each dose group. In conclusion, these findings provide evidence that phillyrin does not exhibit genotoxic or teratogenic effects, supporting its potential safety for pharmacological applications.

Plant and algal lipidomes: Analysis, composition, and their societal significance

Plants and algae play a crucial role in the earth's ecosystems. Through photosynthesis they convert light energy into chemical energy, capture CO2 and produce oxygen and energy-rich organic compounds. Photosynthetic organisms are primary producers and synthesize the essential omega 3 and omega 6 fatty acids. They have also unique and highly diverse complex lipids, such as glycolipids, phospholipids, triglycerides, sphingolipids and phytosterols, with nutritional and health benefits. Plant and algal lipids are useful in food, feed, nutraceutical, cosmeceutical and pharmaceutical industries but also for green chemistry and bioenergy. The analysis of plant and algal lipidomes represents a significant challenge due to the intricate and diverse nature of their composition, as well as their plasticity under changing environmental conditions. Optimization of analytical tools is crucial for an in-depth exploration of the lipidome of plants and algae. This review highlights how lipidomics analytical tools can be used to establish a complete mapping of plant and algal lipidomes. Acquiring this knowledge will pave the way for the use of plants and algae as sources of tailored lipids for both industrial and environmental applications. This aligns with the main challenges for society, upholding the natural resources of our planet and respecting their limits.

Quality Grade Evaluation of Niuhuang Qingwei Pills Based on UPLC and TCM Reference Drug—A Novel Principle of Analysis of Multiple Components in Ready-Made Chinese Herbal Medicine

Ready-made Chinese herbal medicine (RMCHM) is one of the most common types of synergistic herbal medicine used worldwide. It is based on composite herbal formulae (CHF), which makes quality control of this kind of traditional Chinese medicine (TCM) difficult, let alone distinguishing the good from the bad. Taking Niuhuang Qingwei Pills (NHQWP) as an example, this study reported the development of a novel principle of analysis of multiple components in RMCHM. Experimental procedures involved the selection of high-quality Chinese materia medica (CMM, individual medicinal plant parts used in the NHQWP) to prepare three batches of TCM reference drugs (TCMRD). Pure compounds of the active ingredients identified in the herbal formula including berberine hydrochloride, geniposide, forsythiaside A, 3,5-O-dicaffeoyl quinic acid, hesperidin, baicalin, glycyrrhizic acid, and chrysophanol in the three TCMRDs were analyzed as well as those in 49 batches of commercial products from 18 manufacturers by ultra-performance liquid chromatography (UPLC) method combined with wavelength switching. Using the TCMRD as the scientific ruler, quality grade specifications of NHQWP were proposed by comprehensive analysis of multiple components. Accordingly, 13, 28, and 8 batches of samples were primarily rated as first-grade, second-grade, and unqualified, respectively.