Proteins and signaling pathways response to Wenjingtongluo drug-contained serum in IHUVECs: an explorative proteomic study.

Angiogenesis is a dynamic and complex process leading to the development of new vessels from pre-existing vessels, which played a major role in pathological processes in many diseases. The present study aimed to investigate the effect of drug-contained serum of Traditional Chinese medicine (TCM) Wenjingtongluo decoction (WJLTD) on antiangiogenesis in Immortalized Human Umbilical Vascular Endothelial cells (IHUVECs), and elucidate the possible mechanisms based on proteomic analysis. Cells were treated with the drug-contained serum of the Drug-contained Serum (DS) of WJLTD and the blank serum (BS). The antiangiogenesis capacity of DS was evaluated using wound healing assay, Transwell, and tube formation assay. We performed three biological replicates to compare large-scale differential protein expression between two groups by tandem mass tag (TMT) labeling technology based on liquid chromatography-mass spectrometry analysis (LC-MS/MS). Gene Ontology (GO), Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses were performed for the general characterization of overall enriched proteins. For validation of the results of TMT, the candidate proteins were verified by parallel reaction monitoring (PRM) analysis. The results showed that 4% DS could inhibit the migration process of IHUVECs according to wound healing assay and Transwell. And tube formation ability was also dramatically inhibited (p<0.001). TMT analysis revealed 148 differentially expressed proteins between two groups that were identified and quantified. The further validation results of the two candidate proteins, Ferritin heavy chain (FTH1) and Ferritin light chain (FTL) from the Ferroptosis pathway, which played an important role in DS treatment, were consistent with those of LC-MS/MS. In conclusion, this is the first proteomics-based study to report the mechanism underlying DS treatment for angiogenesis. Further functional verification of the potential signaling pathways and the enriched proteins is warranted.

Light induces an increasing release of benzyl nitrile against diurnal herbivore Ectropis grisescens Warren attack in tea (Camellia sinensis) plants.

Herbivore-induced plant volatiles (HIPVs) are critical compounds that directly or indirectly regulate the tritrophic interactions among herbivores, natural enemies and plants. The synthesis and release of HIPVs are regulated by many biotic and abiotic factors. However, the mechanism by which multiple factors synergistically affect HIPVs release remains unclear. Tea plant (Camellia sinensis) is the object of this study because of its rich and varied volatile metabolites. In this study, benzyl nitrile was released from herbivore-attacked tea plants more in the daytime than at night, which was consistent with the feeding behaviour of tea geometrid (Ectropis grisescens Warren) larvae. The Y-tube olfactometer assay and insect resistance analysis revealed that benzyl nitrile can repel tea geometrid larvae and inhibit their growth. On the basis of enzyme activities in transiently transformed Nicotiana benthamiana plants, CsCYP79 was identified as a crucial regulator in the benzyl nitrile biosynthetic pathway. Light signalling-related transcription factor CsPIF1-like and the jasmonic acid (JA) signalling-related transcription factor CsMYC2 serve as the activator of CsCYP79 under light and damage conditions. Our study revealed that light (abiotic factor) and herbivore-induced damage (biotic stress) synergistically regulate the synthesis and release of benzyl nitrile to protect plants from diurnal herbivorous tea geometrid larvae.

Characterizing the cultivar-specific mechanisms underlying the accumulation of quality-related metabolites in specific Chinese tea (Camellia sinensis) germplasms to diversify tea products.

The diverse tea (Camellia sinensis) germplasms in China include those that specifically accumulate metabolites, such as anthocyanin, catechin, amino acid, caffeine, aroma compound, and chlorophyll. There is interest in the derived products because of special flavor quality or high efficacy activity. This review describes the characteristics of specific tea germplasms and associated regulatory mechanisms. High expression levels of the corresponding biosynthetic genes lead to the substantial accumulation of anthocyanins. The increased metabolic flux from anthocyanins to galloylated catechins is responsible for the occurrence of high-catechin germplasms. The precursor ethylamine determines the differential abundance of l-theanine between tea and other plants. The high amino acid contents in albino germplasms are the result of decreased l-theanine hydrolysis. In low-caffeine tea germplasms, caffeine synthase genes are minimally expressed or mutated. High-aroma germplasms are associated with an increase in the precursors or strong stress-induced responses. Enhanced chloroplast and chlorophyll synthesis is a hallmark of the high-chlorophyll germplasms. Overall, biosynthetic metabolism might have contributed to the occurrence of specific tea germplasms. Furthermore, elucidation the deeper molecular mechanisms in specific tea germplasms are significant and urgent. The information will enhance our understanding of the metabolic activities in tea plants, with implications for tea breeding.

Acupuncture for Cancer-Induced Bone Pain in Animal Models: A Systemic Review and Meta-Analysis.

BACKGROUND: Cancer-induced bone pain (CIBP) is a highly prevalent symptom, which afflicts vast majority of patients who suffer from cancer. The current treatment options failed to achieve satisfactory effect and the side effects were prominent. Recent randomized controlled trials (RCTs) of animal demonstrate the benefit of acupuncture for CIBP. We sought to determine if the pooled data from available RCTs supports the use of acupuncture for CIBP. METHODS: A literature search for randomized controlled trials was conducted in six electronic databases from inception to May 31, 2019. Meta-analysis was performed with Review Manager 5.3 software; the publication bias was assessed by Stata 12.0 software. We used random effects model for pooling data because heterogeneity is absolute among studies to some extent. RESULTS: Twenty-four trials were included in the review, of which 12 trials provided detailed data for meta-analyses. Preliminary evidence indicates that compared to wait list/sham group, acupuncture was effective on increasing paw withdrawal threshold (PWT) and paw withdrawal latency (PWL). Compared to medicine, acupuncture was less effective on PWT, but as effective as medicine on PWL. Acupuncture can reinforce medicine's effect on PWT and PWL. Compared to the control group, acupuncture was superior to increase body weight (BW), decrease spinal cord glial fibrillary acidic protein (GFAP), and interleukin-1ß (IL-1ß). Furthermore, some studies showed acupuncture delay or partially reverse morphine tolerance. Three studies found acupuncture has no effect on PWT, but 2 of them found acupuncture could enhance small dose of Celebrex's effect on CIBP. CONCLUSIONS: Acupuncture was superior to wait list/sham acupuncture on increasing PWT and has no less effect on increasing PWL compared to medicine; acupuncture improved the efficacy of drugs, increased the CIBP animals' body weight, and decreased their spinal cord GFAP and IL-1ß. High-quality studies are necessary to confirm the results.

Self-assembled micelles based on gambogenic acid-phospholipid complex for sustained-release drug delivery.

Objective: To improve the water solubility and enhance the oral bioavailability of gambogenic acid (GNA). Methods: GNA-phospholipid complex (GNA-PLC) micelles were successfully prepared by anti-solvent method. Results: The encapsulation efficiency of GNA-PLC micelles can reach 99.33 % (w/w). The average particle size of the GNA-PLC micelles was 291.23 nm which was approximate agreed with the transmission electron microscopy (TEM). In vitro release profile showed the GNA-PLC and GNA-PLC micelles have significant sustained-release of GNA compared with crude GNA. Pharmacokinetic parameters indicated that the area under concentration-time curve (AUC0→t) of GNA in cases of GNA-PLC and GNA-PLC micelles are 2.04- and 3.92-fold higher than crude GNA, respectively. Conclusions: The better water solubility and higher bioavailability of GNA in GNA-PLC micelles with significant sustained-release of GNA endow the nanoparticle with great potential in GNA delivery system.