Potentilla chinensis
Potentilla chinensis
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Natural products/compounds from Potentilla chinensis
- Cat.No. Product Name CAS Number COA
- BCN1668 Gallic acid149-91-7 Instructions
- BCN5503 Corosolic acid4547-24-4 Instructions
- BCN5506 Asiatic acid464-92-6 Instructions
- BCN5616 Oleanolic acid508-02-1 Instructions
- BCN5658 Apigenin520-36-5 Instructions
In vitro antitumor activity of the ethyl acetate extract of Potentilla chinensis in osteosarcoma cancer cells.[Pubmed: 27573158]
The aim of the current study was to evaluate the anticancer effect of the ethanol extract of Potentilla chinensis, a Chinese medicinal plant. An MTT assay was used to evaluate the cell viability of MG‑63 human osteosarcoma cancer cells and fR‑2 cells. Furthermore, the effect of the extract on apoptosis induction, cell cycle phase distribution and inhibition of cell migration in the MG63 human osteosarcoma cancer cell line was evaluated. The effect of the extract on cell cycle phase distribution was assessed by flow cytometry using propidium iodide (PI). Phase contrast microscopy detected the morphological changes in MG63 cancer cells following extract treatment. The results of the study demonstrated that the extract was cytotoxic to MG63 cancer cells, while the normal cell line (epithelial cell line) showed lower susceptibility. Phase contrast microscopy showed distinguishing morphological features, such as cell shrinkage and blebbing induced by the extract treatment in osteosarcoma cancer cells. The average proportion of Annexin V‑positive cells (total apoptotic cells) significantly increased from 5.6% in the control to 24.2, 38.8 and 55.7% in the 40, 80 and 150 µg/ml groups, respectively. The extract induced early and late apoptosis in the cancer cells. Flow cytometric analysis revealed that the extract induced G0/G1‑cell cycle arrest, which also showed significant dose‑dependence. The extract induced a significant and concentration‑dependent reduction in cell migration. Moreover, DNA fragmentation was also examined by observation of the formation of DNA ladders. It was demonstrated that DNA fragmentation was increased with extract concentration compared with that in the control. Taken together, EEPC may serve as potential therapeutic agent against osteosarcoma, provided that the toxicity profile and in vivo investigations demonstrate that it is safe.
Roots of forbs sense climate fluctuations in the semi-arid Loess Plateau: Herb-chronology based analysis.[Pubmed: 27323906]
Growth of herbaceous plants responds sensitively and rapidly to climate variability. Yet, little is known regarding how climate warming influences the growth of herbaceous plants, particularly in semi-arid sites. This contrasts with widely reported tree growth decline and even mortality in response to severe water deficits due to climate warming around the world. Here, we use the relatively novel approach of herb-chronology to analyze the correlation between climatic factors and annual ring width in the root xylem of two perennial forb species (Medicago sativa, Potentilla chinensis) in the Loess Plateau of China. We show that warming-induced water deficit has a significant negative effect on the growth of herbaceous plants in the Loess Plateau. Our results indicate that the growth of forbs responds rapidly and sensitively to drought variability, implying that water availability plays a dominant role in regulating the growth of herbaceous plants in semi-arid areas. If warming and drying in the Loess Plateau continue in the future, further affects the growth of herbaceous plants, potentially driving regional changes in the relationship between herbaceous vegetation and climate.
Protection against MPP(+)-induced neurotoxicity in SH-SY5Y cells by tormentic acid via the activation of PI3-K/Akt/GSK3β pathway.[Pubmed: 26994872]
The cause of Parkinson's disease (PD) could be ascribed to the progressive and selective loss of dopaminergic neurons in the substantia nigra pars compacta, and thus molecules with neuroprotective ability may have therapeutic value against PD. In the current study, the neuroprotective effects and underlying mechanisms of tormentic acid (TA), a naturally occurring triterpene extracted from medicinal plants such as Rosa rugosa and Potentilla chinensis, were evaluated in a widely used cellular PD model in which neurotoxicity was induced by MPP(+) in cultured SH-SY5Y cells. We found that TA at 1-30 μM substantially protected against MPP(+)-induced neurotoxicity, as evidenced by the increase in cell viability, decrease in lactate dehydrogenase release and the reduction in apoptotic nuclei. Moreover, TA effectively inhibited the elevated intracellular accumulation of reactive oxygen species as well as Bax/Bcl-2 ratio caused by MPP(+). Most importantly, TA markedly reversed the inhibition of protein expression of phosphorylated Akt (Ser 473) and phosphorylated GSK3β (Ser 9) caused by MPP(+). LY294002, the specific inhibitor of PI3-K, significantly abrogated the up-regulated phosphorylated Akt and phosphorylated GSK3β offered by TA, suggesting that the neuroprotection of TA was mainly dependent on the activation of PI3-K/Akt/GSK3β signaling pathway. The results taken together indicate that TA may be a potential candidate for further preclinical study aimed at the prevention and treatment of PD.
[Protective effect of asiatic acid from Potentilla chinensis on alcohol hepatic injury in rats].[Pubmed: 26666041]
To study the protective effect and the mechanism of asiatic acid (AA) from Potentilla chinensis on alcohol hepatic injury in rats. Male Wistar rats were randomly divided into six groups: the normal control group, the AA control group (8 mg · kg(-1) AA), the model group (5.0-9.0 g · kg(-1) alcohol) and high, medium and low-dose AA-treated groups (alcohol + 8, 4, 2 mg · kg(-1) AA). Each group was orally administered with the corresponding drugs once a day for 24 weeks. Approximately 1. 5 hours after the final administration, all rats were killed, and their blood samples and hepatic tissues were collected. The AST and ALT in rat serum and the contents of MPO, TNF-α, IL-1β, SOD, GSH-Px, GSH-Rd and MDA in hepatic tissues were detected. The expressions of NF-κB, TLR4, CD14, MyD88, TRIF and protein expression in hepatic tissues were measured by western blot. The pathological changes in liver tissues were observed by histological examination. The results showed that compared with the model group, the AA-treated groups showed significant decreases in serum ALT, AST and MDA and increases in the activities of SOD, GSH-Px, GSH-Rd and MPO. Moreover, AA markedly inhibited the expressions of TNF-α, IL-1β, TLR4, CD14, MyD88 and NF-κB. The histological examination showed alleviated hepatic issue ijury to varying degrees. In short, asiatic acid (AA) from P. chinensis could protect alcohol-induced hepatic injury in rats. Its mechanism may be related to the inhibition of NF-κB inactivation and the reduction of inflammatory response.
Protective effect of tormentic acid from Potentilla chinensis against lipopolysaccharide/D-galactosamine induced fulminant hepatic failure in mice.[Pubmed: 24560903]
A compound was isolated from Potentilla chinensis, and it was identified as tormentic acid (TA) based on its physicochemical properties and spectral data. The hepatoprotective effect of TA was evaluated using an acute liver failure model induced by lipopolysaccharide (LPS)/D-galactosamine (D-GalN). The results revealed that TA significantly prevented LPS/D-GalN-induced fulminant hepatic failure, as evidenced by the decrease in serum aminotransferase and total bilirubin activities and the attenuation of histopathological changes. TA alleviated the pro-inflammatory cytokines including TNF-α and NO/iNOS by inhibiting nuclear factor-κB (NF-κB) activity. Moreover, TA strongly inhibited lipid peroxidation, recruited the anti-oxidative defense system, and increased HO-1 activity. In addition, TA significantly attenuated increases in TUNEL-positive hepatocytes through decreasing the levels of cytochrome c, as well as caspases-3, 8 and 9, while augmenting the expression of Bcl-2. In conclusion, TA protects hepatocytes against LPS/D-GalN-induced injury by blocking NF-κB signaling pathway for anti-inflammatory response and attenuating hepatocellular apoptosis. Consequently, TA is a potential agent for preventing acute liver injury and may be a major bioactive ingredient of Potentilla chinensis.