Isolation of Calenduloside E from Achyranthes bidentata Blume and its effects on LPS/D-GalN-induced acute liver injury in mice by regulating the AMPK-SIRT3 signaling pathway.

BACKGROUND: Acute liver injury (ALI) is a frequent fatal liver disease with a high mortality. Calenduloside E (CE) is a pentacyclic triterpenoid derived from Achyranthes bidentata Blume. It has been found that liver injury is associated with mitochondrial dysfunction, and activation of the AMPK-SIRT3 signaling pathway protects the mitochondrial function to play a role in resistance to the disease. However, whether CE is protective against ALI through the AMPK-SIRT3 signaling pathway is unclear. PURPOSE: To clarify the influences of Calenduloside E (CE) isolated from Achyranthes bidentata Blume on LPS/D-GalN-induced Acute liver injury (ALI). METHODS: A mouse model of ALI was developed, intraperitoneal injection of 10 µg/kg LPS and 700 mg/kg D-GalN, histopathological, oxidative stress, and immune inflammation of the mice were monitored. The mechanism of CE influencing liver injury was investigated by examining the gut microbiota, mitochondrial dysfunction, and the AMPK-SIRT3 signaling pathway. The antagonistic effects of specific AMPK and SIRT3 blocker, as well as AMPKα1, AMPKα2, SIRT3 transfection-mediated silencing were investigated to confirm the role of the AMPK-SIRT3 signaling pathway in this process. RESULTS: CE relieved liver pathological damage of mice and led to reduced oxidative stress and immune inflammation in mice, affected the balance of gut microbiota in mice with liver injury, as well as energy metabolism, and regulated mRNA and protein expressions of AMPK-SIRT3 signaling pathway. In addition, in vitro studies showed that CE relieved mitochondrial respiratory and protein expressions of AMPK-SIRT3 signaling pathway in LPS/D-GalN-induced AML12 and LX2 cells, and such effect was blocked by AMPK and SIRT3 inhibitors. Furthermore, silencing of AMPKα1, AMPKα2, and SIRT3 blocked the effects of CE. Overall, the influences of CE on mice with liver injury is tuned by the AMPK-SIRT3 signaling pathway. CONCLUSION: CE mediates mitochondrial function and eventually regulate energy metabolism by regulating the AMPK-SIRT3 signaling pathway. The results of this study provide molecular evidences for application of CE in treatment of ALI and provide references to the drug development for ALI.

Achyranthes bidentate extracts protect the IL-1ß-induced osteoarthritis of SW1353 chondrocytes.

Osteoarthritis, the most common joint disease worldwide, is a degenerative disease characterized by cartilage degeneration and inflammation. The active ingredients in the traditional Chinese medicinal plant Achyranthes bidentate can be used to treat waist, leg, and joint pain caused by rheumatism arthralgia. In this study, we identified the optimal microwave extraction protocol for saponins from A. bidentate, evaluated their protective effects against IL-1ß-induced inflammation in SW1353 human chondrocytes, and explored their protective pathway. The microwave-extraction parameters required to obtain the maximum yield of A. bidentate saponins using 80% ethanol were identified using response surface methodology. The parameters were solid-liquid ratio, 1:10; extraction time, 20 min; power, 721 W; temperature, 65 °C. The actual yield of saponins extracted was to be 194.01 µg/mg extract. The SW1353 cells were pretreated with A. bidentate extract (ABE) at a concentration of 50 or 100 µg/mL for 3 h, after which an inflammatory response was stimulated using IL-1ß. The ABE significantly reduced the expression of proinflammatory factors IL-6, TNF-α, COX-2, iNOS, PGE2, and NO, and inhibited NF-κB activity, effectively attenuating the inflammatory response. ABE also inhibited MMP13 and ADAMTS-5 expression, reducing IL-1ß-induced degradation of the extrachondral matrix. This confirmed that ABE effectively inhibits NF-κB activity and reduces IL-1ß-induced inflammation, extracellular matrix degradation, and expression of apoptotic proteins Bax and caspase-3. Therefore, ABE has potential as a new botanical drug for preventing osteoarthritis.

Structural characterization and in vitro osteogenic activity of ABPB-4, a heteropolysaccharide from the rhizome of Achyranthes bidentata.

Achyranthes bidentata is a species of flowering plant that is mainly distributed in China. The A. bidentata rhizome is a famous traditional Chinese medicine that has been widely used to treat lumbago, arthritis, and bone hyperplasia. In this work, A. bidentata rhizome was isolated and purified to obtain a pectic polysaccharide (ABPB-4). Chemical and spectral analyses showed that ABPB-4 had a main chain of →4)-α-d-GalpA-(1→ and →2,4)-α-l-Rhap-(1→, and the branch chains included →4)-ß-d-Galp-(1→, →6)-ß-d-Galp-(1→, →3,6)-ß-d-Galp-(1→, →5)-α-l-Araf-(1→ and →3,5)-α-l-Araf-(1→, and it was terminated with α-l-Araf-(1→ and ß-d-Galp-(1→. At concentrations of 0.01, 0.02, and 0.04 µmol/L, ABPB-4 significantly promotes the proliferation, differentiation, and mineralization of MC3T3-E1 cells in vitro, and it appreciably enhances the mRNA expression levels of osteogenic-related genes in these cells. Overall, the results reported herein indicate that ABPB-4 has outstanding osteogenic activity, and that it may be used as an anti-osteoporosis agent in the future.

NAA and 6-BA promote accumulation of oleanolic acid by JA regulation in Achyranthes bidentata Bl.

Application of plant growth regulators has become one of the most important means of improving yield and quality of medicinal plants. To understand the molecular basis of phytohormone-regulated oleanolic acid metabolism, RNA-seq was used to analyze global gene expression in Achyranthes bidentata treated with 2.0 mg/L 1-naphthaleneacetic acid (NAA) and 1.0 mg/L 6-benzyladenine (6-BA). Compared with untreated controls, the expression levels of 20,896 genes were significantly altered with phytohormone treatment. We found that 13071 (62.5%) unigenes were up-regulated, and a lot of differentially expressed genes involved in hormone or terpenoid biosynthesis, or transcription factors were significantly up-regulated. These results suggest that oleanolic acid biosynthesis induced by NAA and 6-BA occurs due to the expression of key genes involved in jasmonic acid signal transduction. This study is the first to analyze the production and hormonal regulation of medicinal A. bidentata metabolites at the molecular level. The results herein contribute to a better understanding of the regulation of oleanane-type triterpenoid saponins accumulation and define strategies to improve the yield of these useful metabolites.

Chemical and metabolic analysis of Achyranthes bidentate saponins with intestinal microflora-mediated biotransformation by ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry coupled with metabolism platform.

Achyranthes bidentate (AB) is a typical traditional Chinese medicine (TCM) that has been widely used in clinical practices for more than a thousand years. Modern pharmacological studies have shown that triterpene saponins are the main pharmacological active ingredients in AB. Meanwhile, the poor oral bioavailability of triterpene saponins in AB indicates that these ingredients are probably metabolized by intestinal microflora before absorption. In this work, an integrated analysis based on ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF/MS) combined with a metabolism platform was developed to identify the chemical constituents and intestinal metabolic profiles of triterpene saponins in AB. As a result, a total of 40 triterpene saponins (including thirty-eight oleanane-type, one hederagenin-type and one machaerinate-type triterpene saponin) were identified from the AB extract. Moreover, 39 biotransformation products mediated by intestinal microflora were characterized, which mainly underwent four metabolic reactions including deglycosylation, glycosylation, oxidation and dehydrogenation. To our knowledge, the in vitro metabolites of AB through intestinal microflora metabolism, especially triterpene saponins, have not been studied previously. The obtained results could be helpful for the further evaluation of the pharmacokinetics and the pharmacological activity of triterpene saponins of AB in vivo.

Achyranthes bidentata polypeptide k improves long-term neurological outcomes through reducing downstream microvascular thrombosis in experimental ischemic stroke.

Achyranthes bidentata Bl. (A. bidentata) occupies an important position in traditional Chinese medicine owing to the property of promoting the circulation of blood and removing stasis. Achyranthes bidentata polypeptide k (ABPPk) is one of the active components isolated from A. bidentata. We previously demonstrated that ABPPk has potent neuroprotective effects against neuronal apoptosis both in vitro and in vivo, but the roles and mechanisms of ABPPk on long-term functional recovery after ischemic stroke remain unknown. In the current study, we investigated the neuroprotective effects of ABPPk on filament transient middle cerebral artery occlusion (tMCAO) rats and found that ABPPk reduced the infarct volume and maintained the neuronal integrity in the ischemic penumbra. Moreover, we found that ABPPk might reduce the formation of downstream microthrombus through preventing ischemic-induced oxidative damage of brain endothelial cells and activation of tissue factor (TF), plasminogen activator inhibitor-1 (PAI-1), and NF-κB. ABPPk also inhibited polymorphonuclear leukocytes (PMNs) infiltration and matrix metalloproteinase-2/-9 (MMP-2/-9) activation in the ischemic penumbra. Morris water maze, foot fault test, and modified neurological severity score were assessed for a period of 6 weeks following tMCAO. ABPPk improved long-term recognition abilities and neurological outcomes after stroke compared with saline-treated rats. Taken together, these results suggested that ABPPk is beneficial to the improvement of long-term outcomes after transient cerebral ischemia injury and can be used as a potential neuroprotective agent.

Achyranthes bidentata polypeptides promotes migration of Schwann cells via NOX4/DUOX2-dependent ROS production in rats.

Achyranthes bidentata polypeptides (ABPP), an active polypeptides isolated from the aqueous extract of Achyranthes bidentata Blume, contributes to the regeneration of injured peripheral nerves by promoting migration of Schwann cells (SCs). In this study, we aimed to investigate the possible mechanism underlying the ABPP-induced migration of primary cultured rat SCs. Transwell migration assays indicated that ABPP promoted SCs migration in a concentration-dependent manner by inducing production of NADPH-oxidase (NOX)-derived reactive oxygen species (ROS). Inhibition of ROS production by NOXs inhibitor apocynin (APO) or diphenyleneiodonium (DPI) partially blocked ABPP-mediated SCs migration. Furthermore, by using real-time polymerase chain reaction analysis and siRNA interference technique, we verified the participation of NOX subunit 4 (NOX4) and dual oxidase 2 (DUOX2) in ABPP-induced ROS production and consequential SCs migration. Taken together, these results demonstrated that ABPP promoted SCs migration via NOX4/DUOX2-activated ROS in SCs.

Methyl jasmonate elicits the production of methyl (E)-2-hexenoate from (Z)-2-hexenol via (Z)-2-hexenal in Achyranthes bidentata plant.

The medicinal herbal plant Achyranthes bidentata (A. bidentata) produces the sweet-odor ester - methyl (E)-2-hexenoate (1) as the major volatile in response to methyl jasmonate (MeJA). Here, we investigated the biosynthetic pathway of methyl (E)-2-hexenoate (1). The common plant precursor (Z)-3-hexenal was only slightly metabolized into methyl (E)-2-hexenoate (1), and its application scarcely enhanced the production of this ester. By contrast, a structurally related alcohol, (Z)-2-hexenol, as well as a deuteride derivative thereof could be efficiently metabolized into methyl (E)-2-hexenoate (1). Thus, we hypothesize that A. bidentata possess a specific pathway for the production of methyl (E)-2-hexenoate (1) from (Z)-2-hexenol in response to MeJA.

Achyranthes bidentata polypeptides reduces oxidative stress and exerts protective effects against myocardial ischemic/reperfusion injury in rats.

Achyranthes bidentata, a Chinese medicinal herb, is reported to be neuroprotective. However, its role in cardioprotection remains largely unknown. Our present study aimed to investigate the effects of Achyranthes bidentata polypeptides (ABPP) preconditioning on myocardial ischemia/reperfusion (MI/R) injury and to test the possible mechanisms. Rats were treated with ABPP (10 mg/kg/d, i.p.) or saline once daily for one week. Afterward, all the animals were subjected to 30 min of myocardial ischemia followed by 4 h of reperfusion. ABPP preconditioning for one week significantly improved cardiac function following MI/R. Meanwhile, ABPP reduced infarct size, plasma creatine kinase (CK)/lactate dehydrogenase (LDH) activities and myocardial apoptosis at the end of reperfusion in rat hearts. Moreover, ABPP preconditioning significantly inhibited superoxide generation, gp91phox expression, malonaldialdehyde formation and enhanced superoxide dismutase activity in I/R hearts. Furthermore, ABPP treatment inhibited PTEN expression and increased Akt phosphorylation in I/R rat heart. PI3K inhibitor wortmannin blocked Akt activation, and abolished ABPP-stimulated anti-oxidant effect and cardioprotection. Our study demonstrated for the first time that ABPP reduces oxidative stress and exerts cardioprotection against MI/R injury in rats. Inhibition of PTEN and activation of Akt may contribute to the anti-oxidant capacity and cardioprotection of ABPP.

[Effect of phosphorus on copper tolerance in Achyranthes bidentata].

OBJECTIVE: To study the effect of phosphorus on copper tolerance in Achyranthes bidentata. METHOD: A PVC pipe experiment was conducted to study the interactive effects of phosphorus (P) and copper (Cu), on growth, elemental accumulation and chemical constituents of A. bidentata. Two levels of elemental P were applied at 0 (P0) and 100 ( P100) mg x kg(-1) soil with 5 levels of Cu at 0 (Cu0), 100 (Cu100), 200 (Cu200), 200 (Cu400), 200 (Cu600) mg x kg(-1) soil, respectively. RESULT AND CONCLUSION: The biomass production between different Cu treatments, phosphorus treatment showed significant differences. The biomass reached the maximum value as the concentration of Cu and P was 100 mg x kg(-1). Low concentration of Cu improved the growth of A. bidentata. The growth was blocked as Cu concentration reached 200 mg x kg(-1) in soil, however the contents of oleanolic acid and ecdysterone in roots of A. bidentata had not influenced by Cu. P could improved the copper tolerance in A. bidentata and increased root yield. The Cu concentration in soil of the cultivation bases must be below 200 mg x kg(-1) in order to produce good quality of medicinal material.

Accumulation and dynamic trends of triterpenoid saponin in vegetative organs of Achyranthus bidentata.

The relationship between structural features of various vegetative organs and triterpenoid saponin accumulation in Achyranthus bidentata Blume was investigated using anatomy, histochemistry and phytochemistry. The results showed that the primary and secondary structures of roots, and the structures of stems and leaves of A. bidentata, were similar to those of ordinary dicotyledonous plants. The enlargement of its roots, however, was primarily associated with growth and differentiation of tertiary structures. There were collateral medullary vascular bundles in addition to the normal vascular bundles in the stem. The tertiary structure was not only main parts in the roots of A. bidentata, but also important storage region of triterpenoid saponin in its growth and development. The stem may be the essential transport organ of triterpenoid saponin, while palisade parenchyma may be the primary synthesis location. In November, the total quantity of triterpenoid saponin and overall biomass in the roots reach a maximum level. This was the best time, therefore, to harvest the roots and corresponded to the traditional harvest period. Despite the withered appearance of leaves, stems also contained substantial amounts of triterpenoid saponin, and it was recommended that the stems of A. bidentata should be used.

[Primary study on absorption, translocation and accumulation of N, P and K of Achyranthes bidentata].

OBJECTIVE: To study the absorption, translocation and accumulation of N, P and K on Achyranthes bidentata. METHOD: The contents of N, P and K were determined by mean of sulfuric acid-hydrogen peroxide assimilating method, vanadium-ammonium molybdate colorimetric method and flame photometric method, respectively. RESULT: The contents of N, P and K in the plant were decreasing during the growth period. The absorption rates of the three nutrients by A. Bidentata showed double-peak curves in the whole growth period, maximum absorption rate appeared in the middle ten days of October. About 8.59 kg of N, 1.36 kg of P and 7.40 kg of K were needed to produce each 100 kg root. CONCLUSION: The key nutrients absorption period is in the first ten days of September and in the middle ten days of October.

Callogenic studies of Achyranthes aspera leaf explant at different hormonal combinations.

With the objective to promote in vitro callus induction, leaf segments of Achyranthes aspera were inoculated on basal MS medium supplemented with 3.0% sucrose and 0.8% agar with different concentrations of 2,4-D alone and in combination with NAA, BAP, IAA, IBA and Zeatin. The explants were maintained in growth room at 25 +/- 1 degrees C and 16 h light cycle. The best callus induction was obtained with 2,4-D (1.0 and 2.0 mg L(-l)) in combination with NAA (0.5 mg L(-1)). Callus induction and good texture from leaf explant was also observed at 2,4-D with BAP. On these combinations morphologically, light green, soft, compact and non-embryogenic callus (Type III callus) was observed. While morphology of callus and callogenic response was poor at 2,4-D alone or in combination with other hormones at different concentrations.

[Comparative research on vitality and characteristics of seeds of Achyranthes bidentata in different producing area].

OBJECTIVE: To study the germination property of the seeds of Achyranthes bidentata from different producing area, providing foundation for choosing the better seed resources. METHOD: The germination rate, germination energy, germination index, vigor and the characteristics of the seeds of A. bidentata from different producing area were compared, and the relative electric conductivity was measured. The characteristics of the seed were recorded through the Anymicro DSS YT-5M microscope digital camera, and the differences were analyzed. RESULT: Seed from Henan Boai and Hebei Anguo showed the better germination rate, germination energy, germination index and vigor. CONCLUSION: The seeds from both Henan Boai and Hebei Anguo showed the better quality.

[Effect of medium components on callus induction and contents of polysaccharides in calli from Achyranthes bidentata].

OBJECTIVE: To study the effect of medium components on the callus induction and the contents of polysaccharides in calli from Achyranthes bidentata. METHOD: Leaves and stems were selected as explants. The effects of six kinds of factors including basal culture medium, carbon source, 2,4-D, 6-BA, TDZ, CH on the callus induction and the contents of ABPS in calli on the high growth point were studied by orthogonal design method. The data were analyzed with range analysis and variance analysis. RESULT: To leaf, the optimal medium of callus induction was B5 with 2 mg x L(-1) 2,4-D, 0.5 mg x L(-1) 6-BA, 30 g x L(-1) glucose and 1 g x L(-1) CH; to stem, the optimal one was B5 with2 mg x L(-1) 2,4-D, 1 mg x L(-1) 6-BA, 30 g x L(-1) glucose and 0.5 g x L(-1) CH. In order to obtain higher contents ABPS, to leaf calli, the optimal medium was LS with 1 mg x L(-1) 6-BA, 1 mg x L(-1) TDZ and 30 g x L(-1) sucrose; to stem calli, the optimal one was LS with 1 mg L(-1) 2,4-D, 0.5 mg x L(-1) 6-BA, 1 mg x L(-1) TDZ and 30 g x L(-1) glucose. CONCLUSION: The optimal media of callus induction were established with stems and leaves of A. bidentata as explants and with a view to an industrial production of polysaccharides by tissue and cell culture.

Supercritical fluid extraction of ecdysterone from the roots of Achyranthes bidentata BL.

Ecdysterone has been found in a great many plants and animals and has some valuable pharmaceutical properties. The present study was conducted to investigate optimal conditions for the extraction of the compound by supercritical fluid extraction from the roots of Achyranthes bidentata BL. An orthogonal array design (OAD), OA(9)(3(4)), was employed as a chemometric method for optimization of the extraction of ecdysterone from the herbal medicine. Four parameters, namely, pressure and temperature of the supercritical fluid, the dynamic extraction time, and the flow rate of dimethyl sulfoxide, were studied and optimized by a three-level OAD. Determinations of the extracts were performed by high-performance liquid chromatography. The effects of the parameters were studied using analysis of variance. The results shown that the yield of ecdysterone could be influenced by the four parameters to a similar degree. The yield for DMSO-modified supercritical CO(2) was in the range from 0.65 to 1.03 mg/g under the selected conditions. In comparison with methanol-modified supercritical CO(2 )and Soxhlet extraction, a higher yield was obtained when DMSO-modified supercritical CO(2) was used.

[Primary study on suspension cell culture and polysaccharides content of Achyranthes bidentata].

OBJECTIVE: To study the relationship between the condition of cell suspension culture and the polysaccharides content in Achyranthes bidentata. METHOD: The methods of orthogonal test and alone factor test were used to study the effect of culture time, inoculation concentration, carbon source and pH. RESULT AND CONCLUSION: The results showed that the optimum medium to induce polysaccharides in A. bidentata was 1/4MS + 6-BA 0.5 + 2,4-D 1.0 mg x L(-1) + sucrose 2% + glucose 2% + fructose 1% cultured after 50 d. The suitable pH was 6.0, and the optimum inoculation concentration was 7g x L(-1).