Chemical constituents of the whole herb of Bidens pilosa L. were investigated. By using various column chromatography (CC) and spectroscopic methods, 13 flavonoids were isolated and identified as follows: 2′-hydro...Chemical constituents of the whole herb of Bidens pilosa L. were investigated. By using various column chromatography (CC) and spectroscopic methods, 13 flavonoids were isolated and identified as follows: 2′-hydroxy-4,4′-dimethoxy-chalcone (1), isoliquiritigenin (2), 3,2′,4′-trihydroxy-4-methoxy-chalcone (3), licochalcone A (4),4′-O-β-D-glucopyranosyl-2′,3-dihydroxy-4-methoxy-chalcone (5), butein (6), apigenin (7), luteolin (8), diosmetin (9), chrysoeriol (10), 3,5,6,7,3′,4′,5′-heptamethoxyflavone (11), 7-O-β-D-glucopyranosyt-5,3′dihydroxy-3,6,4′-trimethoxyfiavone (12), sulfuretin (13). Compounds 1-5, 9, 11 were obtained from the genus Bidens for the first time.展开更多
Bidens pilosa is a member of the Asteraceae family that is widely distributed across the tropics. It has been utilized by different communities both as food and medicinal herb. This plant and its polyacetylenic compou...Bidens pilosa is a member of the Asteraceae family that is widely distributed across the tropics. It has been utilized by different communities both as food and medicinal herb. This plant and its polyacetylenic compounds hold potential as a natural antidiabetic intervention that can be used to combat this global public health problem. Bioactive compounds found in this plant constitute promising interventions for combating obesity which is a major risk factor for the development of type 2 diabetes. These phytocompounds can work independently or synergistically to modulate appetite, lipase activity, adipogenesis and adipocyte apoptosis. However, the efficacy, mode of action and scope of management of diabetes by these compounds remains elusive. The current review aims to summarize data on efficacy in the management of diabetes, an antidiabetic candidate polyacetylenic compound and possible biological activities as an antidiabetic agent from the available literature. Much emphasis has been directed to cytopiloyne as a representative of polyacetylenic compounds extracted from Bidens pilosa and its activity on diabetic animal models. The majority of the studies conducted on animal models described antidiabetic mechanisms that range from hypoglycemic to secretagogue activity of cytopiloyne in a dose-dependent manner. A clinical trial pilot indicated improved glycemic control of Bidens pilosa formulation among diabetic patients in the study. Bidens pilosa and its compounds are highly potent antidiabetic agent(s) that should be graduated to an intervention for management of diabetes through pre-clinical and clinical trials to elucidate its efficacy and safety.展开更多
目的:研究微波辅助萃取全草及根皮类等不同部位中药材的最佳工艺。方法:分别以总黄酮、丹皮酚为考察指标,采用均匀设计优选微波辅助萃取鬼针草及牡丹皮药材的工艺。结果:优选出微波辅助萃取鬼针草中总黄酮的工艺条件为:微波功率850 W,...目的:研究微波辅助萃取全草及根皮类等不同部位中药材的最佳工艺。方法:分别以总黄酮、丹皮酚为考察指标,采用均匀设计优选微波辅助萃取鬼针草及牡丹皮药材的工艺。结果:优选出微波辅助萃取鬼针草中总黄酮的工艺条件为:微波功率850 W,提取时间30 m in,溶剂浓度40%,液固比13∶1,浸泡时间60 m in;牡丹皮中丹皮酚的工艺条件为:微波功率340 W,提取时间20 m in,溶剂浓度85%,液固比例为5∶1,浸泡时间30 m in。结论:微波辅助萃取技术适合于全草类药材鬼针草、根皮类药材牡丹皮中有效成分的提取。展开更多
Phytoremediation is a potential cleanup technology for the removal of heavy metals from contaminated soils. Bidens is a new Pb hyperaccumulator, which not only has remarkable tolerance to Pb but also extraordinary acc...Phytoremediation is a potential cleanup technology for the removal of heavy metals from contaminated soils. Bidens is a new Pb hyperaccumulator, which not only has remarkable tolerance to Pb but also extraordinary accumulation capacity for Pb. The maximum Pb concentration was 1509.3 mg/kg in roots and 2164.7 mg/kg in overground tissues. The Pb distribution order in the B. was: leaf 〉 stem 〉 root. The effect of amendments on phytoremediation was also studied. The mobility of soil Pb and the Pb concentrations in plants were both increased by EDTA application. Compared with CK (control check), EDTA application promoted translocation of Pb to overground parts of the plant. The Pb concentrations in overground parts of plants was increased from 24.23-680.56 mg/kg to 29.07-1905.57 mg/kg. This research demonstrated that B. maximowicziana appeared to be suitable for phytoremediation of Pb contaminated soil, especially, combination with EDTA.展开更多
The effects of ethanol extract of Bidens pilosa L.(EEB)on acute exercise fatigue and its underlying biochemical mechanism were investigated in this study.Sixty adult male ICR mice were divided into control,model,vitam...The effects of ethanol extract of Bidens pilosa L.(EEB)on acute exercise fatigue and its underlying biochemical mechanism were investigated in this study.Sixty adult male ICR mice were divided into control,model,vitamin C(VC)100,EEB40,EEB80,and EEB160 groups,receiving VC(100 mg/kg)or EEB(40,80,160 mg/kg)for 28 days(intragastrically,I.G.).The mice underwent tailsuspension,elevated plus maze(EPM),rotarod,and loaded swimming tasks and biochemical indices were measured.There were no significant differences in body weight,tail suspension time,EPM open arm time/entries and serum cortisone levels among the groups.Compared with the model group,there was an increase in rotarod latency in the VC100/EEB80 groups and an increase in loaded swimming time in the EEB80/EEB160 groups.Furthermore,the haptic and muscle glycogen levels decreased in the model group,while the haptic glycogen levels increased in the all VC/EEB groups.Similarly,the serum lactate and creatinine levels increased in the model group,but decreased in lactate(except for EEB160),creatinine(except for EEB40)and lactate dehydrogenase in the EEB80 group.In the liver,malonaldehyde(MDA)and oxidized glutathione(GSSG)levels increased in the model group;however,glutathione reductase(GR)(except for EEB40),glutathione(GSH)and GSH/GSSG ratios increased,with GSSG levels decreasing in all VC/EEB groups.In the quadriceps,the GR levels increased in the model,whereas it decreased in the VC100,EEB40 and EEB80 groups.These results suggest that EEB has anti-acute fatigue effect,potentially attributed to mitigate metabolite accumulation,enhancing glycogen reserves,and fortifying the antioxidant mechanism.展开更多
Bidens pilosa is recognized as one of the major invasive plants in China.Its invasion has been associated with significant losses in agriculture,forestry,husbandry,and biodiversity.Soil ecosystems play an important ro...Bidens pilosa is recognized as one of the major invasive plants in China.Its invasion has been associated with significant losses in agriculture,forestry,husbandry,and biodiversity.Soil ecosystems play an important role in alien plant invasion.Microorganisms within the soil act as intermediaries between plants and soil ecological functions,playing a role in regulating soil enzyme activities and nutrient dynamics.Understanding the interactions between invasive plants,soil microorganisms,and soil ecological processes is vital for managing and mitigating the impacts of invasive species on the environment.In this study,we conducted a systematic analysis focusing on B.pilosa and Setaria viridis,a common native companion plant in the invaded area.To simulate the invasion process of B.pilosa,we constructed homogeneous plots consisting of B.pilosa and S.viridis grown separately as monocultures,as well as in mixtures.The rhizosphere and bulk soils were collected from the alien plant B.pilosa and the native plant S.viridis.In order to focus on the soil ecological functional mechanisms that contribute to the successful invasion of B.pilosa,we analyzed the effects of B.pilosa on the composition of soil microbial communities and soil ecological functions.The results showed that the biomass of B.pilosa increased by 27.51% and that of S.viridis was significantly reduced by 66.56%.The organic matter contents in the bulk and rhizosphere soils of B.pilosa were approximately 1.30 times those in the native plant soils.The TN and NO_(3)^(-)contents in the rhizosphere soil of B.pilosa were 1.30 to 2.71 times those in the native plant soils.The activities of acid phosphatase,alkaline phosphatase,and urease in the rhizosphere soil of B.pilosa were 1.98-2.25 times higher than in the native plant soils.Using high-throughput sequencing of the16S rRNA gene,we found that B.pilosa altered the composition of the soil microbial community.Specifically,many genera in Actinobacteria and Proteobacteria were enriched in B.pilosa soils.Further correl展开更多
Current plant diversity can influence exotic plant invasion,but it is unclear whether there is a legacy effect of plant diversity on exotic plant invasion.As plant diversity can affect soil microbial communities and p...Current plant diversity can influence exotic plant invasion,but it is unclear whether there is a legacy effect of plant diversity on exotic plant invasion.As plant diversity can affect soil microbial communities and physio-chemical properties,which may cascade to impact subsequent exotic plant growth,we hypothesize that the soil legacy effect of plant diversity can influence exotic plant invasion.We conducted a plant–soil feedback experiment.In the conditioning phase,we trained soils by monocultures of 12 plant species from three functional groups(4 grasses,3 legumes and 5 forbs)and mixtures of 8 randomly selected species with all three functional groups from this 12-species pool.In the test phase,we grew the invasive plant Bidens pilosa with a co-occurring native grass(Arthraxon hispidus),with a co-occurring native forb(Pterocypsela indica)or with both in each type of the conditioned soils.The performance of B.pilosa relative to its native competitors varied depending on the functional type of both conditioning plant species in the conditioning phase and competing plant species in the test phase.Diversity of the conditioning plants did not influence the growth difference between B.pilosa and its native competitors.However,increasing diversity of the competing plant species reduced the performance of B.pilosa relative to its native competitors.Our results suggest that current plant diversity can reduce exotic plant invasion through increasing growth inequality between invasive and native plants,but the soil legacy effect of plant diversity may have little impact on exotic plant invasion.展开更多
Objective:To evaluate the methanol leaf extract of Diaphonathe bidem(D.bidenx)(AFZEL EX SW) SCHLTR for antihyperglycemic activity in order to confirm it antidiabetic potential.Methods: D.bidenx was extracted by cold m...Objective:To evaluate the methanol leaf extract of Diaphonathe bidem(D.bidenx)(AFZEL EX SW) SCHLTR for antihyperglycemic activity in order to confirm it antidiabetic potential.Methods: D.bidenx was extracted by cold maceration for 48 h and concentrated in vacuo to yield D.bidenx extract(DBE).Hyperglycemia was induced by intraperitoneal administration of slreplozotocin (75 mg/kg).Oral glucose tolerance test was done with 2 g/kg glucose load in normal rats.DBE (150.300 and 600 mg/kg) was administered orally,while tolbutamide(100 mg/kg.p.o.) was used as the standard reference drug.Blood glucose levels determined using ACCUCHEK glucose autoanalyzer. The acute toxicity and phytochemical studies were also carried out.Results:DBF. (600 mg/kg) and tolbutamide(100 mg/kg) significantly(P【0.05,0.005) reduced blood glucose levels of rats between 120 and 480 nun post administration in normal rats.In the streptozotoeininduced hyperglycemic rats,DBE(150.300.600 mg/kg) caused significant(P【0.001)dose- and time- dependent reduction in the blood glucose levels by 1.7%.22.8%and 43.4%,respectively at 480 min compared to the negative control group.DBE(600 mg/kg) reduced the blood glucose level of rats by 1.2%in the oral glucose tolerance test when compared with the normal saline treated group.The acute toxicity test showed that DBE was safe at the doses used and the phytochemical screening revealed the presence of saponins,steroids,tannins and terpernoids.Conclusions:D. bidens extract possess antihyperglycemic activity which may be mediated through pancreatic and extra-pancreatic pathways,thereby justifying it folkloric use.展开更多
基金Research Platform for Quality Standard of TCM and Information System Building(Grant No.2009ZX09308-04)National S&T Major Project-Created Major New Drugs Projects (Grant No.2009ZX09311-004)
文摘Chemical constituents of the whole herb of Bidens pilosa L. were investigated. By using various column chromatography (CC) and spectroscopic methods, 13 flavonoids were isolated and identified as follows: 2′-hydroxy-4,4′-dimethoxy-chalcone (1), isoliquiritigenin (2), 3,2′,4′-trihydroxy-4-methoxy-chalcone (3), licochalcone A (4),4′-O-β-D-glucopyranosyl-2′,3-dihydroxy-4-methoxy-chalcone (5), butein (6), apigenin (7), luteolin (8), diosmetin (9), chrysoeriol (10), 3,5,6,7,3′,4′,5′-heptamethoxyflavone (11), 7-O-β-D-glucopyranosyt-5,3′dihydroxy-3,6,4′-trimethoxyfiavone (12), sulfuretin (13). Compounds 1-5, 9, 11 were obtained from the genus Bidens for the first time.
文摘Bidens pilosa is a member of the Asteraceae family that is widely distributed across the tropics. It has been utilized by different communities both as food and medicinal herb. This plant and its polyacetylenic compounds hold potential as a natural antidiabetic intervention that can be used to combat this global public health problem. Bioactive compounds found in this plant constitute promising interventions for combating obesity which is a major risk factor for the development of type 2 diabetes. These phytocompounds can work independently or synergistically to modulate appetite, lipase activity, adipogenesis and adipocyte apoptosis. However, the efficacy, mode of action and scope of management of diabetes by these compounds remains elusive. The current review aims to summarize data on efficacy in the management of diabetes, an antidiabetic candidate polyacetylenic compound and possible biological activities as an antidiabetic agent from the available literature. Much emphasis has been directed to cytopiloyne as a representative of polyacetylenic compounds extracted from Bidens pilosa and its activity on diabetic animal models. The majority of the studies conducted on animal models described antidiabetic mechanisms that range from hypoglycemic to secretagogue activity of cytopiloyne in a dose-dependent manner. A clinical trial pilot indicated improved glycemic control of Bidens pilosa formulation among diabetic patients in the study. Bidens pilosa and its compounds are highly potent antidiabetic agent(s) that should be graduated to an intervention for management of diabetes through pre-clinical and clinical trials to elucidate its efficacy and safety.
文摘目的:研究微波辅助萃取全草及根皮类等不同部位中药材的最佳工艺。方法:分别以总黄酮、丹皮酚为考察指标,采用均匀设计优选微波辅助萃取鬼针草及牡丹皮药材的工艺。结果:优选出微波辅助萃取鬼针草中总黄酮的工艺条件为:微波功率850 W,提取时间30 m in,溶剂浓度40%,液固比13∶1,浸泡时间60 m in;牡丹皮中丹皮酚的工艺条件为:微波功率340 W,提取时间20 m in,溶剂浓度85%,液固比例为5∶1,浸泡时间30 m in。结论:微波辅助萃取技术适合于全草类药材鬼针草、根皮类药材牡丹皮中有效成分的提取。
基金Project supported by the National Natural Science Foundation of China(No.40472129).
文摘Phytoremediation is a potential cleanup technology for the removal of heavy metals from contaminated soils. Bidens is a new Pb hyperaccumulator, which not only has remarkable tolerance to Pb but also extraordinary accumulation capacity for Pb. The maximum Pb concentration was 1509.3 mg/kg in roots and 2164.7 mg/kg in overground tissues. The Pb distribution order in the B. was: leaf 〉 stem 〉 root. The effect of amendments on phytoremediation was also studied. The mobility of soil Pb and the Pb concentrations in plants were both increased by EDTA application. Compared with CK (control check), EDTA application promoted translocation of Pb to overground parts of the plant. The Pb concentrations in overground parts of plants was increased from 24.23-680.56 mg/kg to 29.07-1905.57 mg/kg. This research demonstrated that B. maximowicziana appeared to be suitable for phytoremediation of Pb contaminated soil, especially, combination with EDTA.
基金Supported by the National Natural Science Foundation of China(31760278)。
文摘The effects of ethanol extract of Bidens pilosa L.(EEB)on acute exercise fatigue and its underlying biochemical mechanism were investigated in this study.Sixty adult male ICR mice were divided into control,model,vitamin C(VC)100,EEB40,EEB80,and EEB160 groups,receiving VC(100 mg/kg)or EEB(40,80,160 mg/kg)for 28 days(intragastrically,I.G.).The mice underwent tailsuspension,elevated plus maze(EPM),rotarod,and loaded swimming tasks and biochemical indices were measured.There were no significant differences in body weight,tail suspension time,EPM open arm time/entries and serum cortisone levels among the groups.Compared with the model group,there was an increase in rotarod latency in the VC100/EEB80 groups and an increase in loaded swimming time in the EEB80/EEB160 groups.Furthermore,the haptic and muscle glycogen levels decreased in the model group,while the haptic glycogen levels increased in the all VC/EEB groups.Similarly,the serum lactate and creatinine levels increased in the model group,but decreased in lactate(except for EEB160),creatinine(except for EEB40)and lactate dehydrogenase in the EEB80 group.In the liver,malonaldehyde(MDA)and oxidized glutathione(GSSG)levels increased in the model group;however,glutathione reductase(GR)(except for EEB40),glutathione(GSH)and GSH/GSSG ratios increased,with GSSG levels decreasing in all VC/EEB groups.In the quadriceps,the GR levels increased in the model,whereas it decreased in the VC100,EEB40 and EEB80 groups.These results suggest that EEB has anti-acute fatigue effect,potentially attributed to mitigate metabolite accumulation,enhancing glycogen reserves,and fortifying the antioxidant mechanism.
基金funded by the National Key R&D Program of China(2022YFC2601100,2021YFD1400100 and 2021YFC2600400)the National Natural Science Foundation of China(42207162)。
文摘Bidens pilosa is recognized as one of the major invasive plants in China.Its invasion has been associated with significant losses in agriculture,forestry,husbandry,and biodiversity.Soil ecosystems play an important role in alien plant invasion.Microorganisms within the soil act as intermediaries between plants and soil ecological functions,playing a role in regulating soil enzyme activities and nutrient dynamics.Understanding the interactions between invasive plants,soil microorganisms,and soil ecological processes is vital for managing and mitigating the impacts of invasive species on the environment.In this study,we conducted a systematic analysis focusing on B.pilosa and Setaria viridis,a common native companion plant in the invaded area.To simulate the invasion process of B.pilosa,we constructed homogeneous plots consisting of B.pilosa and S.viridis grown separately as monocultures,as well as in mixtures.The rhizosphere and bulk soils were collected from the alien plant B.pilosa and the native plant S.viridis.In order to focus on the soil ecological functional mechanisms that contribute to the successful invasion of B.pilosa,we analyzed the effects of B.pilosa on the composition of soil microbial communities and soil ecological functions.The results showed that the biomass of B.pilosa increased by 27.51% and that of S.viridis was significantly reduced by 66.56%.The organic matter contents in the bulk and rhizosphere soils of B.pilosa were approximately 1.30 times those in the native plant soils.The TN and NO_(3)^(-)contents in the rhizosphere soil of B.pilosa were 1.30 to 2.71 times those in the native plant soils.The activities of acid phosphatase,alkaline phosphatase,and urease in the rhizosphere soil of B.pilosa were 1.98-2.25 times higher than in the native plant soils.Using high-throughput sequencing of the16S rRNA gene,we found that B.pilosa altered the composition of the soil microbial community.Specifically,many genera in Actinobacteria and Proteobacteria were enriched in B.pilosa soils.Further correl
基金supported by the National Natural Science Foundation of China(32001122,31761123001)Zhejiang Provincial Natural Science Foundation(LQ21C030003)the Ten Thousand Talent Program of Zhejiang Province(grant 2018R52016).
文摘Current plant diversity can influence exotic plant invasion,but it is unclear whether there is a legacy effect of plant diversity on exotic plant invasion.As plant diversity can affect soil microbial communities and physio-chemical properties,which may cascade to impact subsequent exotic plant growth,we hypothesize that the soil legacy effect of plant diversity can influence exotic plant invasion.We conducted a plant–soil feedback experiment.In the conditioning phase,we trained soils by monocultures of 12 plant species from three functional groups(4 grasses,3 legumes and 5 forbs)and mixtures of 8 randomly selected species with all three functional groups from this 12-species pool.In the test phase,we grew the invasive plant Bidens pilosa with a co-occurring native grass(Arthraxon hispidus),with a co-occurring native forb(Pterocypsela indica)or with both in each type of the conditioned soils.The performance of B.pilosa relative to its native competitors varied depending on the functional type of both conditioning plant species in the conditioning phase and competing plant species in the test phase.Diversity of the conditioning plants did not influence the growth difference between B.pilosa and its native competitors.However,increasing diversity of the competing plant species reduced the performance of B.pilosa relative to its native competitors.Our results suggest that current plant diversity can reduce exotic plant invasion through increasing growth inequality between invasive and native plants,but the soil legacy effect of plant diversity may have little impact on exotic plant invasion.
基金the World Bank-assisted Science & Technology Education Post Basic-University of Nigeria,Nsukka(STEPB-UNN) Project for sponsoring this study
文摘Objective:To evaluate the methanol leaf extract of Diaphonathe bidem(D.bidenx)(AFZEL EX SW) SCHLTR for antihyperglycemic activity in order to confirm it antidiabetic potential.Methods: D.bidenx was extracted by cold maceration for 48 h and concentrated in vacuo to yield D.bidenx extract(DBE).Hyperglycemia was induced by intraperitoneal administration of slreplozotocin (75 mg/kg).Oral glucose tolerance test was done with 2 g/kg glucose load in normal rats.DBE (150.300 and 600 mg/kg) was administered orally,while tolbutamide(100 mg/kg.p.o.) was used as the standard reference drug.Blood glucose levels determined using ACCUCHEK glucose autoanalyzer. The acute toxicity and phytochemical studies were also carried out.Results:DBF. (600 mg/kg) and tolbutamide(100 mg/kg) significantly(P【0.05,0.005) reduced blood glucose levels of rats between 120 and 480 nun post administration in normal rats.In the streptozotoeininduced hyperglycemic rats,DBE(150.300.600 mg/kg) caused significant(P【0.001)dose- and time- dependent reduction in the blood glucose levels by 1.7%.22.8%and 43.4%,respectively at 480 min compared to the negative control group.DBE(600 mg/kg) reduced the blood glucose level of rats by 1.2%in the oral glucose tolerance test when compared with the normal saline treated group.The acute toxicity test showed that DBE was safe at the doses used and the phytochemical screening revealed the presence of saponins,steroids,tannins and terpernoids.Conclusions:D. bidens extract possess antihyperglycemic activity which may be mediated through pancreatic and extra-pancreatic pathways,thereby justifying it folkloric use.
