Significant progress has been recently made in studying artemisinin and its derivatives for treating cardiovascular diseases,making this area a prominent research focus.Artemisinin,discovered with great acclaim,was in...Significant progress has been recently made in studying artemisinin and its derivatives for treating cardiovascular diseases,making this area a prominent research focus.Artemisinin,discovered with great acclaim,was initially and widely adopted in antimalarial treatments.As scientific research steadily progressed,its latent potential role in the cardiovascular system gradually captured the attention of the global scientific community.Artemisinin and its derivatives can reportedly play a protective role in the cardiovascular system through various mechanisms,including anti-inflammatory,anti-angiogenic,antioxidant,and anti-fibrotic effects,as well as the regulation of blood lipids and blood pressure.In particular,they have shown promising therapeutic effects in models of cardiovascular diseases such as atherosclerosis,myocardial ischaemia,and cardiac hypertrophy.In addition,artemisinin and its derivatives can improve cardiovascular function and prevent cardiovascular injury by regulating signalling pathways closely related to cardiovascular disease,such as AMPK and NF-kB.Although numerous ex vivo and in vivo experiments have verified the potential role of artemisinin in treating cardiovascular diseases,systematic studies to comprehensively elucidate its specific mechanism of action remain scarce.Further exploration of the precise roles of artemisinin and its derivatives in cardiovascular disease therapy,along with their potential clinical applications,could offer valuable insights for future research and treatment strategies.展开更多
The mental health issues of college students have become an increasingly prominent social problem,exerting severe impacts on their academic performance and overall well-being.Early identification of Interpersonal Sens...The mental health issues of college students have become an increasingly prominent social problem,exerting severe impacts on their academic performance and overall well-being.Early identification of Interpersonal Sensitivity(IS)in students serves as an effective approach to detect psychological problems and provide timely intervention.In this study,958 freshmen from higher education institutions in Zhejiang Province were selected as participants.We proposed a Multi-Strategy Artemisinin Optimization(MSAO)algorithm by enhancing the Artemisinin Optimization(AO)framework through the integration of a group-guided elimination strategy and a two-stage consolidation strategy.Subsequently,the MSAO was combined with the Fuzzy K-Nearest Neighbor(FKNN)classifier to develop the bMSAO-FKNN predictive model for assessing college students’IS.The proposed algorithm’s efficacy was validated through the CEC 2017 benchmark test suite,while the model’s performance was evaluated on the IS dataset,achieving an accuracy rate of 97.81%.These findings demonstrate that the bMSAO-FKNN model not only ensures high predictive accuracy but also offers interpretability for IS prediction,making it a valuable tool for mental health monitoring in academic settings.展开更多
The artemisinin accumulation in the hairy root cultures of Artemisia annua L. was enhanced via a treatment of three fungal elicitors separately ( Verticillium dahliae Kleb., Rhizopus stolonifer (Ehrenb. ex ...The artemisinin accumulation in the hairy root cultures of Artemisia annua L. was enhanced via a treatment of three fungal elicitors separately ( Verticillium dahliae Kleb., Rhizopus stolonifer (Ehrenb. ex Fr.) Vuill and Colletotrichum dematium (Pers.) Grove). Among these three elicitors, V. dahliae had the highest inducing efficiency, but none of them manifests any noticeable effects on the cell growth of the hairy root cultures. The artemisinin content of the hairy root cultures treated with V. dahliae elicitor was 1.12 mg/g DW, which was 45% higher than the control (0.77 mg/g DW). The results showed that elicitation was dependent on the elicitor concentration, the incubation period and the physiological stage at which the hairy root cultures were treated. In addition, the authors found that for V. dahliae , the optimum concentration was 0.4 mg carbohydrate per millilitre medium, the strongest response of A. annua hairy root cultures to the elicitation was at the late exponential growth stage, and the highest artemisinin content of the hairy root cultures was on the 4th day post treatment.展开更多
The oligosaccharide elicitor from the mycelial wall of an endophytic Colletotrichum sp. B501 promoted the production of artemisinin in Artemisia annua L. hairy root culture. When hairy roots of 22-day-old cultures (la...The oligosaccharide elicitor from the mycelial wall of an endophytic Colletotrichum sp. B501 promoted the production of artemisinin in Artemisia annua L. hairy root culture. When hairy roots of 22-day-old cultures (later growth phase) were exposed to the elicitor (20 mg/L) for 4 d, the maximum content of artemisinin reached 1.15 mg/g, a 64.29% increment over the control. The electron X-ray microanalysis disclosed the rapid accumulation of Ca 2+ in the elicited cortical cells of hairy root. The electronic microscope observation revealed the high electron density area in vacuole of elicited cells. During the first day of elicitation the peroxidase activity of hairy roots was improved sharply. Some cellular morphological changes including cell shrinkage, condensation of cytoplasm and nuclear fragmentation, coincident with the appearance of DNA ladders, were observed after the third day of elicitation. It was suggested that the oligosaccharide elicitor triggered the programmed cell death, which may provide the substance or chemical signal for artemisinin biosynthesis.展开更多
Artemisinin(ART) is a widely used active drug for malaria, including severe and cerebral malaria. However, its therapeutic efficacy is affected by its lower bioavailability. In the present study, nanostructured lipi...Artemisinin(ART) is a widely used active drug for malaria, including severe and cerebral malaria. However, its therapeutic efficacy is affected by its lower bioavailability. In the present study, nanostructured lipid carriers(NLCs) were proposed as carrier of ART to improve pharmacokinetic properties of the drug. ART-NLC was prepared by high-pressure homogenization based on orthogonal design. The particle size, zeta potential, encapsulation efficiency(EE) and percentage of drug loading(DL) of ART-NLC were(53.06±2.11) nm,(–28.7±3.59) m V, 73.9%±0.5% and 11.23%±0.37%, respectively. ART-NLC showed the sustained release characteristics and scarcely the hemolysis effect on human red blood cells. The pharmacokinetics of ART-NLC for rats after tail intravenous injection(i.v) or intraperitoneal injection(i.p) were investigated by liquid chromatography-tandem mass spectroscopy(LC-MS/MS). And ART solution was designed as control preparation. For rats of i.v groups, the AUC0–∞((707.45±145.65) ng·h/m L) of ART-NLC were significantly bigger than that of ART((368.98±139.58) ng·h/m L). The MRT((3.38±0.46) h) of ART-NLC was longer than that of ART((1.39±0.61) h). And similar results were observed for rats of i.p groups. The AUC0–∞((1233.06±235.57) ng·h/m L) and MRT((4.97±0.69) h) of ART-NLC were both bigger than those of ART, which were(871.17±234.03) ng·h/m L) and(1.75±0.31) h), respectively. Compared with ART, ART-NLC showed a significant increase in AUC0–∞(P〈0.05) and MRT(P〈0.001) for both i.p and tail i.v administrations.展开更多
The biotransformation of artemisinin by hairy root cultures ofRheum palmatum L. was investigated for the first time. The main product, deoxyartemisinin, was isolated and characterized on the basis of its spectral data.
[Objective] The aim was to make a summary on research progresses on extraction and detection techniques of artemisinin. [Method] In the research, the concerning progress was made based on physicochemical property, sou...[Objective] The aim was to make a summary on research progresses on extraction and detection techniques of artemisinin. [Method] In the research, the concerning progress was made based on physicochemical property, source, extraction methods and detection technology of artemisinin. [Result] Artemisinin is colorless acicular crystal and easier to be dissolved in organic solvent. The extraction methods of artemisinin include organic solvent extraction, ultrasonic extraction, microwave extraction and supercritical fluid extraction; the detection technologies include ultraviolet spectrophotometry, high performance liquid chromatography and HPLC-evaporative light-scattering. [Conclusion] The research laid foundation for further exploration and global market.展开更多
Artemisinin and its derivatives represent the most important and influential class of drugs in the fight against malaria. Since the discovery of artemisinin in the early 1970s, the global community has made great stri...Artemisinin and its derivatives represent the most important and influential class of drugs in the fight against malaria. Since the discovery of artemisinin in the early 1970s, the global community has made great strides in characterizing and understanding this remarkable phytochemical and its unique chemical and pharmacological properties. Today, even as artemisinin continues to serve as the foundation for antimalarial therapy, numerous challenges have surfaced in the continued application and development of this family of drugs. These challenges include the emergence of delayed treatment responses to artemisinins in malaria and efforts to apply artemisinins for non-malarial indications. Here, we provide an overview of the story of artemisinin in terms of its past, present, and future. In particular, we comment on the current understanding of the mechanism of action (MOA) of artemisinins, and emphasize the importance of relating mechanistic studies to therapeutic outcomes, both in malarial and non-malarial contexts.展开更多
Artemisinin, also named qinghaosu, is a family of sesquiterpene trioxane lactone originally derived from the sweet wormwood plant(Artemisia annua), which is a traditional Chinese herb that has been universally used as...Artemisinin, also named qinghaosu, is a family of sesquiterpene trioxane lactone originally derived from the sweet wormwood plant(Artemisia annua), which is a traditional Chinese herb that has been universally used as anti-malarial agents for many years. Evidence has accumulated during the past few years which demonstrated the protective effects of artemisinin and its derivatives(artemisinins) in several other diseases beyond malaria, including cancers, autoimmune disorders, inflammatory diseases, viral and other parasiterelated infections. Recently, this long-considered antimalarial agent has been proved to possess anti-oxidant, anti-inflammatory, anti-apoptotic and anti-excitotoxic properties, which make it a potential treatment option for the ocular environment. In this review, we first described the overview of artemisinins, highlighting the activity of artemisinins to other diseases beyond malaria and the mechanisms of these actions. We then emphasized the main points of published results of using artemisinins in targeting ocular disorders, including uveitis, retinoblastoma, retinal neurodegenerative diseases and ocular neovascularization. To conclude, we believe that artemisinins could also be used as a promising therapeutic drug for ocular diseases, especially retinal vascular diseases in the near future.展开更多
Malaria is a major cause of morbidity and mortality in the developing world.This situation is mainly due to emergence of resistance to most antimalarial drugs currently available. Artemisinin-based combination treatme...Malaria is a major cause of morbidity and mortality in the developing world.This situation is mainly due to emergence of resistance to most antimalarial drugs currently available. Artemisinin-based combination treatments are now first-line drugs for Plasmodium falciparum (P.falciparum) malaria.Artemisinin(qinghaosu) and its derivatives are the most rapid acting and efficacious antimalarial drugs.This review highlights most recent investigations into the emergence of artemisinin resistance in falciparum malaria patients on the Thai-Cambodian border,a historical epicenter for multidrug resistance spread spanning over 50 years.The study presents the first evidence that highlights the parasites reduced susceptibility to artemisinin treatment by prolonged parasite-clearance times,raising considerable concern on resistance development.Although the exact mechanism of action remains unresolved,development of resistance was proposed based from both in vitro experiments and human patients.Lines of evidence suggested that the parasites in the patients are in dormant forms,presumably tolerate to the drug pressure.The World Health Organization has launched for prevention and/or containment of the artemisinin-resistant malaria parasites.Taken together,the emergence of artemisinin resistance to the most potent antidote for falciparum malaria,poses a serious threat to global malaria control and prompts renewed efforts for urgent development of new antimalarial weapons.展开更多
Cancer is the leading cause of human death which seriously threatens human life.The antimalarial drug artemisinin and its derivatives have been discovered with considerable anticancer properties.Simultaneously,a varie...Cancer is the leading cause of human death which seriously threatens human life.The antimalarial drug artemisinin and its derivatives have been discovered with considerable anticancer properties.Simultaneously,a variety of target-selective artemisinin-related compounds with high efficiency have been discovered.Many researches indicated that artemisinin-related compounds have cytotoxic effects against a variety of cancer cells through pleiotropic effects,including inhibiting the proliferation of tumor cells,promoting apoptosis,inducing cell cycle arrest,disrupting cancer invasion and metastasis,preventing angiogenesis,mediating the tumor-related signaling pathways,and regulating tumor microenvironment.More importantly,artemisinins demonstrated minor side effects to normal cells and manifested the ability to overcome multidrug-resistance which is widely observed in cancer patients.Therefore,we concentrated on the new advances and development of artemisinin and its derivatives as potential antitumor agents in recent 5 years.It is our hope that this review could be helpful for further exploration of novel artemisinin-related antitumor agents.展开更多
Artemisinin,also called qinghaosu,is originally derived from the sweet wormwood plant(Artemisia annua),which is used in traditional Chinese medicine.Artemisinin and its derivatives(artemisinins)have been widely used f...Artemisinin,also called qinghaosu,is originally derived from the sweet wormwood plant(Artemisia annua),which is used in traditional Chinese medicine.Artemisinin and its derivatives(artemisinins)have been widely used for many years as anti-malarial agents,with few adverse side effects.Interestingly,evidence has recently shown that artemisinins might have a therapeutic value for several other diseases beyond malaria,including cancers,inflammatory diseases,and autoimmune disorders.Neurodegeneration is a challenging age-associated neurological disorder characterized by deterioration of neuronal structures as well as functions,whereas neuroinflammation has been considered to be an underlying factor in the development of various neurodegenerative disorders,including Alzheimer’s disease.Recently discovered properties of artemisinins suggested that they might be used to treat neurodegenerative disorders by decreasing oxidation,inflammation,and amyloid beta protein(Aβ).In this review,we will introduce artemisinins and highlight the possible mechanisms of their neuroprotective activities,suggesting that artemisinins might have therapeutic potential in neurodegenerative disorders.展开更多
Artemisinin, also termed qinghaosu, is extracted from the traditional Chinese medicine ar- temesia annua L. (the blue-green herb) in the early 1970s, which has been confirmed for effectively treating malaria, Additi...Artemisinin, also termed qinghaosu, is extracted from the traditional Chinese medicine ar- temesia annua L. (the blue-green herb) in the early 1970s, which has been confirmed for effectively treating malaria, Additionally, emerging data prove that artemisinin exhibits anti-cancer effects against many types of cancers such as leukemia, melanoma, etc. Artemisinin becomes cytotoxic in the presence of ferrous iron. Since iron influx is high in cancer cells, artemisinin and its analogs selectively kill can- cer cells with increased intracellular iron concentrations. This study is aimed to investigate the selective inhibitory effects of artemisinin on SMMC-7721 cells in vitro and determine the effect of holotransfer- fin, which increases the concentration of ferrous iron in cancer cells, combined with artemisinin on the anticancer activity. MTT assay was used for assessing the proliferation of SMMC-7721 cells treated with artemisinin. The induction of apoptosis and inhibition of colony formation in SMMC-7721 cells treated with artemisinin were determined by TdT-mediated dUTP nick end labeling (TUNEL) and col- ony formation assay, respectively. The results showed that artemisinin at various concentrations signifi- cantly inhibited growth, colony formation and cell viability of SMMC-7721 cells (P〈0.05), likely due to induction of apoptosis of SMMC-7721 cells. Of interest, it was found that incubation of artemisinin combined with holotransferrin sensitized the growth inhibitory effect of artemisinin on SMMC-7721 cells (P〈0.01). Our data suggest that treatment with artemisinin leads to inhibition of viability and pro- liferation, and apoptosis of SMMC-7721 ceils. Furthermore, we observed that holotransferrin signifi- cantly enhanced the anti-cancer activity of artemisinin. This study may provide a potential therapeutic choice for liver cancer.展开更多
基金supported by the Youth Natural Science Foundation of Shandong Province(grant number:ZR2022QH340).
文摘Significant progress has been recently made in studying artemisinin and its derivatives for treating cardiovascular diseases,making this area a prominent research focus.Artemisinin,discovered with great acclaim,was initially and widely adopted in antimalarial treatments.As scientific research steadily progressed,its latent potential role in the cardiovascular system gradually captured the attention of the global scientific community.Artemisinin and its derivatives can reportedly play a protective role in the cardiovascular system through various mechanisms,including anti-inflammatory,anti-angiogenic,antioxidant,and anti-fibrotic effects,as well as the regulation of blood lipids and blood pressure.In particular,they have shown promising therapeutic effects in models of cardiovascular diseases such as atherosclerosis,myocardial ischaemia,and cardiac hypertrophy.In addition,artemisinin and its derivatives can improve cardiovascular function and prevent cardiovascular injury by regulating signalling pathways closely related to cardiovascular disease,such as AMPK and NF-kB.Although numerous ex vivo and in vivo experiments have verified the potential role of artemisinin in treating cardiovascular diseases,systematic studies to comprehensively elucidate its specific mechanism of action remain scarce.Further exploration of the precise roles of artemisinin and its derivatives in cardiovascular disease therapy,along with their potential clinical applications,could offer valuable insights for future research and treatment strategies.
文摘The mental health issues of college students have become an increasingly prominent social problem,exerting severe impacts on their academic performance and overall well-being.Early identification of Interpersonal Sensitivity(IS)in students serves as an effective approach to detect psychological problems and provide timely intervention.In this study,958 freshmen from higher education institutions in Zhejiang Province were selected as participants.We proposed a Multi-Strategy Artemisinin Optimization(MSAO)algorithm by enhancing the Artemisinin Optimization(AO)framework through the integration of a group-guided elimination strategy and a two-stage consolidation strategy.Subsequently,the MSAO was combined with the Fuzzy K-Nearest Neighbor(FKNN)classifier to develop the bMSAO-FKNN predictive model for assessing college students’IS.The proposed algorithm’s efficacy was validated through the CEC 2017 benchmark test suite,while the model’s performance was evaluated on the IS dataset,achieving an accuracy rate of 97.81%.These findings demonstrate that the bMSAO-FKNN model not only ensures high predictive accuracy but also offers interpretability for IS prediction,making it a valuable tool for mental health monitoring in academic settings.
文摘The artemisinin accumulation in the hairy root cultures of Artemisia annua L. was enhanced via a treatment of three fungal elicitors separately ( Verticillium dahliae Kleb., Rhizopus stolonifer (Ehrenb. ex Fr.) Vuill and Colletotrichum dematium (Pers.) Grove). Among these three elicitors, V. dahliae had the highest inducing efficiency, but none of them manifests any noticeable effects on the cell growth of the hairy root cultures. The artemisinin content of the hairy root cultures treated with V. dahliae elicitor was 1.12 mg/g DW, which was 45% higher than the control (0.77 mg/g DW). The results showed that elicitation was dependent on the elicitor concentration, the incubation period and the physiological stage at which the hairy root cultures were treated. In addition, the authors found that for V. dahliae , the optimum concentration was 0.4 mg carbohydrate per millilitre medium, the strongest response of A. annua hairy root cultures to the elicitation was at the late exponential growth stage, and the highest artemisinin content of the hairy root cultures was on the 4th day post treatment.
文摘The oligosaccharide elicitor from the mycelial wall of an endophytic Colletotrichum sp. B501 promoted the production of artemisinin in Artemisia annua L. hairy root culture. When hairy roots of 22-day-old cultures (later growth phase) were exposed to the elicitor (20 mg/L) for 4 d, the maximum content of artemisinin reached 1.15 mg/g, a 64.29% increment over the control. The electron X-ray microanalysis disclosed the rapid accumulation of Ca 2+ in the elicited cortical cells of hairy root. The electronic microscope observation revealed the high electron density area in vacuole of elicited cells. During the first day of elicitation the peroxidase activity of hairy roots was improved sharply. Some cellular morphological changes including cell shrinkage, condensation of cytoplasm and nuclear fragmentation, coincident with the appearance of DNA ladders, were observed after the third day of elicitation. It was suggested that the oligosaccharide elicitor triggered the programmed cell death, which may provide the substance or chemical signal for artemisinin biosynthesis.
基金National Natural Science Foundation of China(Grant No.81373364)The Subject clots Project Serving Pharmaceutical Industrial Innovation of Shanxi Province
文摘Artemisinin(ART) is a widely used active drug for malaria, including severe and cerebral malaria. However, its therapeutic efficacy is affected by its lower bioavailability. In the present study, nanostructured lipid carriers(NLCs) were proposed as carrier of ART to improve pharmacokinetic properties of the drug. ART-NLC was prepared by high-pressure homogenization based on orthogonal design. The particle size, zeta potential, encapsulation efficiency(EE) and percentage of drug loading(DL) of ART-NLC were(53.06±2.11) nm,(–28.7±3.59) m V, 73.9%±0.5% and 11.23%±0.37%, respectively. ART-NLC showed the sustained release characteristics and scarcely the hemolysis effect on human red blood cells. The pharmacokinetics of ART-NLC for rats after tail intravenous injection(i.v) or intraperitoneal injection(i.p) were investigated by liquid chromatography-tandem mass spectroscopy(LC-MS/MS). And ART solution was designed as control preparation. For rats of i.v groups, the AUC0–∞((707.45±145.65) ng·h/m L) of ART-NLC were significantly bigger than that of ART((368.98±139.58) ng·h/m L). The MRT((3.38±0.46) h) of ART-NLC was longer than that of ART((1.39±0.61) h). And similar results were observed for rats of i.p groups. The AUC0–∞((1233.06±235.57) ng·h/m L) and MRT((4.97±0.69) h) of ART-NLC were both bigger than those of ART, which were(871.17±234.03) ng·h/m L) and(1.75±0.31) h), respectively. Compared with ART, ART-NLC showed a significant increase in AUC0–∞(P〈0.05) and MRT(P〈0.001) for both i.p and tail i.v administrations.
文摘The biotransformation of artemisinin by hairy root cultures ofRheum palmatum L. was investigated for the first time. The main product, deoxyartemisinin, was isolated and characterized on the basis of its spectral data.
基金Supported by National Natural Science Foundation of China~~
文摘[Objective] The aim was to make a summary on research progresses on extraction and detection techniques of artemisinin. [Method] In the research, the concerning progress was made based on physicochemical property, source, extraction methods and detection technology of artemisinin. [Result] Artemisinin is colorless acicular crystal and easier to be dissolved in organic solvent. The extraction methods of artemisinin include organic solvent extraction, ultrasonic extraction, microwave extraction and supercritical fluid extraction; the detection technologies include ultraviolet spectrophotometry, high performance liquid chromatography and HPLC-evaporative light-scattering. [Conclusion] The research laid foundation for further exploration and global market.
基金the projects of the National Natural Science Foundation of China (81641002 and 81473548)Major National Science and Technology Program of China for Innovative Drug (2017ZX09101002-001-001-05 and 36 J. Wang et al./ Engineering 5 (2019) 32–39 2017ZX09101002-001-001-3)the Fundamental Research Funds for the Central Public Welfare Research Institutes (ZZ10-024 and ZXKT18003).
文摘Artemisinin and its derivatives represent the most important and influential class of drugs in the fight against malaria. Since the discovery of artemisinin in the early 1970s, the global community has made great strides in characterizing and understanding this remarkable phytochemical and its unique chemical and pharmacological properties. Today, even as artemisinin continues to serve as the foundation for antimalarial therapy, numerous challenges have surfaced in the continued application and development of this family of drugs. These challenges include the emergence of delayed treatment responses to artemisinins in malaria and efforts to apply artemisinins for non-malarial indications. Here, we provide an overview of the story of artemisinin in terms of its past, present, and future. In particular, we comment on the current understanding of the mechanism of action (MOA) of artemisinins, and emphasize the importance of relating mechanistic studies to therapeutic outcomes, both in malarial and non-malarial contexts.
文摘Artemisinin, also named qinghaosu, is a family of sesquiterpene trioxane lactone originally derived from the sweet wormwood plant(Artemisia annua), which is a traditional Chinese herb that has been universally used as anti-malarial agents for many years. Evidence has accumulated during the past few years which demonstrated the protective effects of artemisinin and its derivatives(artemisinins) in several other diseases beyond malaria, including cancers, autoimmune disorders, inflammatory diseases, viral and other parasiterelated infections. Recently, this long-considered antimalarial agent has been proved to possess anti-oxidant, anti-inflammatory, anti-apoptotic and anti-excitotoxic properties, which make it a potential treatment option for the ocular environment. In this review, we first described the overview of artemisinins, highlighting the activity of artemisinins to other diseases beyond malaria and the mechanisms of these actions. We then emphasized the main points of published results of using artemisinins in targeting ocular disorders, including uveitis, retinoblastoma, retinal neurodegenerative diseases and ocular neovascularization. To conclude, we believe that artemisinins could also be used as a promising therapeutic drug for ocular diseases, especially retinal vascular diseases in the near future.
基金supported by the UNDP/ World Bank/WHO Special Programme for Research and Training in Tropical Diseasesthe National Science and Technology Development Agency of Thailand(Career Development Award)+1 种基金the Thailand Research Fund(Basic Research)the Office of Higher Education Commission (University Staff Development Consortium),Thailand
文摘Malaria is a major cause of morbidity and mortality in the developing world.This situation is mainly due to emergence of resistance to most antimalarial drugs currently available. Artemisinin-based combination treatments are now first-line drugs for Plasmodium falciparum (P.falciparum) malaria.Artemisinin(qinghaosu) and its derivatives are the most rapid acting and efficacious antimalarial drugs.This review highlights most recent investigations into the emergence of artemisinin resistance in falciparum malaria patients on the Thai-Cambodian border,a historical epicenter for multidrug resistance spread spanning over 50 years.The study presents the first evidence that highlights the parasites reduced susceptibility to artemisinin treatment by prolonged parasite-clearance times,raising considerable concern on resistance development.Although the exact mechanism of action remains unresolved,development of resistance was proposed based from both in vitro experiments and human patients.Lines of evidence suggested that the parasites in the patients are in dormant forms,presumably tolerate to the drug pressure.The World Health Organization has launched for prevention and/or containment of the artemisinin-resistant malaria parasites.Taken together,the emergence of artemisinin resistance to the most potent antidote for falciparum malaria,poses a serious threat to global malaria control and prompts renewed efforts for urgent development of new antimalarial weapons.
基金supported by CAS"Light of West China"Program([2014]91 to Z.Z.)the Basic Research Plan of Yunnan Provincial Science and Technology Department(grant number 2014FA042)+1 种基金CAS Strategic biological resources service network(ZSTH-021)the Strategic Priority Research Program of the Chinese Academy of Sciences,Grant No.XDA12030206.
文摘Cancer is the leading cause of human death which seriously threatens human life.The antimalarial drug artemisinin and its derivatives have been discovered with considerable anticancer properties.Simultaneously,a variety of target-selective artemisinin-related compounds with high efficiency have been discovered.Many researches indicated that artemisinin-related compounds have cytotoxic effects against a variety of cancer cells through pleiotropic effects,including inhibiting the proliferation of tumor cells,promoting apoptosis,inducing cell cycle arrest,disrupting cancer invasion and metastasis,preventing angiogenesis,mediating the tumor-related signaling pathways,and regulating tumor microenvironment.More importantly,artemisinins demonstrated minor side effects to normal cells and manifested the ability to overcome multidrug-resistance which is widely observed in cancer patients.Therefore,we concentrated on the new advances and development of artemisinin and its derivatives as potential antitumor agents in recent 5 years.It is our hope that this review could be helpful for further exploration of novel artemisinin-related antitumor agents.
基金supported by the Natural Science Foundation of Beijing of China,No.7192235(to LKX)
文摘Artemisinin,also called qinghaosu,is originally derived from the sweet wormwood plant(Artemisia annua),which is used in traditional Chinese medicine.Artemisinin and its derivatives(artemisinins)have been widely used for many years as anti-malarial agents,with few adverse side effects.Interestingly,evidence has recently shown that artemisinins might have a therapeutic value for several other diseases beyond malaria,including cancers,inflammatory diseases,and autoimmune disorders.Neurodegeneration is a challenging age-associated neurological disorder characterized by deterioration of neuronal structures as well as functions,whereas neuroinflammation has been considered to be an underlying factor in the development of various neurodegenerative disorders,including Alzheimer’s disease.Recently discovered properties of artemisinins suggested that they might be used to treat neurodegenerative disorders by decreasing oxidation,inflammation,and amyloid beta protein(Aβ).In this review,we will introduce artemisinins and highlight the possible mechanisms of their neuroprotective activities,suggesting that artemisinins might have therapeutic potential in neurodegenerative disorders.
文摘Artemisinin, also termed qinghaosu, is extracted from the traditional Chinese medicine ar- temesia annua L. (the blue-green herb) in the early 1970s, which has been confirmed for effectively treating malaria, Additionally, emerging data prove that artemisinin exhibits anti-cancer effects against many types of cancers such as leukemia, melanoma, etc. Artemisinin becomes cytotoxic in the presence of ferrous iron. Since iron influx is high in cancer cells, artemisinin and its analogs selectively kill can- cer cells with increased intracellular iron concentrations. This study is aimed to investigate the selective inhibitory effects of artemisinin on SMMC-7721 cells in vitro and determine the effect of holotransfer- fin, which increases the concentration of ferrous iron in cancer cells, combined with artemisinin on the anticancer activity. MTT assay was used for assessing the proliferation of SMMC-7721 cells treated with artemisinin. The induction of apoptosis and inhibition of colony formation in SMMC-7721 cells treated with artemisinin were determined by TdT-mediated dUTP nick end labeling (TUNEL) and col- ony formation assay, respectively. The results showed that artemisinin at various concentrations signifi- cantly inhibited growth, colony formation and cell viability of SMMC-7721 cells (P〈0.05), likely due to induction of apoptosis of SMMC-7721 cells. Of interest, it was found that incubation of artemisinin combined with holotransferrin sensitized the growth inhibitory effect of artemisinin on SMMC-7721 cells (P〈0.01). Our data suggest that treatment with artemisinin leads to inhibition of viability and pro- liferation, and apoptosis of SMMC-7721 ceils. Furthermore, we observed that holotransferrin signifi- cantly enhanced the anti-cancer activity of artemisinin. This study may provide a potential therapeutic choice for liver cancer.
