Artemisinins tested against W-2 strains of malaria falciparum are investigated with molecular electrostatic potential (MEP), in an attempt to identify key features of the compounds that are necessary for their activit...Artemisinins tested against W-2 strains of malaria falciparum are investigated with molecular electrostatic potential (MEP), in an attempt to identify key features of the compounds that are necessary for their activities, as well as to investigate likely interactions with the receptor in a biological process and to use that information to propose new molecules. In order to discover the best geometry involving the ligand-receptor complexes (heme) studied and help in the proposition of the new derivatives, molecular simulations of interactions between the most negative charged region around the peroxide and heme locates (the ones around the Fe2+ ion) were carried out. In addition, PCA (principal components analysis), HCA (hierarchical cluster analysis), SDA (stepwise discriminant analysis), and KNN (K-nearest neighbor) multivariate models were employed to investigate which descriptors are responsible for the classification between the higher and lower antimalarial activity of the compounds, and also this information was used to propose new potentially active molecules. The information accumulated in studies of MEP, molecular docking, and multivariate analysis supported the proposal of new structures with potential antimalarial activities. The multivariate models constructed were applied to the new structures and indicated numbers 19 and 20 as the most prominent for syntheses and biological assays.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
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
Diabetes is a chronic disease of elevated blood glucose levels that affects more than 400 million people worldwide.Complications of diabetes affect the neuronal and the vascular systems and causes diabetic kidney dise...Diabetes is a chronic disease of elevated blood glucose levels that affects more than 400 million people worldwide.Complications of diabetes affect the neuronal and the vascular systems and causes diabetic kidney disease,cardiovascular disease,hypertension,retinopathy,peripheral neuropathy,and diabetic food diseases.Diabetes is caused by either the body’s inability to展开更多
Breast cancer is the leading cause of cancer-related deaths in women worldwide,with Hormone Receptor(HR)+being the predominant subtype.Tamoxifen(TAM)serves as the primary treatment for HR+breast cancer.However,drug re...Breast cancer is the leading cause of cancer-related deaths in women worldwide,with Hormone Receptor(HR)+being the predominant subtype.Tamoxifen(TAM)serves as the primary treatment for HR+breast cancer.However,drug resistance often leads to recurrence,underscoring the need to develop new therapies to enhance patient quality of life and reduce recurrence rates.Artemisinin(ART)has demonstrated efficacy in inhibiting the growth of drug-resistant cells,positioning art as a viable option for counteracting endocrine resistance.This study explored the interaction between artemisinin and tamoxifen through a combined approach of bioinformatics analysis and experimental validation.Five characterized genes(ar,cdkn1a,erbb2,esr1,hsp90aa1)and seven drug-disease crossover genes(cyp2e1,rorc,mapk10,glp1r,egfr,pgr,mgll)were identified using WGCNA crossover analysis.Subsequent functional enrichment analyses were conducted.Our findings confirm a significant correlation between key cluster gene expression and immune cell infiltration in tamoxifen-resistant and-sensitized patients.scRNA-seq analysis revealed high expression of key cluster genes in epithelial cells,suggesting artemisinin’s specific impact on tumor cells in estrogen receptor(ER)-positive BC tissues.Molecular target docking and in vitro experiments with artemisinin on LCC9 cells demonstrated a reversal effect in reducing migratory and drug resistance of drug-resistant cells by modulating relevant drug resistance genes.These results indicate that artemisinin could potentially reverse tamoxifen resistance in ER-positive breast cancer.展开更多
The therapeutic potential of artemisinin (ART) and its derivatives (ARTs) is not limited to malaria but has been recently expanded to other infections with protozoans, trematodes, or viruses as well as to cancer. Due ...The therapeutic potential of artemisinin (ART) and its derivatives (ARTs) is not limited to malaria but has been recently expanded to other infections with protozoans, trematodes, or viruses as well as to cancer. Due to their limited poor water and oil solubility, rapid degradation by the liver, and short half-life, they have a low bioavailability after oral administration. Consequently, there is a pressing necessity to formulate new ART preparations to raise its bioavailability and efficacy. Nanosized drug delivery systems represent important tools in modern medicine with wide clinical applications, because of their potential modulation of pharmacokinetic and biodistribution. This review focuses on polymer-based systems, lipid-based systems, and inorganic nanoparticles loaded with ARTs. The overall goal of this field of research is to enhance their solubility and stability to improve bioavailability at much lower doses and to increase long-term safety. In addition, the opportunity to reach highly specific site-targeted delivery by these nanocarriers confers a high medicinal value. Remarkably, most of the reported nanoparticulate drug delivery systems are biologically inactive or marginally immunogenic, generating no antigenic or pyrogenic reactions but only partial intrinsic toxicity. As clinical studies in human patients are available so far, there is a pressing need to translate preclinical results on ART-based nanosystems into clinical settings.展开更多
The widespread use of artemisinin(ART)and its derivatives has significantly reduced the global burden of malaria;however,malaria still poses a serious threat to global health.Although significant progress has been ach...The widespread use of artemisinin(ART)and its derivatives has significantly reduced the global burden of malaria;however,malaria still poses a serious threat to global health.Although significant progress has been achieved in elucidating the antimalarial mechanisms of ART,the most crucial target proteins and pathways of ART remain unknown.Knowledge on the exact antimalarial mechanisms of ART is urgently needed,as signs of emerging ART resistance have been observed in some regions of the world.Here,we used a combined strategy involving mass spectrometry-coupled cellular thermal shift assay(MS-CETSA)and transcriptomics profiling to identify a group of putative antimalarial targets of ART.We then conducted a series of validation experiments on five prospective protein targets,demonstrating that ART may function against malaria parasites by interfering with redox homeostasis,lipid metabolism,and protein synthesis processes.Taken together,this study provides fresh perspectives on the antimalarial mechanisms of ART and identifies several crucial proteins involved in parasite survival that can be targeted to combat malaria.展开更多
Background:Different parts of Artemisia vulgaris L.(A.vulgaris)are ethno-medicinally used as an emmenagogue and for the treatment of ailments such as malaria fever,ulcers,and cancer.However,anecdotal evidence shows th...Background:Different parts of Artemisia vulgaris L.(A.vulgaris)are ethno-medicinally used as an emmenagogue and for the treatment of ailments such as malaria fever,ulcers,and cancer.However,anecdotal evidence shows that the plant is often substituted for Artemisia annua L.(A.annua)by herbalists in Western Uganda due to similarities in their morphology.Misidentification of medicinal plants and mislabelling of herbal products have been incriminated in toxicity and adverse health outcomes in traditional medicine practise.Because safety continues to be a major issue with the use of herbal remedies,it becomes imperative therefore that medicinal plants should be correctly identified.Methods:This study focused on investigating the macroscopic,microscopic,physicochemical characteristics and phytochemical composition of A.vulgaris leaves compared to A.annua to ease its correct identification.Results:The results showed that there are some colour differences between the leaves of the two species,with a close arrangement of microscopic features but different leaf constants.The leaves of the two Artemisia species had similar tastes,but their shapes and colours(greenish-yellow for A.annua and dark green for A.vulgaris)can be used by the local community to distinguish between them.The artemisinin content was higher in A.vulgaris leaves(1.72%)than in A.annua(1.43%),but the reverse was observed for the total flavonoid content.Conclusion:This observation could justify the change in the use of A.vulgaris by the indigenous community in western Uganda.Further studies should consider the pharmacognostic comparison of A.annua with other species in the genus Artemisia and the use of molecular techniques such as DNA barcoding.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
Using highly synchronous cultures of Plasmodium falciparum in vitro,the susceptibi- lity of the different stages of the intraerythrocytic parasites to Qinghaosu (QHS) was assessed.The anti- parasitic effect of QHS was...Using highly synchronous cultures of Plasmodium falciparum in vitro,the susceptibi- lity of the different stages of the intraerythrocytic parasites to Qinghaosu (QHS) was assessed.The anti- parasitic effect of QHS was measured by comparing the changes of irradiation of^3 H-hypoxanthine in- corporated into the nucleic acids of parasites exposed to various concentrations of QHS at different stages of growth.It was found that the trophozoite stage of the parasite was the most sensitive to QHS, whereas the early ring stage was the least sensitive,and the sensitivities of the late ring and schizont stages fell between those of the early ring and trophozoite stages.The results revealed the correlation of stage-dependent effects of QHS with the blockade of the protein metabolism of the parasite.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
AIM: To observe the apoptosis and oncosis of pancreatic acinar cells and secondary inflammatory reaction in pancreatic tissue from rats with acute pancreatitis (AP), and the influences of artemisinin on them.METHOD...AIM: To observe the apoptosis and oncosis of pancreatic acinar cells and secondary inflammatory reaction in pancreatic tissue from rats with acute pancreatitis (AP), and the influences of artemisinin on them.METHODS: AP was induced by 4 intraperitoneal iojections of caerulein at 1 h intervals. To induce apoptosis, solution of artemisinin (50 mg/kg) was given intraperitoneally 1, 12, 24 and 36 h after the last caerulein injection. Histological examination of impairment of pancreatic tissue and detection of serum amylase were performed to evaluate the severity of acute pancreatitis. Apoptosis and oncosis were detected with acridine orange (AO) and ethylene dibromide (EB) staining. Caspase-3 and myeloperoxidase (MPO) activity were measured by colorimetric assay. Nuclear factor-kappa B (NF-KB) activation was detected by flow cytometry. Macrophage inflammatory protein-lα(MIP-1α) protein was measured by Western blot. Interleukin- 1β(IL-1β) mRNA was detected by RT-PCR.RESULTS: Addition of artemisinin increased the number of apoptotic cells (11.7%±1.4% vs 6.3%± 0.7%, P 〈 0.05), while reduced the number of oncotic cells (13.0% ±2.4% vs 17.5%±2.2%, P 〈 0.05). The activity of caspase-3 speeded up (1.52±0.21 vs 1.03±0.08, P 〈 0.05), the pancreas pathological impairment was relieved (3.0±0.5 vs 4.0± 0.5, P 〈 0.05) and the level of serum amylase decreased (5642±721 U/dL vs 7821±653 U/dL, P 〈 0.05). The activation of NF-1α (29%±4.1% vs 42%±5.8%), MIP-1α protein (3.7±0.5 vs 5.8±0.7),MPO (0.52±0.06 U/g vs 0.68±0.09 U/g), IL-1β mRNA (1.7 ±0.3 vs 2.4 ±0.4) in the apoptosis inducing group was obviously decreased (P 〈 0.05).CONCLUSION: Inducing apoptosis can relieve pathological impairment and inflammatory reaction in AP rats.展开更多
文摘Artemisinins tested against W-2 strains of malaria falciparum are investigated with molecular electrostatic potential (MEP), in an attempt to identify key features of the compounds that are necessary for their activities, as well as to investigate likely interactions with the receptor in a biological process and to use that information to propose new molecules. In order to discover the best geometry involving the ligand-receptor complexes (heme) studied and help in the proposition of the new derivatives, molecular simulations of interactions between the most negative charged region around the peroxide and heme locates (the ones around the Fe2+ ion) were carried out. In addition, PCA (principal components analysis), HCA (hierarchical cluster analysis), SDA (stepwise discriminant analysis), and KNN (K-nearest neighbor) multivariate models were employed to investigate which descriptors are responsible for the classification between the higher and lower antimalarial activity of the compounds, and also this information was used to propose new potentially active molecules. The information accumulated in studies of MEP, molecular docking, and multivariate analysis supported the proposal of new structures with potential antimalarial activities. The multivariate models constructed were applied to the new structures and indicated numbers 19 and 20 as the most prominent for syntheses and biological assays.
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 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Diabetes is a chronic disease of elevated blood glucose levels that affects more than 400 million people worldwide.Complications of diabetes affect the neuronal and the vascular systems and causes diabetic kidney disease,cardiovascular disease,hypertension,retinopathy,peripheral neuropathy,and diabetic food diseases.Diabetes is caused by either the body’s inability to
基金supported by the National Natural Science Foundation of China(81973839)High Level Chinese Medical Hospital Promotion Project-Special Project on Formulation R&D and New Drug Translation for Medical Institutions(HLCMHPP2023037)Upgrading the Development and Promotion of about 30 Integrated Chinese and Western Medicine Diagnosis and Treatment Programs(Guidelines for the Diagnosis and Treatment of Breast Cancer with the Combination of Traditional Chinese Medicine and Western Medicine)(ZYZB-2022-798).
文摘Breast cancer is the leading cause of cancer-related deaths in women worldwide,with Hormone Receptor(HR)+being the predominant subtype.Tamoxifen(TAM)serves as the primary treatment for HR+breast cancer.However,drug resistance often leads to recurrence,underscoring the need to develop new therapies to enhance patient quality of life and reduce recurrence rates.Artemisinin(ART)has demonstrated efficacy in inhibiting the growth of drug-resistant cells,positioning art as a viable option for counteracting endocrine resistance.This study explored the interaction between artemisinin and tamoxifen through a combined approach of bioinformatics analysis and experimental validation.Five characterized genes(ar,cdkn1a,erbb2,esr1,hsp90aa1)and seven drug-disease crossover genes(cyp2e1,rorc,mapk10,glp1r,egfr,pgr,mgll)were identified using WGCNA crossover analysis.Subsequent functional enrichment analyses were conducted.Our findings confirm a significant correlation between key cluster gene expression and immune cell infiltration in tamoxifen-resistant and-sensitized patients.scRNA-seq analysis revealed high expression of key cluster genes in epithelial cells,suggesting artemisinin’s specific impact on tumor cells in estrogen receptor(ER)-positive BC tissues.Molecular target docking and in vitro experiments with artemisinin on LCC9 cells demonstrated a reversal effect in reducing migratory and drug resistance of drug-resistant cells by modulating relevant drug resistance genes.These results indicate that artemisinin could potentially reverse tamoxifen resistance in ER-positive breast cancer.
文摘The therapeutic potential of artemisinin (ART) and its derivatives (ARTs) is not limited to malaria but has been recently expanded to other infections with protozoans, trematodes, or viruses as well as to cancer. Due to their limited poor water and oil solubility, rapid degradation by the liver, and short half-life, they have a low bioavailability after oral administration. Consequently, there is a pressing necessity to formulate new ART preparations to raise its bioavailability and efficacy. Nanosized drug delivery systems represent important tools in modern medicine with wide clinical applications, because of their potential modulation of pharmacokinetic and biodistribution. This review focuses on polymer-based systems, lipid-based systems, and inorganic nanoparticles loaded with ARTs. The overall goal of this field of research is to enhance their solubility and stability to improve bioavailability at much lower doses and to increase long-term safety. In addition, the opportunity to reach highly specific site-targeted delivery by these nanocarriers confers a high medicinal value. Remarkably, most of the reported nanoparticulate drug delivery systems are biologically inactive or marginally immunogenic, generating no antigenic or pyrogenic reactions but only partial intrinsic toxicity. As clinical studies in human patients are available so far, there is a pressing need to translate preclinical results on ART-based nanosystems into clinical settings.
基金supported by grants from the National Key Research and Development Program of China(2020YFA0908000 and 2022YFC2303600)the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese-Medicine(ZYYCXTD-C-202002)+8 种基金the National Natural Science Foundation of China(82141001,82274182,82074098,82003814,and 82173914)the China Academy of Chinese Medical Sciences(CACMS)Innovation Fund(CI2021A05104 and CI2021A05101)the Distinguished Expert Project of Sichuan Province Tianfu Scholar(CW202002)the Scientific and Technological Innovation Project of China Academy of Chinese Medical Sciences(CI2021B014)the China Postdoctoral Science Foundation(2022M721541)the Establishment of Sino-Austria‘‘Belt and Road”Joint Laboratory on Traditional Chinese Medicine for Severe Infectious Diseases and Joint Research(2020YFE0205100)the Excellent Scientific and Technological Innovation Training Program of Shenzhen(RCYX20210706092040048)the Fundamental Research Funds for the Central Public Welfare Research Institutes(ZZ14-YQ-051,ZZ14-YQ-052,ZZ14-FL-002,ZZ14-YQ-050,ZZ14-ND-010,and ZZ15-ND-10)the Introduce Innovative Team Projects of Jinan(202228029)。
文摘The widespread use of artemisinin(ART)and its derivatives has significantly reduced the global burden of malaria;however,malaria still poses a serious threat to global health.Although significant progress has been achieved in elucidating the antimalarial mechanisms of ART,the most crucial target proteins and pathways of ART remain unknown.Knowledge on the exact antimalarial mechanisms of ART is urgently needed,as signs of emerging ART resistance have been observed in some regions of the world.Here,we used a combined strategy involving mass spectrometry-coupled cellular thermal shift assay(MS-CETSA)and transcriptomics profiling to identify a group of putative antimalarial targets of ART.We then conducted a series of validation experiments on five prospective protein targets,demonstrating that ART may function against malaria parasites by interfering with redox homeostasis,lipid metabolism,and protein synthesis processes.Taken together,this study provides fresh perspectives on the antimalarial mechanisms of ART and identifies several crucial proteins involved in parasite survival that can be targeted to combat malaria.
基金This study was financially supported by the Pharm-Biotechnology and Traditional Medicine Centre(PHARMBIOTRAC).We would like to thank and acknowledge Pharm-Biotechnology and Traditional Medicine Centre hosted at Mbarara University of Science and Technology for funding the study,Mrs.Venerandah Biryabarema Bushenyi and Africa Volunteer Association-Kamwenge for providing us with the study plants.The authors also thank Mr.Gershom Muganga who was a research assistant during the study.
文摘Background:Different parts of Artemisia vulgaris L.(A.vulgaris)are ethno-medicinally used as an emmenagogue and for the treatment of ailments such as malaria fever,ulcers,and cancer.However,anecdotal evidence shows that the plant is often substituted for Artemisia annua L.(A.annua)by herbalists in Western Uganda due to similarities in their morphology.Misidentification of medicinal plants and mislabelling of herbal products have been incriminated in toxicity and adverse health outcomes in traditional medicine practise.Because safety continues to be a major issue with the use of herbal remedies,it becomes imperative therefore that medicinal plants should be correctly identified.Methods:This study focused on investigating the macroscopic,microscopic,physicochemical characteristics and phytochemical composition of A.vulgaris leaves compared to A.annua to ease its correct identification.Results:The results showed that there are some colour differences between the leaves of the two species,with a close arrangement of microscopic features but different leaf constants.The leaves of the two Artemisia species had similar tastes,but their shapes and colours(greenish-yellow for A.annua and dark green for A.vulgaris)can be used by the local community to distinguish between them.The artemisinin content was higher in A.vulgaris leaves(1.72%)than in A.annua(1.43%),but the reverse was observed for the total flavonoid content.Conclusion:This observation could justify the change in the use of A.vulgaris by the indigenous community in western Uganda.Further studies should consider the pharmacognostic comparison of A.annua with other species in the genus Artemisia and the use of molecular techniques such as DNA barcoding.
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.
文摘Using highly synchronous cultures of Plasmodium falciparum in vitro,the susceptibi- lity of the different stages of the intraerythrocytic parasites to Qinghaosu (QHS) was assessed.The anti- parasitic effect of QHS was measured by comparing the changes of irradiation of^3 H-hypoxanthine in- corporated into the nucleic acids of parasites exposed to various concentrations of QHS at different stages of growth.It was found that the trophozoite stage of the parasite was the most sensitive to QHS, whereas the early ring stage was the least sensitive,and the sensitivities of the late ring and schizont stages fell between those of the early ring and trophozoite stages.The results revealed the correlation of stage-dependent effects of QHS with the blockade of the protein metabolism of the parasite.
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.
基金the Natural Science Foundation of Heilongjiang Province,China,No. D0227
文摘AIM: To observe the apoptosis and oncosis of pancreatic acinar cells and secondary inflammatory reaction in pancreatic tissue from rats with acute pancreatitis (AP), and the influences of artemisinin on them.METHODS: AP was induced by 4 intraperitoneal iojections of caerulein at 1 h intervals. To induce apoptosis, solution of artemisinin (50 mg/kg) was given intraperitoneally 1, 12, 24 and 36 h after the last caerulein injection. Histological examination of impairment of pancreatic tissue and detection of serum amylase were performed to evaluate the severity of acute pancreatitis. Apoptosis and oncosis were detected with acridine orange (AO) and ethylene dibromide (EB) staining. Caspase-3 and myeloperoxidase (MPO) activity were measured by colorimetric assay. Nuclear factor-kappa B (NF-KB) activation was detected by flow cytometry. Macrophage inflammatory protein-lα(MIP-1α) protein was measured by Western blot. Interleukin- 1β(IL-1β) mRNA was detected by RT-PCR.RESULTS: Addition of artemisinin increased the number of apoptotic cells (11.7%±1.4% vs 6.3%± 0.7%, P 〈 0.05), while reduced the number of oncotic cells (13.0% ±2.4% vs 17.5%±2.2%, P 〈 0.05). The activity of caspase-3 speeded up (1.52±0.21 vs 1.03±0.08, P 〈 0.05), the pancreas pathological impairment was relieved (3.0±0.5 vs 4.0± 0.5, P 〈 0.05) and the level of serum amylase decreased (5642±721 U/dL vs 7821±653 U/dL, P 〈 0.05). The activation of NF-1α (29%±4.1% vs 42%±5.8%), MIP-1α protein (3.7±0.5 vs 5.8±0.7),MPO (0.52±0.06 U/g vs 0.68±0.09 U/g), IL-1β mRNA (1.7 ±0.3 vs 2.4 ±0.4) in the apoptosis inducing group was obviously decreased (P 〈 0.05).CONCLUSION: Inducing apoptosis can relieve pathological impairment and inflammatory reaction in AP rats.
