A series of 5-C-alkylating camptothecins have been synthesized by one-step method, and their in vitro antitumor activity was evaluated against six human cancer cell lines. The results showed that all 5-C-alkylates of ...A series of 5-C-alkylating camptothecins have been synthesized by one-step method, and their in vitro antitumor activity was evaluated against six human cancer cell lines. The results showed that all 5-C-alkylates of camptothecins possessed poor cytotoxicity on six human cancer cell lines.展开更多
A series of heterocyclic acid esters of camptothecins as new compounds had been synthesized by acylation method, their in vitro and in vivo antitumor activities were evaluated. The cytotoxic results showed that 6 poss...A series of heterocyclic acid esters of camptothecins as new compounds had been synthesized by acylation method, their in vitro and in vivo antitumor activities were evaluated. The cytotoxic results showed that 6 possessed the best efficacy on six human cancer cell lines in the six classes of CPTs' derivatives. In vivo testing results indicated that 9 had better antitumor activity against mouse liver carcinoma H22 than topotecan.展开更多
Micellar nanostructures formed by amphiphilic polymers are prone to dissociation when the in vivo environment changes.Polyprodrug micelles can cross-link with other hydrophobic drugs through noncovalent bonds,which ha...Micellar nanostructures formed by amphiphilic polymers are prone to dissociation when the in vivo environment changes.Polyprodrug micelles can cross-link with other hydrophobic drugs through noncovalent bonds,which has the advantage of fixed structure and avoids the use of chemical cross-linking agents.In this study,we prepared a polyprodrug with hydrophobic curcumin(CUR)and hydrophilic poly(ethylene glycol)(PEG)in the main chain through a click reaction between CUR derivatives containing azide groups and di-alkynly-capped PEG.Due to the presence of benzene rings in the structure of CUR,the polyprodrug can form non-covalent cross-linked nanoparticles(NCCL-CUR NPs)through hydrophobic andπ-πstacking interaction.The structure,molecular weight,and self-assembly properties of the polyprodrug were characterized.The anti-cancer drug camptothecin(CPT)was encapsulated in the polyprodrug nanoparticles,producing dual-drug-loaded nanoparticles(abbreviated as CPT@NCCL-CUR NPs).The test results indicate that the NPs have reductive responsiveness and can release the original drugs CUR and CPT in phosphate buffer(PB)solution containing glutathione(GSH),while remaining stability in physiological environment.Cell and in vivo experiments further demonstrate that the dualdrug-loaded CPT@NCCL-CUR NPs can inhibit the growth of tumor through synergistic effects.This work provides a valuable approach for the preparation of amphiphilic polyprodrug with anti-tumor CUR as the backbone,and the stable dual-drug-loaded NPs containing both CUR and CPT through non-covalent cross-linking for synergistic therapy.展开更多
Tumors,due to their diversity and heterogeneity,pose a significant threat to human health.Multidrug resistance is a prevalent and grave issue in clinical treatment,resulting in treatment failure and cancer recurrence....Tumors,due to their diversity and heterogeneity,pose a significant threat to human health.Multidrug resistance is a prevalent and grave issue in clinical treatment,resulting in treatment failure and cancer recurrence.This resistance renders conventional drug therapies ineffective,presenting a substantial challenge to human health and medical care.Exploring natural products as potential sources for anti-cancer drugs could lead to the development of innovative and efficacious cancer treatments.This article aims to investigate the health implications of natural products(such as paclitaxel,podophyllotoxin,homoharringtonine,camptothecin,and vinblastine)in the discovery of anti-cancer drugs while discussing the methods and progress made in researching novel anti-cancer drugs derived from natural products.The paper discusses the diversity,intricate structures,and target affinity of natural products along with their structural modification techniques,combination therapies utilization possibilities with prodrugs or nanoparticles.Additionally,considering the escalating multidrug resistance observed in tumors nowadays;certain natural products offer new insights and approaches for discovering effective anti-tumor drugs that are crucial for addressing global public health challenges.The challenges faced by natural products during drug development including issues related to bioavailability toxicity concerns as well as limited resources are examined thoroughly.Potential opportunities current issues along with future challenges are highlighted aiming at facilitating the clinical translation of original anti-cancer drugs using natural products.展开更多
Camptotheca acuminata Decaisne is a tree unique to China, producing terpenoid indole alkaloid (TIA), camptothecin (CPT), and 10-hydroxycamptothecin (HCPT), which possesses strong anti-cancer bioactivity. The dynamics ...Camptotheca acuminata Decaisne is a tree unique to China, producing terpenoid indole alkaloid (TIA), camptothecin (CPT), and 10-hydroxycamptothecin (HCPT), which possesses strong anti-cancer bioactivity. The dynamics of HCPT and CPT during seed maturation, seed germination, postgerminative development and daily growth were measured by High Performance Liquid Chromatography (HPLC). This article provides some evidence for presenting the theory that each characteristic of HCPT and CPT accumulation is under developmental regulation and then attempt to elucidate the metabolic relationships between them. HCPT accumulates particularly in young tissues and organs and is relatively unstable, while the distribution of CPT is more ubiquitous and stable. Their different distribution properties suggest that HCPT and CPT are differentially regulated and play distinct roles:during development.展开更多
Plants interact with their environment by producing a diverse array of secondary metabolites, one of which is alkaloid. In this study, alkaloids, including camptothecin (CPT) and 10-hydroxycamptothecin (HCPT), malondi...Plants interact with their environment by producing a diverse array of secondary metabolites, one of which is alkaloid. In this study, alkaloids, including camptothecin (CPT) and 10-hydroxycamptothecin (HCPT), malondialdehyde (MDA) and chlorophyll contents were measured during heat shock in seedlings of Camptotheca acuminata Decaisne unique to China. Responses of different tissues, including young leaves, old leaves, buds and barks, to heat shock were examined in alkaloid changes. CPT and HCPT concentrations reached their peak values separately at 38 degreesC and 40 degreesC, which were below the lethal heat-shock temperature indicated by MDA and chlorophyll, and their great changes took place in young leaves. These results indicated that CPT and HCPT were involved in the C acuminata resistance against heat shock from its environment. Furthermore, plant rigidly observed the cost-benefit principle and mobilized and allocated limited alkaloid sources to young and reproductive tissues preferentially. In addition, HCPT displayed well-regulated changes during incubation at sublethal temperature, and this indicated that HCPT might play a more positively defensive role in enhancement of plant thermotolerance than CPT does.展开更多
Camptothecine (CPT) and hydroxycamptothecin (HCPT), two kinds of anti-cancer alkaloids, were extracted from Camptotheca acuminata leaves using homogenate extraction technology under different conditions such as th...Camptothecine (CPT) and hydroxycamptothecin (HCPT), two kinds of anti-cancer alkaloids, were extracted from Camptotheca acuminata leaves using homogenate extraction technology under different conditions such as the ratio of material to liquid, ethanol concentration, and homogenate time. The optimum technology parameters for homogenate extraction of CPT and HCPT from C acuminata leaves were determined as homogenate time at 8 rain, ethanol concentration at 55% and the ratio of material to liquid at 1:15 (g:mL). By using the optimized parameters, we obtained 0.639‰ extraction rate for CPT and 0.437‰ for HCPT. The extraction yields of CPT and HCPT extracted by homogenating technology were higher than those by other extractive methods, such as ultrasonic, reflux, shaking in water bath. It is concluded that the homogenate extraction technology was an efficient method for extracting CPT and HCPT from C acuminata leaves, with characteristics of less extraction time and high yield.展开更多
The drug camptothecin has a wide range of antitumor effects in cancers including gastric cancer,rectal and colon cancer,liver cancer,and lung cancer.Camptothecin-based drugs inhibit topoisomerase 1(Topo 1),leading to ...The drug camptothecin has a wide range of antitumor effects in cancers including gastric cancer,rectal and colon cancer,liver cancer,and lung cancer.Camptothecin-based drugs inhibit topoisomerase 1(Topo 1),leading to destruction of DNA,and are currently being used as important chemotherapeutic agents in clinical antitumor treatment.However,the main obstacle associated with cancer therapy is represented by systemic toxicity of conventional anticancer drugs and their low accumulation at the tumor site.In addition,low bioavailability,poor water solubility,and other shortcomings hinder their anticancer activity.Different from traditional pharmaceutical preparations,nanotechnology-dependent nanopharmaceutical preparations have become one of the main strategies for different countries worldwide to overcome drug development problems.In this review,we summarized the current hotspots and discussed a variety of camptothecin-based nanodrugs for cancer therapy.We hope that through this review,more efficient drug delivery systems could be designed with potential applications in clinical cancer therapy.展开更多
The limited bioavailability of plant-derived natural products with anticancer activity poses major challenges to the pharmaceutical industry.An example of this is camptothecin,a monoterpene indole alkaloid with potent...The limited bioavailability of plant-derived natural products with anticancer activity poses major challenges to the pharmaceutical industry.An example of this is camptothecin,a monoterpene indole alkaloid with potent anticancer activity that is extracted at very low concentrations from woody plants.Recently,camptothecin biosynthesis has been shown to become biotechnologically amenable in hairy-root systems of the natural producer Ophiorrhiza pumila.Here,time-course expression and metabolite analyses were performed to identify novel transcriptional regulators of camptothecin biosynthesis in O.pumila.It is shown here that camptothecin production increased over cultivation time and that the expression pattern of the WRKY transcription factor encoding gene OpWRKY2 is closely correlated with camptothecin accumulation.Overexpression of OpWRKY2 led to a more than three-fold increase in camptothecin levels.Accordingly,silencing of OpWRKY2 correlated with decreased camptothecin levels in the plant.Further detailed molecular characterization by electrophoretic mobility shift,yeast one-hybrid and dual-luciferase assays showed that OpWRKY2 directly binds and activates the central camptothecin pathway gene OpTDC.Taken together,the results of this study demonstrate that OpWRKY2 acts as a direct positive regulator of camptothecin biosynthesis.As such,a feasible strategy for the over-accumulation of camptothecin in a biotechnologically amenable system is presented.展开更多
C. acuminata seedlings cultivated in greenhouse were transplanted into the fields with 5 designed planting densities (11, 16, 25,44 and 100 plants·m^-2) in May of 2004 and were harvested in the middle of Septembe...C. acuminata seedlings cultivated in greenhouse were transplanted into the fields with 5 designed planting densities (11, 16, 25,44 and 100 plants·m^-2) in May of 2004 and were harvested in the middle of September of 2004. The seedling growth indexes including plant height and crown width, biomass allocation, camptothecin (CPT) content and CPT yield of different organs (young leaf, old leaf, stem,and root) were studied. For the 5 selected planting densities, the plant biomass, height, crown width, and total leaf area of C. acuminata seedlings all showed highest values at the planting density of 25 plants ·m^-2. CPT content in young leaves was higher than that in other organs of seedlings and presented an obvious change with the variation of planting densities and with the highest value at density of 100plants·m-2, while for other organs no significant variation in CPT content was found with change of planting density. The accumulation of CPT was enhanced significantly at the planting density of 25 plants·m^-2. It is concluded that for the purpose to get raw materials with more CPT from C. acuminata, the optimal planting density of C. acuminata seedlings should be designed as 25 plants·m^-2.展开更多
Camptotheac acuminata Decne is a unique tree species in China with an important secondary metabolite,camptothecin(CPT),used in the treatment of cancer.Nitrogen(N)is an important element that affects plant growth and t...Camptotheac acuminata Decne is a unique tree species in China with an important secondary metabolite,camptothecin(CPT),used in the treatment of cancer.Nitrogen(N)is an important element that affects plant growth and the accumulation of CPT.Reports on the effect of N on CPT synthesis from a genetic perspective are scarce.To explore the effects of different N sources and levels on CPT synthesis in C.acuminata,two-year-old seedlings were fertilized with different concentrations of pure ammonium sulphate,source of ammonium N(NH4+-N),and potassium nitrate for nitrate N(NO3--N).Concentrations of 2.5,5,7.5,and10 g pot-1 NH4+-N and NO3--N were used.The results showed that 7.5 g NH4+-N and NO3--N treatments were best for growth and fresh weight of leaves.Compared with the other treatments,the CPT content,tryptophan synthase and tryptophan decarboxylase activities,and expression of the CaTSB and CaTDCl genes under the 2.5 g NH4+-N and NO3--N treatments peaked significantly at 30 days.However,the expression of CaTDC2 surpassed that of the other two genes at 60 days.Therefore,compared with NH4+-N source,the NO3--N source was more beneficial for growth,and NO3--N was better for CPT yield.Consequently,leaves of C.acuminata treated with 2.5 g NO3--N could be harvested after 30 days to obtain maximum CPT content.CaTDC1 is more closely linked to CPT synthesis.The results of this study improved the production of CPT in C.acuminata via fertilization.展开更多
Objective:To investigate the content of topoisomerase I-DNA inhibitor alkaloid camptothecin(CPT) from various parts of Nothapodytes foetida(N.foetida) collected from the month of October to February.Methods:The conten...Objective:To investigate the content of topoisomerase I-DNA inhibitor alkaloid camptothecin(CPT) from various parts of Nothapodytes foetida(N.foetida) collected from the month of October to February.Methods:The content of CPT was quantified in the methanolic extract of various parts of N.foetida using high performance liquid chromatography(UPLC).Quantification was performed with the regression analysis and the method was validated as per ICH guidelines. Results:The results revealed that maximum concentrations of camptothecin were found in root(2.62%) collected in the month of February followed by fruits(January,1.22%),stem(January,0.81%) and leaves(February,0.70%).Roots were found to have 3-fold higher concentration of CPT than the leaves and stem,while the fruits showed 2-fold higher concentration.Maximum concentration of camptothecin in fruits was observed in month of January,when they were not fully mature, which was 2-fold higher than that of young and fully mature fruits.Conclusions:These findings indicate that the synthesis of CPT differs in different parts of N.foetida and the content varies periodically.展开更多
Naturally occurring camptothecin(CPT) is an important source of chemotherapeutic agents.The extraction from Camptotheca acuminata is still the main approach to obtain CPT compared with total synthesis.In the present...Naturally occurring camptothecin(CPT) is an important source of chemotherapeutic agents.The extraction from Camptotheca acuminata is still the main approach to obtain CPT compared with total synthesis.In the present study,ultrasound-assisted extractions(UAE) of CPT from C.acuminata seeds with alkaline solutions were investigated and CPT yield were determined by High Performance Liquid Chromatography.The conditions of alkaline species and concentrations,extraction time,extraction temperature and ultrasonic power were optimized.Results show that both Na3PO4 and Na2CO3 solutions gain good extraction yields,whereas Na3PO4 solution has stronger basicity and need higher concentration than Na2CO3 solution does,thus aqueous Na2CO3 is more beneficial for the extraction.The optimal condition was ultrasonically extracted with 0.5% aqueous Na2CO3 at 50°C and ultrasonic power of 400 W for 60 min.Comparing with UAE with ethanol,the extraction with 0.5% Na2CO3 solution achieves higher yield.Moreover,aqueous Na2CO3 as a solvent has various advantages including non-toxicity,inflammable,non-corrosive and low cost,which ensure this UAE method is a superior method with high utilizing prospect.展开更多
AIM:rAAV mediated endostatin gene therapy has been examined as a new method for treating cancer.However, a sustained and high protein delivery is required to achieve the desired therapeutic effects.We evaluated the im...AIM:rAAV mediated endostatin gene therapy has been examined as a new method for treating cancer.However, a sustained and high protein delivery is required to achieve the desired therapeutic effects.We evaluated the impact of topoisomerase inhibitors in rAAV delivered endostatin gene therapy in a liver tumor model. METHODS:rAAV containing endostatin expression cassettes were transduced into hepatoma cell lines.To test whether the topoisomerase inhibitor pretreatment increased the expression of endostatin,Western blotting and ELISA were performed.The biologic activity of endostatin was confirmed by endothelial cell proliferation and tube formation assays. The anti-tumor effects of the rAAV-endostatin vector combined with a topoisomerase inhibitor,etoposide,were evaluated in a mouse liver tumor model. RESULTS:Topoisomerase inhibitors,including camptothecin and etoposide,were found to increase the endostatin exPression level in vitro.The over-expressed endostatin, as a result of pretreatment with a topoisomerase inhibitor, was also biologically active.In animal experiments,the combined therapy of topoisomerase inhibitor,etoposide with the rAAV-endostatin vector had the best tumor- suppressive effect and tumor foci were barely observed in livers of the treated mice.Pretreatment with an etoposide increased the level of endostatin in the liver and serum of rAAV-endostatin treated mice.Finally,the mice treated With rAAV-endostatin in combination with etoposide showed the longest survival among the experimental models. CONCLUSION:rAAV delivered endostatin gene therapy in combination with a topoisomerase inhibitor pretreatment is an effective modality for anticancer gene therapy.展开更多
Camptothecin has a strong tumor killing ability for a variety of tumor cells with its special anti-cancer mechanism including the breast cancer. However, because of its infinite hydrophobic property, its clinical appl...Camptothecin has a strong tumor killing ability for a variety of tumor cells with its special anti-cancer mechanism including the breast cancer. However, because of its infinite hydrophobic property, its clinical application has been greatly limited. Early prevention of loco regional recurrence for the breast cancer is critical for patients who have undergone breast-conserving therapy. In the study,CPT was used for the inhibition of the recurrence after the operation. The hollow mesoporous silica nanoparticles were used as the carrier to improve the hydrophilic property and increase its bioavailability with the high loading capacity. The ability of the cellular uptake and antitumor activity was increased. Hydrogel was the ideal carrier for local therapy, so the CPT@HMSNs were loaded into the PLEL thermo sensitive hydrogel to be injected into the tumor sites after the tumor was resected. The recurrence was reduced in the group of CPT-HMSNs-PLEL and the side effect of CPT was decreased. They exhibit distinguished potential as drug carrier for local delivery.展开更多
Creating high-efifcient and environment-friendly pesticides is very important to produce the pollution free agriculture food and maintain the balance of the survival environmental of the human being. According to repo...Creating high-efifcient and environment-friendly pesticides is very important to produce the pollution free agriculture food and maintain the balance of the survival environmental of the human being. According to reports, camptothecin (CPT) and its derivatives are now being explored as a class of botanical insecticide in agriculture due to its novel mode of action. In order to improve the insecticidal activity of CPT, ten novel camptothecin (1) and 10-hydroxycamptothecin (2) derivatives (1a, 1b, 1c, 1d, 1e;2a, 2b, 2c, 2d, 2e) were designed and synthesized via esteriifcation with analogs of chrysanthemic acid, which have outstanding insecticidal activity. The results showed that compound 2a exhibited potent antifeeding effect and the best contact toxicity among the target compounds against the third-instar larvae of beet armyworm, Spodoptera exigua Hübner. Compound 2a was also found to be the most effective cytotoxic compound to the tested insect cell lines, IOZCAS-Spex-II, which were established from the fat bodies of S. exigua. It was proposed that the 10-hydroxyl group in the camptothecin derivatives is a key factor for the antifeeding activity of a compound. The nature of the substituents was considered the major factor in determining the insecticidal activity of these compounds.展开更多
To improve the biological anticancer activity of 20 (S)-camptothecin, a novel class of 20 (S)-20-O-camptotheein β-aminopropionates were designed and synthesized with eamptothecins as the starting materials, throu...To improve the biological anticancer activity of 20 (S)-camptothecin, a novel class of 20 (S)-20-O-camptotheein β-aminopropionates were designed and synthesized with eamptothecins as the starting materials, through acylation with acryloyl chloride followed by Michael's addition. Twelve esters, 1a-1d, 4a-4d and 5a-5d, were synthesized and evaluated by using MTT assay method. The results demonstrate that all these compounds show a potential eytotoxicity on KB, HT-29, HCT-8, and Bel7402 tumor cell lines. Some compounds, 1d, 4c, 5b, 5c and 5d, show a higher cytoto-xicity on KB and HCT-8 compared with eamptotheein.展开更多
Several 7-alkynyl camptothecin derivatives were prepared via Sonogashira coupling. And anti-tumor activities of these compounds were evaluated against human esophageal cancer cell line (Eca-109), human chronic myelo...Several 7-alkynyl camptothecin derivatives were prepared via Sonogashira coupling. And anti-tumor activities of these compounds were evaluated against human esophageal cancer cell line (Eca-109), human chronic myeloid leukaemia cell line (K562), bladder cancer cell line (5637) and gastric cell line (SGC7901). Compounds 9a--d and 10a exhibited remarkable in vitro cytotoxic activity, compared with topotecan.展开更多
Stimuli-responsive drug delivery systems based on polymeric micelles can achieve controlled drug release to improve the therapeutic outcome and reduce unwanted systematic toxicity and side effects of the cytotoxic dru...Stimuli-responsive drug delivery systems based on polymeric micelles can achieve controlled drug release to improve the therapeutic outcome and reduce unwanted systematic toxicity and side effects of the cytotoxic drug in chemotherapy but often face challenging synthesis and purification of functionalized biocompatible polymer materials and low drug loading efficiency. In the present study, we reported a novel redox-responsive self-assembly polymeric micelle system, mPEG-β-CD/Ad-SS-CPT, to achieve high loading efficiency and selective delivery of camptothecin(CPT) in a reductive environment inside cancer cells. The host-vip supramolecular micelles utilized a simple β-CD modified PEG, mPEG-β-cyclodextrin(mPEG-β-CD), as the polymeric host with the ease of synthesis and purification. The vip prodrug Ad-SS-CPT contained the disulfide bond as the redox sensitivity group. The selective cleavage of disulfide bond and subsequent drug release in a reductive environment could potentially reduce system toxicity and improve the therapeutic outcome of CPT. In vitro studies showed that the micelles exhibited excellent cytotoxicity against He La cells comparable to the free drug. The host-vip polymeric micelles also showed great potentials for multi-drug co-delivery. Collectively, our current findings provided a general and convenient approach to design drug delivery systems based on stimuli-responsive polymeric micelles for disease treatment.展开更多
Density function M06 method has been used to optimize the geometries of camptothecin-cytosine at 6-3 I+G* basis. Finally, thirteen stabilized complexes have been obtained. Theories of atoms in molecules (AIM) and ...Density function M06 method has been used to optimize the geometries of camptothecin-cytosine at 6-3 I+G* basis. Finally, thirteen stabilized complexes have been obtained. Theories of atoms in molecules (AIM) and natural bond orbital (NBO) have been utilized to investigate the hydrogen bonds involved in all the complexes. The interaction energies of all the complexes are corrected by basis set superposition error (BSSE). By the analysis of complexes interaction energy, charge density, second- order interaction energies E(2); it is indicated that the complex 6 is the most stable structure.展开更多
文摘A series of 5-C-alkylating camptothecins have been synthesized by one-step method, and their in vitro antitumor activity was evaluated against six human cancer cell lines. The results showed that all 5-C-alkylates of camptothecins possessed poor cytotoxicity on six human cancer cell lines.
文摘A series of heterocyclic acid esters of camptothecins as new compounds had been synthesized by acylation method, their in vitro and in vivo antitumor activities were evaluated. The cytotoxic results showed that 6 possessed the best efficacy on six human cancer cell lines in the six classes of CPTs' derivatives. In vivo testing results indicated that 9 had better antitumor activity against mouse liver carcinoma H22 than topotecan.
基金supported by the National Natural Science Foundation of China(No.21975169)the Project Fund of the Priority Academic Program Development(PAPD)of Jiangsu Higher Education Institutions+2 种基金the Key Laboratory of Polymeric Materials Design and Synthesis for Biomedical Function of Soochow Universitythe Research project of China Baoyuan Investment Co.,Ltd.Suzhou Science and Technology Plan Project(No.SKY2023051)。
文摘Micellar nanostructures formed by amphiphilic polymers are prone to dissociation when the in vivo environment changes.Polyprodrug micelles can cross-link with other hydrophobic drugs through noncovalent bonds,which has the advantage of fixed structure and avoids the use of chemical cross-linking agents.In this study,we prepared a polyprodrug with hydrophobic curcumin(CUR)and hydrophilic poly(ethylene glycol)(PEG)in the main chain through a click reaction between CUR derivatives containing azide groups and di-alkynly-capped PEG.Due to the presence of benzene rings in the structure of CUR,the polyprodrug can form non-covalent cross-linked nanoparticles(NCCL-CUR NPs)through hydrophobic andπ-πstacking interaction.The structure,molecular weight,and self-assembly properties of the polyprodrug were characterized.The anti-cancer drug camptothecin(CPT)was encapsulated in the polyprodrug nanoparticles,producing dual-drug-loaded nanoparticles(abbreviated as CPT@NCCL-CUR NPs).The test results indicate that the NPs have reductive responsiveness and can release the original drugs CUR and CPT in phosphate buffer(PB)solution containing glutathione(GSH),while remaining stability in physiological environment.Cell and in vivo experiments further demonstrate that the dualdrug-loaded CPT@NCCL-CUR NPs can inhibit the growth of tumor through synergistic effects.This work provides a valuable approach for the preparation of amphiphilic polyprodrug with anti-tumor CUR as the backbone,and the stable dual-drug-loaded NPs containing both CUR and CPT through non-covalent cross-linking for synergistic therapy.
基金supported by the National Natural Science Foundation of China(grant number 22309103)Natural Science Foundation of Shandong Province(grant numbers ZR2022MH162,ZR2022QE202)+1 种基金PhD Research Start-up Foundation of Qufu Normal University(grant numbers 614901,615201)the project of introduction and cultivation for young innovation talents in the colleges and universities of Shandong Province(grant number 614202).
文摘Tumors,due to their diversity and heterogeneity,pose a significant threat to human health.Multidrug resistance is a prevalent and grave issue in clinical treatment,resulting in treatment failure and cancer recurrence.This resistance renders conventional drug therapies ineffective,presenting a substantial challenge to human health and medical care.Exploring natural products as potential sources for anti-cancer drugs could lead to the development of innovative and efficacious cancer treatments.This article aims to investigate the health implications of natural products(such as paclitaxel,podophyllotoxin,homoharringtonine,camptothecin,and vinblastine)in the discovery of anti-cancer drugs while discussing the methods and progress made in researching novel anti-cancer drugs derived from natural products.The paper discusses the diversity,intricate structures,and target affinity of natural products along with their structural modification techniques,combination therapies utilization possibilities with prodrugs or nanoparticles.Additionally,considering the escalating multidrug resistance observed in tumors nowadays;certain natural products offer new insights and approaches for discovering effective anti-tumor drugs that are crucial for addressing global public health challenges.The challenges faced by natural products during drug development including issues related to bioavailability toxicity concerns as well as limited resources are examined thoroughly.Potential opportunities current issues along with future challenges are highlighted aiming at facilitating the clinical translation of original anti-cancer drugs using natural products.
文摘Camptotheca acuminata Decaisne is a tree unique to China, producing terpenoid indole alkaloid (TIA), camptothecin (CPT), and 10-hydroxycamptothecin (HCPT), which possesses strong anti-cancer bioactivity. The dynamics of HCPT and CPT during seed maturation, seed germination, postgerminative development and daily growth were measured by High Performance Liquid Chromatography (HPLC). This article provides some evidence for presenting the theory that each characteristic of HCPT and CPT accumulation is under developmental regulation and then attempt to elucidate the metabolic relationships between them. HCPT accumulates particularly in young tissues and organs and is relatively unstable, while the distribution of CPT is more ubiquitous and stable. Their different distribution properties suggest that HCPT and CPT are differentially regulated and play distinct roles:during development.
文摘Plants interact with their environment by producing a diverse array of secondary metabolites, one of which is alkaloid. In this study, alkaloids, including camptothecin (CPT) and 10-hydroxycamptothecin (HCPT), malondialdehyde (MDA) and chlorophyll contents were measured during heat shock in seedlings of Camptotheca acuminata Decaisne unique to China. Responses of different tissues, including young leaves, old leaves, buds and barks, to heat shock were examined in alkaloid changes. CPT and HCPT concentrations reached their peak values separately at 38 degreesC and 40 degreesC, which were below the lethal heat-shock temperature indicated by MDA and chlorophyll, and their great changes took place in young leaves. These results indicated that CPT and HCPT were involved in the C acuminata resistance against heat shock from its environment. Furthermore, plant rigidly observed the cost-benefit principle and mobilized and allocated limited alkaloid sources to young and reproductive tissues preferentially. In addition, HCPT displayed well-regulated changes during incubation at sublethal temperature, and this indicated that HCPT might play a more positively defensive role in enhancement of plant thermotolerance than CPT does.
文摘Camptothecine (CPT) and hydroxycamptothecin (HCPT), two kinds of anti-cancer alkaloids, were extracted from Camptotheca acuminata leaves using homogenate extraction technology under different conditions such as the ratio of material to liquid, ethanol concentration, and homogenate time. The optimum technology parameters for homogenate extraction of CPT and HCPT from C acuminata leaves were determined as homogenate time at 8 rain, ethanol concentration at 55% and the ratio of material to liquid at 1:15 (g:mL). By using the optimized parameters, we obtained 0.639‰ extraction rate for CPT and 0.437‰ for HCPT. The extraction yields of CPT and HCPT extracted by homogenating technology were higher than those by other extractive methods, such as ultrasonic, reflux, shaking in water bath. It is concluded that the homogenate extraction technology was an efficient method for extracting CPT and HCPT from C acuminata leaves, with characteristics of less extraction time and high yield.
文摘The drug camptothecin has a wide range of antitumor effects in cancers including gastric cancer,rectal and colon cancer,liver cancer,and lung cancer.Camptothecin-based drugs inhibit topoisomerase 1(Topo 1),leading to destruction of DNA,and are currently being used as important chemotherapeutic agents in clinical antitumor treatment.However,the main obstacle associated with cancer therapy is represented by systemic toxicity of conventional anticancer drugs and their low accumulation at the tumor site.In addition,low bioavailability,poor water solubility,and other shortcomings hinder their anticancer activity.Different from traditional pharmaceutical preparations,nanotechnology-dependent nanopharmaceutical preparations have become one of the main strategies for different countries worldwide to overcome drug development problems.In this review,we summarized the current hotspots and discussed a variety of camptothecin-based nanodrugs for cancer therapy.We hope that through this review,more efficient drug delivery systems could be designed with potential applications in clinical cancer therapy.
基金the National Key Research and Development Program of China(2018YFC1706203)National Natural Science Foundation of China(31571735,82073963,81522049,82003889)+3 种基金Zhejiang Provincial Ten Thousands Program for Leading Talents of Science and Technology Innovation(2018R52050)Zhejiang Provincial Program for the Cultivation of High-level Innovative Health Talents,Shanghai Science and Technology Committee Project(17JC1404300)Zhejiang Provincial Natural Science Foundation of China(LY20H280008,LQ21H280004)Zhejiang Chinese Medical University Research Foundation(2020ZR15).
文摘The limited bioavailability of plant-derived natural products with anticancer activity poses major challenges to the pharmaceutical industry.An example of this is camptothecin,a monoterpene indole alkaloid with potent anticancer activity that is extracted at very low concentrations from woody plants.Recently,camptothecin biosynthesis has been shown to become biotechnologically amenable in hairy-root systems of the natural producer Ophiorrhiza pumila.Here,time-course expression and metabolite analyses were performed to identify novel transcriptional regulators of camptothecin biosynthesis in O.pumila.It is shown here that camptothecin production increased over cultivation time and that the expression pattern of the WRKY transcription factor encoding gene OpWRKY2 is closely correlated with camptothecin accumulation.Overexpression of OpWRKY2 led to a more than three-fold increase in camptothecin levels.Accordingly,silencing of OpWRKY2 correlated with decreased camptothecin levels in the plant.Further detailed molecular characterization by electrophoretic mobility shift,yeast one-hybrid and dual-luciferase assays showed that OpWRKY2 directly binds and activates the central camptothecin pathway gene OpTDC.Taken together,the results of this study demonstrate that OpWRKY2 acts as a direct positive regulator of camptothecin biosynthesis.As such,a feasible strategy for the over-accumulation of camptothecin in a biotechnologically amenable system is presented.
基金This paper was supported by the National Natural Science Foundation of China (No.3970086) and Heilongjiang Province Foundation for Distinguished Youth Scholars (JC-02-11)
文摘C. acuminata seedlings cultivated in greenhouse were transplanted into the fields with 5 designed planting densities (11, 16, 25,44 and 100 plants·m^-2) in May of 2004 and were harvested in the middle of September of 2004. The seedling growth indexes including plant height and crown width, biomass allocation, camptothecin (CPT) content and CPT yield of different organs (young leaf, old leaf, stem,and root) were studied. For the 5 selected planting densities, the plant biomass, height, crown width, and total leaf area of C. acuminata seedlings all showed highest values at the planting density of 25 plants ·m^-2. CPT content in young leaves was higher than that in other organs of seedlings and presented an obvious change with the variation of planting densities and with the highest value at density of 100plants·m-2, while for other organs no significant variation in CPT content was found with change of planting density. The accumulation of CPT was enhanced significantly at the planting density of 25 plants·m^-2. It is concluded that for the purpose to get raw materials with more CPT from C. acuminata, the optimal planting density of C. acuminata seedlings should be designed as 25 plants·m^-2.
基金This research was sponsored by the 13th Five-Year-Plan National Projects for Camptotheca acuminata Decne Effi cient Cultivation Technology Research of China(2017YFD0600706).
文摘Camptotheac acuminata Decne is a unique tree species in China with an important secondary metabolite,camptothecin(CPT),used in the treatment of cancer.Nitrogen(N)is an important element that affects plant growth and the accumulation of CPT.Reports on the effect of N on CPT synthesis from a genetic perspective are scarce.To explore the effects of different N sources and levels on CPT synthesis in C.acuminata,two-year-old seedlings were fertilized with different concentrations of pure ammonium sulphate,source of ammonium N(NH4+-N),and potassium nitrate for nitrate N(NO3--N).Concentrations of 2.5,5,7.5,and10 g pot-1 NH4+-N and NO3--N were used.The results showed that 7.5 g NH4+-N and NO3--N treatments were best for growth and fresh weight of leaves.Compared with the other treatments,the CPT content,tryptophan synthase and tryptophan decarboxylase activities,and expression of the CaTSB and CaTDCl genes under the 2.5 g NH4+-N and NO3--N treatments peaked significantly at 30 days.However,the expression of CaTDC2 surpassed that of the other two genes at 60 days.Therefore,compared with NH4+-N source,the NO3--N source was more beneficial for growth,and NO3--N was better for CPT yield.Consequently,leaves of C.acuminata treated with 2.5 g NO3--N could be harvested after 30 days to obtain maximum CPT content.CaTDC1 is more closely linked to CPT synthesis.The results of this study improved the production of CPT in C.acuminata via fertilization.
基金Supported by Department of Biotechnology(DBT)research grant(Grant No.BT/PR8846/GBD/27/30/2006)
文摘Objective:To investigate the content of topoisomerase I-DNA inhibitor alkaloid camptothecin(CPT) from various parts of Nothapodytes foetida(N.foetida) collected from the month of October to February.Methods:The content of CPT was quantified in the methanolic extract of various parts of N.foetida using high performance liquid chromatography(UPLC).Quantification was performed with the regression analysis and the method was validated as per ICH guidelines. Results:The results revealed that maximum concentrations of camptothecin were found in root(2.62%) collected in the month of February followed by fruits(January,1.22%),stem(January,0.81%) and leaves(February,0.70%).Roots were found to have 3-fold higher concentration of CPT than the leaves and stem,while the fruits showed 2-fold higher concentration.Maximum concentration of camptothecin in fruits was observed in month of January,when they were not fully mature, which was 2-fold higher than that of young and fully mature fruits.Conclusions:These findings indicate that the synthesis of CPT differs in different parts of N.foetida and the content varies periodically.
基金supported by the "948" project of State Forestry Administration (No. 2011-4-16)
文摘Naturally occurring camptothecin(CPT) is an important source of chemotherapeutic agents.The extraction from Camptotheca acuminata is still the main approach to obtain CPT compared with total synthesis.In the present study,ultrasound-assisted extractions(UAE) of CPT from C.acuminata seeds with alkaline solutions were investigated and CPT yield were determined by High Performance Liquid Chromatography.The conditions of alkaline species and concentrations,extraction time,extraction temperature and ultrasonic power were optimized.Results show that both Na3PO4 and Na2CO3 solutions gain good extraction yields,whereas Na3PO4 solution has stronger basicity and need higher concentration than Na2CO3 solution does,thus aqueous Na2CO3 is more beneficial for the extraction.The optimal condition was ultrasonically extracted with 0.5% aqueous Na2CO3 at 50°C and ultrasonic power of 400 W for 60 min.Comparing with UAE with ethanol,the extraction with 0.5% Na2CO3 solution achieves higher yield.Moreover,aqueous Na2CO3 as a solvent has various advantages including non-toxicity,inflammable,non-corrosive and low cost,which ensure this UAE method is a superior method with high utilizing prospect.
基金Supported by a faculty research grant of Yonsei University College of Medicine for 2002,No.2002-06
文摘AIM:rAAV mediated endostatin gene therapy has been examined as a new method for treating cancer.However, a sustained and high protein delivery is required to achieve the desired therapeutic effects.We evaluated the impact of topoisomerase inhibitors in rAAV delivered endostatin gene therapy in a liver tumor model. METHODS:rAAV containing endostatin expression cassettes were transduced into hepatoma cell lines.To test whether the topoisomerase inhibitor pretreatment increased the expression of endostatin,Western blotting and ELISA were performed.The biologic activity of endostatin was confirmed by endothelial cell proliferation and tube formation assays. The anti-tumor effects of the rAAV-endostatin vector combined with a topoisomerase inhibitor,etoposide,were evaluated in a mouse liver tumor model. RESULTS:Topoisomerase inhibitors,including camptothecin and etoposide,were found to increase the endostatin exPression level in vitro.The over-expressed endostatin, as a result of pretreatment with a topoisomerase inhibitor, was also biologically active.In animal experiments,the combined therapy of topoisomerase inhibitor,etoposide with the rAAV-endostatin vector had the best tumor- suppressive effect and tumor foci were barely observed in livers of the treated mice.Pretreatment with an etoposide increased the level of endostatin in the liver and serum of rAAV-endostatin treated mice.Finally,the mice treated With rAAV-endostatin in combination with etoposide showed the longest survival among the experimental models. CONCLUSION:rAAV delivered endostatin gene therapy in combination with a topoisomerase inhibitor pretreatment is an effective modality for anticancer gene therapy.
基金supported by the National Natural Science Foundation of China(Nos.31700869,31700868,31771096)the National Science Fund for Distinguished Young Scholars(No.NSFC31525009)+1 种基金the Fundamental Research Funds for the Central Universities/the Postdoctoral Research Foundation of Sichuan University(Nos.2017SCU12032,2017SCU12040)Sichuan Innovative Research Team Program for Young Scientists(No.2016TD0004)
文摘Camptothecin has a strong tumor killing ability for a variety of tumor cells with its special anti-cancer mechanism including the breast cancer. However, because of its infinite hydrophobic property, its clinical application has been greatly limited. Early prevention of loco regional recurrence for the breast cancer is critical for patients who have undergone breast-conserving therapy. In the study,CPT was used for the inhibition of the recurrence after the operation. The hollow mesoporous silica nanoparticles were used as the carrier to improve the hydrophilic property and increase its bioavailability with the high loading capacity. The ability of the cellular uptake and antitumor activity was increased. Hydrogel was the ideal carrier for local therapy, so the CPT@HMSNs were loaded into the PLEL thermo sensitive hydrogel to be injected into the tumor sites after the tumor was resected. The recurrence was reduced in the group of CPT-HMSNs-PLEL and the side effect of CPT was decreased. They exhibit distinguished potential as drug carrier for local delivery.
基金supported by the National Natural Science Foundation of China (31171878,31071707 and 31000851)
文摘Creating high-efifcient and environment-friendly pesticides is very important to produce the pollution free agriculture food and maintain the balance of the survival environmental of the human being. According to reports, camptothecin (CPT) and its derivatives are now being explored as a class of botanical insecticide in agriculture due to its novel mode of action. In order to improve the insecticidal activity of CPT, ten novel camptothecin (1) and 10-hydroxycamptothecin (2) derivatives (1a, 1b, 1c, 1d, 1e;2a, 2b, 2c, 2d, 2e) were designed and synthesized via esteriifcation with analogs of chrysanthemic acid, which have outstanding insecticidal activity. The results showed that compound 2a exhibited potent antifeeding effect and the best contact toxicity among the target compounds against the third-instar larvae of beet armyworm, Spodoptera exigua Hübner. Compound 2a was also found to be the most effective cytotoxic compound to the tested insect cell lines, IOZCAS-Spex-II, which were established from the fat bodies of S. exigua. It was proposed that the 10-hydroxyl group in the camptothecin derivatives is a key factor for the antifeeding activity of a compound. The nature of the substituents was considered the major factor in determining the insecticidal activity of these compounds.
基金Supported by the Natural Science Foundation of Jiangsu Province, China(No. BK2003081)
文摘To improve the biological anticancer activity of 20 (S)-camptothecin, a novel class of 20 (S)-20-O-camptotheein β-aminopropionates were designed and synthesized with eamptothecins as the starting materials, through acylation with acryloyl chloride followed by Michael's addition. Twelve esters, 1a-1d, 4a-4d and 5a-5d, were synthesized and evaluated by using MTT assay method. The results demonstrate that all these compounds show a potential eytotoxicity on KB, HT-29, HCT-8, and Bel7402 tumor cell lines. Some compounds, 1d, 4c, 5b, 5c and 5d, show a higher cytoto-xicity on KB and HCT-8 compared with eamptotheein.
基金the financial support by Program for New Century Excellent Talents in University.
文摘Several 7-alkynyl camptothecin derivatives were prepared via Sonogashira coupling. And anti-tumor activities of these compounds were evaluated against human esophageal cancer cell line (Eca-109), human chronic myeloid leukaemia cell line (K562), bladder cancer cell line (5637) and gastric cell line (SGC7901). Compounds 9a--d and 10a exhibited remarkable in vitro cytotoxic activity, compared with topotecan.
基金National Key Research and Development Program of China (Grant No. 2019YFA0904800)Science and Technology Commission of Shanghai Municipality (Grant No. 11DZ2260600 and 10DZ2220500)Shanghai Natural Science Fund (Grant No. 20ZR1414700)。
文摘Stimuli-responsive drug delivery systems based on polymeric micelles can achieve controlled drug release to improve the therapeutic outcome and reduce unwanted systematic toxicity and side effects of the cytotoxic drug in chemotherapy but often face challenging synthesis and purification of functionalized biocompatible polymer materials and low drug loading efficiency. In the present study, we reported a novel redox-responsive self-assembly polymeric micelle system, mPEG-β-CD/Ad-SS-CPT, to achieve high loading efficiency and selective delivery of camptothecin(CPT) in a reductive environment inside cancer cells. The host-vip supramolecular micelles utilized a simple β-CD modified PEG, mPEG-β-cyclodextrin(mPEG-β-CD), as the polymeric host with the ease of synthesis and purification. The vip prodrug Ad-SS-CPT contained the disulfide bond as the redox sensitivity group. The selective cleavage of disulfide bond and subsequent drug release in a reductive environment could potentially reduce system toxicity and improve the therapeutic outcome of CPT. In vitro studies showed that the micelles exhibited excellent cytotoxicity against He La cells comparable to the free drug. The host-vip polymeric micelles also showed great potentials for multi-drug co-delivery. Collectively, our current findings provided a general and convenient approach to design drug delivery systems based on stimuli-responsive polymeric micelles for disease treatment.
基金Funded by the Health Department Science Foundation of Sichuan(Grant No. 2011-236)
文摘Density function M06 method has been used to optimize the geometries of camptothecin-cytosine at 6-3 I+G* basis. Finally, thirteen stabilized complexes have been obtained. Theories of atoms in molecules (AIM) and natural bond orbital (NBO) have been utilized to investigate the hydrogen bonds involved in all the complexes. The interaction energies of all the complexes are corrected by basis set superposition error (BSSE). By the analysis of complexes interaction energy, charge density, second- order interaction energies E(2); it is indicated that the complex 6 is the most stable structure.
