Acute myeloid leukemia (AML), a rapidly progressing hematopoietic malignancy, can only be cured hopefully by hematopoietic stem cells transplantation (HSCT). Before HSCT, we usually exert effects by attempting certain...Acute myeloid leukemia (AML), a rapidly progressing hematopoietic malignancy, can only be cured hopefully by hematopoietic stem cells transplantation (HSCT). Before HSCT, we usually exert effects by attempting certain regimens to induce these tumor cells to death. Administered in AML patients, the classic “3 + 7” intensive induction regimen including anthracyclines and cytarabine is recommended by guidelines worldwide. However, conventional regimens consist of anthracyclines, a category of drug limited by cumulative, dose-related, progressive myocardial damage and congestive heart failure occurs when its total doses break through the cut-off. Based on this background, mitoxantrone (MIT), an anthraquinone, was developed to a new form to reduce cardiotoxicity. Meanwhile, the nanomedicine, mitoxantrone liposome (Lipo-MIT), was characterized by improved bioavailability and limited toxicity. This drug has great therapeutic potential, but different side effects. We conclude the overall history and development of MIT and Lipo-MIT, which show controversial efficacy of MIT compared to doxorubicin and therapeutic potential of Lipo-MIT. This article reviewed the application of MIT and liposome forms in adult AML patients. .展开更多
AIM To study the anticarcinogenic effect and acute toxicity of liver targeting mitoxantrone nanospheres. METHODS The anticarcinogenic effect of mitoxantrone polybutylcyanoacrylate nanoparticles (DHAQ PBCA NP) was inve...AIM To study the anticarcinogenic effect and acute toxicity of liver targeting mitoxantrone nanospheres. METHODS The anticarcinogenic effect of mitoxantrone polybutylcyanoacrylate nanoparticles (DHAQ PBCA NP) was investigated by using heterotopic and orthotopic transplantation models of human hepatocellular carcinoma (HCC) in nude mice and was compared with mitoxantrone (DHAQ) and doxorubicin (ADR). The acute toxicity of DHAQ PBCA NP lyophilized injection in mice was also studied. RESULTS The tumor inhibition rates of ADR, DHAQ, DHAQ PBCA NP to orthotopically transplanted HCC were 60 07%, 67 49% and 99 44%, respectively, but regard to heterotopically transplanted HCC, these were 80 03%, 86 18% and 92 90%, which were concordant with the results acquired by mitosis counting and proliferating cell nuclear antigen (PCNA). After iv administration to mice with DHAQ PBCA NP, the LD 50 was 16 9*!mg/*!kg ± 3 9*!mg/*!kg , no obvious local irritation was observed and there was no significant damage to the structure of liver cells, and that of the heart, spleen and kidneys. CONCLUSION The effect of DHAQ PBCA NP was significantly higher than that of DHAQ and ADR in the anti orthotopically transplanted HCC and the acute toxicity was relatively low.展开更多
A novel CS-dispersed graphene modified glassy carbon electrode was fabricated. Study electrochemical characteristics of mitoxantrone in the CS-dispersed graphene modified electrode by cyclic voltammetry and other meth...A novel CS-dispersed graphene modified glassy carbon electrode was fabricated. Study electrochemical characteristics of mitoxantrone in the CS-dispersed graphene modified electrode by cyclic voltammetry and other methods, by selecting and optimizing the various parameters to create a new electrochemical method for the determination of mitoxantrone. The linear range of the oxidation peak current is from 6×10–10 to 1 ×10–6 mol/l in this method, after 2.5 mins open-circuit accumulation, the limit of detection is 2×10–10 mol/l. After 10 parallel determinations, the relative standard deviation was 3.7% that the concentration of mitoxantrone was 1×10–8 mol/l. The modified electrode has been successfully applied for the assay of mitoxantrone in human urine samples.展开更多
ABSTRACT In an attempt at a rational design for anticancer drugs, two new potential anticancer compounds related to mitoxantrone were prepared. Compounds 4. 1.4-dihydroxy-6-aminoethyl-9.10-anthracenedione was synthesi...ABSTRACT In an attempt at a rational design for anticancer drugs, two new potential anticancer compounds related to mitoxantrone were prepared. Compounds 4. 1.4-dihydroxy-6-aminoethyl-9.10-anthracenedione was synthesized in 6 steps starting with 4-methyl-phthalic acid, and compound 5, 2(4-aminobutyl)-l 4-dihvdroxv-9,10-anthracenedione was synthesized in 5 steps from N-3-bromopropylphthalimide.展开更多
We report on the formation of conjugates of superparamagnetic iron nanoparticles(NPs)with the chemotherapeutic agent mitroxantrone(MTX).The NPs are synthesized from mixed iron oxides and are ca.15 nm in diameter.Decor...We report on the formation of conjugates of superparamagnetic iron nanoparticles(NPs)with the chemotherapeutic agent mitroxantrone(MTX).The NPs are synthesized from mixed iron oxides and are ca.15 nm in diameter.Decoration of the NP surface with MTX is accomplished with standard coupling chemistry techniques using sebacic acid as the coupling agent.The resulting NP-MTX conjugate is characterized thermogravimetrically,spectroscopically and electrochemically.The interactions of the NP-MTX conjugate with a model lipid layer formed as a Langmuir-Blodgett(LB)film reveal that the nanoparticle exhibits a significant perturbative effect on the layer,as seen from translational diffusion(FRAP)measurements.Evaluation of the cytotoxicity of the conjugate relative to that of free MTX demonstrates that the NP-MTX conjugate is more toxic than free MTX for both normal and malignant cell lines.These results underscore the importance of targeted delivery in the administration of chemotherapeutic agents.展开更多
Objective: To study the effects of pirarubicin and mitoxantrone for bladder cancer perfusion chemotherapy on the expression of malignant molecules in serum and lavage fluid. Methods:Patients with advanced bladder canc...Objective: To study the effects of pirarubicin and mitoxantrone for bladder cancer perfusion chemotherapy on the expression of malignant molecules in serum and lavage fluid. Methods:Patients with advanced bladder cancer who underwent bladder cancer perfusion chemotherapy in our hospital between March 2015 and December 2017 were selected and randomly divided into the THP group who accepted pirarubicin perfusion chemotherapy and the MTZ group who accepted mitoxantrone perfusion chemotherapy. The serum was collected before and after chemotherapy to determine the contents of tumor markers in serum;the lavage liquid was collected after chemotherapy to determine the contents of malignant molecules. Results:Compared with those of same group before chemotherapy, CXCL5, VEGF, CYFRA21-1, DKK1 and DKK3 contents in serum of both group of patients decreased chemotherapy, and CXCL5, VEGF, CYFRA21-1, DKK1 and DKK3 contents in serum of MTZ group after chemotherapy were lower than those of THP group;ILP-2, CyclinD1, Twist, EpCAM and MMP2 contents in lavage liquid of MTZ group were significantly lower than those of THP group whereas Bad, Bax, TRAIL, FasL, E-cadherin and TIMP4 contents were significantly higher than those of THP group. Conclusion: Mitoxantrone for bladder cancer perfusion chemotherapy can be more effectively than pirarubicin to regulate the expression of malignant molecules.展开更多
In the process of cell apoptosis induced by specific reagents,calreticulin(CRT)in endoplasmic reticulum is transferred and coated onto the cell membrane.As a sort of specific ligand,the CRT on the surface of apoptotic...In the process of cell apoptosis induced by specific reagents,calreticulin(CRT)in endoplasmic reticulum is transferred and coated onto the cell membrane.As a sort of specific ligand,the CRT on the surface of apoptotic cells could mediate recognition and clearance of apoptotic cells by phagocytes.In this research we discovered that mitoxantrone could induce apoptosis of mouse melonoma B16-F1 tumor cells,accompanied by the membrane translocation and coating of CRT.When mitoxantrone-treated B16-F1 cells were used as antigen to inoculate mice,the mice acquired an ability to suppress proliferation of homologous tumor cells.Splenocytes from these mice showed an increased cytolytic effect on homologous B16-F1 cells but no such effect on non-homologous H22 tumor cells.All these results suggested that mitoxantrone-treated apoptotic B16-F1 cells could be used as a sort of cell vaccine to initiate effective anti-tumor immunoresponse in mice.展开更多
In this study,we prepared mitochondrion targeting peptide-grafted magnetic graphene oxide(GO)nanocarriers for efficient impairment of the tumor mitochondria.The two-dimensional GOMNP-MitP nanosheets were synthesized b...In this study,we prepared mitochondrion targeting peptide-grafted magnetic graphene oxide(GO)nanocarriers for efficient impairment of the tumor mitochondria.The two-dimensional GOMNP-MitP nanosheets were synthesized by grafting magnetic y-Fe_(2)O_(3)to the surface of GO,followed by covalent modification of mitochondrion targeting peptide(MitP).GOMNP-MitP exhibited the high capacity of loading the anticancer drug mitoxantrone(MTX),and preferentially targeted the tumor mitochondria.With the aid of alternating magnetic field(AMF),the MTX-loading GOMNP-MitP released MTX to the mitochondria,severely impairing mitochondrial functions,including attenuation of ATP production,decrease in mitochondrial membrane potential(MMP),and further leading to activation of apoptosis.This study realized high-efficient mitochondrion-ta rgeting drug delivery for anticancer therapy by twodimensional nanoplatforms.展开更多
Neoadjuvant chemotherapy has become an indispensable weapon against high-risk resectable cancers,which benefits from tumor downstaging.However,the utility of chemotherapeutics alone as a neoadjuvant agent is incapable...Neoadjuvant chemotherapy has become an indispensable weapon against high-risk resectable cancers,which benefits from tumor downstaging.However,the utility of chemotherapeutics alone as a neoadjuvant agent is incapable of generating durable therapeutic benefits to prevent postsurgical tumor metastasis and recurrence.Herein,a tactical nanomissile(TALE),equipped with a guidance system(PD-L1 monoclonal antibody),ammunition(mitoxantrone,Mit),and projectile bodies(tertiary amines modified azobenzene derivatives),is designed as a neoadjuvant chemo-immunotherapy setting,which aims at targeting tumor cells,and fast-releasing Mit owing to the intracellular azoreductase,thereby inducing immunogenic tumor cells death,and forming an in situ tumor vaccine containing damage-associated molecular patterns and multiple tumor antigen epitopes to mobilize the immune system.The formed in situ tumor vaccine can recruit and activate antigen-presenting cells,and ultimately increase the infiltration of CD8^(+)T cells while reversing the immunosuppression microenvironment.Moreover,this approach provokes a robust systemic immune response and immunological memory,as evidenced by preventing 83.3%of mice from postsurgical metastasis or recurrence in the B16-F10 tumor mouse model.Collectively,our results highlight the potential of TALE as a neoadjuvant chemo-immunotherapy paradigm that can not only debulk tumors but generate a long-term immunosurveillance to maximize the durable benefits of neoadjuvant chemotherapy.展开更多
文摘Acute myeloid leukemia (AML), a rapidly progressing hematopoietic malignancy, can only be cured hopefully by hematopoietic stem cells transplantation (HSCT). Before HSCT, we usually exert effects by attempting certain regimens to induce these tumor cells to death. Administered in AML patients, the classic “3 + 7” intensive induction regimen including anthracyclines and cytarabine is recommended by guidelines worldwide. However, conventional regimens consist of anthracyclines, a category of drug limited by cumulative, dose-related, progressive myocardial damage and congestive heart failure occurs when its total doses break through the cut-off. Based on this background, mitoxantrone (MIT), an anthraquinone, was developed to a new form to reduce cardiotoxicity. Meanwhile, the nanomedicine, mitoxantrone liposome (Lipo-MIT), was characterized by improved bioavailability and limited toxicity. This drug has great therapeutic potential, but different side effects. We conclude the overall history and development of MIT and Lipo-MIT, which show controversial efficacy of MIT compared to doxorubicin and therapeutic potential of Lipo-MIT. This article reviewed the application of MIT and liposome forms in adult AML patients. .
基金Supparted by the National Natural Sciences Foundation of China,No.39270786.
文摘AIM To study the anticarcinogenic effect and acute toxicity of liver targeting mitoxantrone nanospheres. METHODS The anticarcinogenic effect of mitoxantrone polybutylcyanoacrylate nanoparticles (DHAQ PBCA NP) was investigated by using heterotopic and orthotopic transplantation models of human hepatocellular carcinoma (HCC) in nude mice and was compared with mitoxantrone (DHAQ) and doxorubicin (ADR). The acute toxicity of DHAQ PBCA NP lyophilized injection in mice was also studied. RESULTS The tumor inhibition rates of ADR, DHAQ, DHAQ PBCA NP to orthotopically transplanted HCC were 60 07%, 67 49% and 99 44%, respectively, but regard to heterotopically transplanted HCC, these were 80 03%, 86 18% and 92 90%, which were concordant with the results acquired by mitosis counting and proliferating cell nuclear antigen (PCNA). After iv administration to mice with DHAQ PBCA NP, the LD 50 was 16 9*!mg/*!kg ± 3 9*!mg/*!kg , no obvious local irritation was observed and there was no significant damage to the structure of liver cells, and that of the heart, spleen and kidneys. CONCLUSION The effect of DHAQ PBCA NP was significantly higher than that of DHAQ and ADR in the anti orthotopically transplanted HCC and the acute toxicity was relatively low.
文摘A novel CS-dispersed graphene modified glassy carbon electrode was fabricated. Study electrochemical characteristics of mitoxantrone in the CS-dispersed graphene modified electrode by cyclic voltammetry and other methods, by selecting and optimizing the various parameters to create a new electrochemical method for the determination of mitoxantrone. The linear range of the oxidation peak current is from 6×10–10 to 1 ×10–6 mol/l in this method, after 2.5 mins open-circuit accumulation, the limit of detection is 2×10–10 mol/l. After 10 parallel determinations, the relative standard deviation was 3.7% that the concentration of mitoxantrone was 1×10–8 mol/l. The modified electrode has been successfully applied for the assay of mitoxantrone in human urine samples.
文摘ABSTRACT In an attempt at a rational design for anticancer drugs, two new potential anticancer compounds related to mitoxantrone were prepared. Compounds 4. 1.4-dihydroxy-6-aminoethyl-9.10-anthracenedione was synthesized in 6 steps starting with 4-methyl-phthalic acid, and compound 5, 2(4-aminobutyl)-l 4-dihvdroxv-9,10-anthracenedione was synthesized in 5 steps from N-3-bromopropylphthalimide.
基金This work was supported by a Project Sonata(2016/23/D/ST4/03212)Project Opus(UMO-2016/21/B/ST4/02133)from National Science Centre(NCN).
文摘We report on the formation of conjugates of superparamagnetic iron nanoparticles(NPs)with the chemotherapeutic agent mitroxantrone(MTX).The NPs are synthesized from mixed iron oxides and are ca.15 nm in diameter.Decoration of the NP surface with MTX is accomplished with standard coupling chemistry techniques using sebacic acid as the coupling agent.The resulting NP-MTX conjugate is characterized thermogravimetrically,spectroscopically and electrochemically.The interactions of the NP-MTX conjugate with a model lipid layer formed as a Langmuir-Blodgett(LB)film reveal that the nanoparticle exhibits a significant perturbative effect on the layer,as seen from translational diffusion(FRAP)measurements.Evaluation of the cytotoxicity of the conjugate relative to that of free MTX demonstrates that the NP-MTX conjugate is more toxic than free MTX for both normal and malignant cell lines.These results underscore the importance of targeted delivery in the administration of chemotherapeutic agents.
基金Project of Hubei Provincial Natural Science Foundation ,No:(2012)30.
文摘Objective: To study the effects of pirarubicin and mitoxantrone for bladder cancer perfusion chemotherapy on the expression of malignant molecules in serum and lavage fluid. Methods:Patients with advanced bladder cancer who underwent bladder cancer perfusion chemotherapy in our hospital between March 2015 and December 2017 were selected and randomly divided into the THP group who accepted pirarubicin perfusion chemotherapy and the MTZ group who accepted mitoxantrone perfusion chemotherapy. The serum was collected before and after chemotherapy to determine the contents of tumor markers in serum;the lavage liquid was collected after chemotherapy to determine the contents of malignant molecules. Results:Compared with those of same group before chemotherapy, CXCL5, VEGF, CYFRA21-1, DKK1 and DKK3 contents in serum of both group of patients decreased chemotherapy, and CXCL5, VEGF, CYFRA21-1, DKK1 and DKK3 contents in serum of MTZ group after chemotherapy were lower than those of THP group;ILP-2, CyclinD1, Twist, EpCAM and MMP2 contents in lavage liquid of MTZ group were significantly lower than those of THP group whereas Bad, Bax, TRAIL, FasL, E-cadherin and TIMP4 contents were significantly higher than those of THP group. Conclusion: Mitoxantrone for bladder cancer perfusion chemotherapy can be more effectively than pirarubicin to regulate the expression of malignant molecules.
基金This study was supported by grants from the National Natural Science Foundation of China(No.30973445).
文摘In the process of cell apoptosis induced by specific reagents,calreticulin(CRT)in endoplasmic reticulum is transferred and coated onto the cell membrane.As a sort of specific ligand,the CRT on the surface of apoptotic cells could mediate recognition and clearance of apoptotic cells by phagocytes.In this research we discovered that mitoxantrone could induce apoptosis of mouse melonoma B16-F1 tumor cells,accompanied by the membrane translocation and coating of CRT.When mitoxantrone-treated B16-F1 cells were used as antigen to inoculate mice,the mice acquired an ability to suppress proliferation of homologous tumor cells.Splenocytes from these mice showed an increased cytolytic effect on homologous B16-F1 cells but no such effect on non-homologous H22 tumor cells.All these results suggested that mitoxantrone-treated apoptotic B16-F1 cells could be used as a sort of cell vaccine to initiate effective anti-tumor immunoresponse in mice.
基金supported by National Natural Science Foundation of China(No.31870139)Natural Science Foundation of Tianjin(No.19JCZDJC33800)+1 种基金Tianjin Synthetic Biotechnology Innovation Capacity Improvement Project(No.TSBICIP-KJGG-006)the Fundamental Research for the Central Universities。
文摘In this study,we prepared mitochondrion targeting peptide-grafted magnetic graphene oxide(GO)nanocarriers for efficient impairment of the tumor mitochondria.The two-dimensional GOMNP-MitP nanosheets were synthesized by grafting magnetic y-Fe_(2)O_(3)to the surface of GO,followed by covalent modification of mitochondrion targeting peptide(MitP).GOMNP-MitP exhibited the high capacity of loading the anticancer drug mitoxantrone(MTX),and preferentially targeted the tumor mitochondria.With the aid of alternating magnetic field(AMF),the MTX-loading GOMNP-MitP released MTX to the mitochondria,severely impairing mitochondrial functions,including attenuation of ATP production,decrease in mitochondrial membrane potential(MMP),and further leading to activation of apoptosis.This study realized high-efficient mitochondrion-ta rgeting drug delivery for anticancer therapy by twodimensional nanoplatforms.
基金financially supported by the National Natural Science Foundation of China(82172094)Funds of Sichuan Province for Distinguished Young Scholar(2021JDJQ0037,China)1.3.5 project for disciplines of excellence,West China Hospital,Sichuan University(ZYYC08002,China)。
文摘Neoadjuvant chemotherapy has become an indispensable weapon against high-risk resectable cancers,which benefits from tumor downstaging.However,the utility of chemotherapeutics alone as a neoadjuvant agent is incapable of generating durable therapeutic benefits to prevent postsurgical tumor metastasis and recurrence.Herein,a tactical nanomissile(TALE),equipped with a guidance system(PD-L1 monoclonal antibody),ammunition(mitoxantrone,Mit),and projectile bodies(tertiary amines modified azobenzene derivatives),is designed as a neoadjuvant chemo-immunotherapy setting,which aims at targeting tumor cells,and fast-releasing Mit owing to the intracellular azoreductase,thereby inducing immunogenic tumor cells death,and forming an in situ tumor vaccine containing damage-associated molecular patterns and multiple tumor antigen epitopes to mobilize the immune system.The formed in situ tumor vaccine can recruit and activate antigen-presenting cells,and ultimately increase the infiltration of CD8^(+)T cells while reversing the immunosuppression microenvironment.Moreover,this approach provokes a robust systemic immune response and immunological memory,as evidenced by preventing 83.3%of mice from postsurgical metastasis or recurrence in the B16-F10 tumor mouse model.Collectively,our results highlight the potential of TALE as a neoadjuvant chemo-immunotherapy paradigm that can not only debulk tumors but generate a long-term immunosurveillance to maximize the durable benefits of neoadjuvant chemotherapy.