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11	In vivo activation of the hypoxia-targeted cytotoxin AQ4N in human tumor xenografts Williams, K. J., Albertella, M. R., Fitzpatrick, B., Loadman, P. M., Shnyder, S. D., Chinje, E. C., Telfer, B. A., Dunk, C. R., Harris, P. A., Stratford, I. J. January 2009 (has links) AQ4N (banoxantrone) is a prodrug that, under hypoxic conditions, is enzymatically converted to a cytotoxic DNA-binding agent, AQ4. Incorporation of AQ4N into conventional chemoradiation protocols therefore targets both oxygenated and hypoxic regions of tumors, and potentially will increase the effectiveness of therapy. This current pharmacodynamic and efficacy study was designed to quantify tumor exposure to AQ4 following treatment with AQ4N, and to relate exposure to outcome of treatment. A single dose of 60 mg/kg AQ4N enhanced the response of RT112 (bladder) and Calu-6 (lung) xenografts to treatment with cisplatin and radiation therapy. AQ4N was also given to separate cohorts of tumor-bearing mice 24 hours before tumor excision for subsequent analysis of metabolite levels. AQ4 was detected by high performance liquid chromatography/mass spectrometry in all treated samples of RT112 and Calu-6 tumors at mean concentrations of 0.23 and 1.07 microg/g, respectively. These concentrations are comparable with those shown to be cytotoxic in vitro. AQ4-related nuclear fluorescence was observed in all treated tumors by confocal microscopy, which correlated with the high performance liquid chromatography/mass spectrometry data. The presence of the hypoxic marker Glut-1 was shown by immunohistochemistry in both Calu-6 tumors and RT112 tumors, and colocalization of AQ4 fluorescence and Glut-1 staining strongly suggested that AQ4N was activated in these putatively hypoxic areas. This is the first demonstration that AQ4N will increase the efficacy of chemoradiotherapy in preclinical models; the intratumoral levels of AQ4 found in this study are comparable with tumor AQ4 levels found in a recent phase I clinical study, which suggests that these levels could be potentially therapeutic. Animals Anoxia Anthraquinones/metabolism/pharmacology Antineoplastic Agents/pharmacology Cell Line, Tumor Chromatography, High Pressure Liquid Cisplatin/pharmacology Combined Modality Therapy Cytotoxins/metabolism/pharmacology Drug Synergism Female Humans Mass Spectrometry Mice Mice, Nude Microscopy, Confocal Neoplasms/metabolism/pathology/therapy Prodrugs/metabolism/pharmacology Radiotherapy/methods Treatment Outcome Xenograft Model Antitumor Assays REF 2014
12	A PK2/Bv8/PROK2 antagonist suppresses tumorigenic processes by inhibiting angiogenesis in glioma and blocking myeloid cell infiltration in pancreatic cancer. Curtis, VF, Wang, H, Yang, P, McLendon, RE, Li, X, Zhou, QY, Wang, XF January 2013 (has links) Infiltration of myeloid cells in the tumor microenvironment is often associated with enhanced angiogenesis and tumor progression, resulting in poor prognosis in many types of cancer. The polypeptide chemokine PK2 (Bv8, PROK2) has been shown to regulate myeloid cell mobilization from the bone marrow, leading to activation of the angiogenic process, as well as accumulation of macrophages and neutrophils in the tumor site. Neutralizing antibodies against PK2 were shown to display potent anti-tumor efficacy, illustrating the potential of PK2-antagonists as therapeutic agents for the treatment of cancer. In this study we demonstrate the anti-tumor activity of a small molecule PK2 antagonist, PKRA7, in the context of glioblastoma and pancreatic cancer xenograft tumor models. For the highly vascularized glioblastoma, PKRA7 was associated with decreased blood vessel density and increased necrotic areas in the tumor mass. Consistent with the anti-angiogenic activity of PKRA7 in vivo, this compound effectively reduced PK2-induced microvascular endothelial cell branching in vitro. For the poorly vascularized pancreatic cancer, the primary anti-tumor effect of PKRA7 appears to be mediated by the blockage of myeloid cell migration/infiltration. At the molecular level, PKRA7 inhibits PK2-induced expression of certain pro-migratory chemokines and chemokine receptors in macrophages. Combining PKRA7 treatment with standard chemotherapeutic agents resulted in enhanced effects in xenograft models for both types of tumor. Taken together, our results indicate that the anti-tumor activity of PKRA7 can be mediated by two distinct mechanisms that are relevant to the pathological features of the specific type of cancer. This small molecule PK2 antagonist holds the promise to be further developed as an effective agent for combinational cancer therapy. / Dissertation Animals Antineoplastic Agents Carrier Proteins Cell Line, Tumor Cell Movement Cell Transformation, Neoplastic Endothelial Cells Gastrointestinal Hormones Glioma Humans Macrophages Mice Myeloid Cells Neovascularization, Pathologic Nerve Tissue Proteins Neuropeptides Pancreatic Neoplasms Receptors, N-Methyl-D-Aspartate Tumor Burden Tumor Microenvironment Xenograft Model Antitumor Assays
13	Influência da vitamina D por via intratumoral na proliferação e expressão de genes alvo de xenoenxerto de câncer de mama de pacientes pós-menopausadas / Influence of vitamin D via intratumoral proliferation and expression of target genes in breast cancer xenografts in postmenopausal patients Fonseca Filho, Victor Celso Nogueira 02 December 2013 (has links) O efeito antiproliferativo do calcitriol foi detectado principalmente em linhagens de carcinoma mamário expostas in vitro a alta concentração hormonal (10 - 100nM), que é associado com hipercalcemia em seres humanos. Nossa hipótese era que a administração intratumoral de calcitriol permitiria maior concentração do hormônio e ativação da via genômica. Para testar esta hipótese, um modelo de enxerto tumoral que reproduz o mais próximo das características moleculares do tumor primário, foi estabelecida. As amostras de câncer de mama recolhidos foram enxertados em camundongos nude e depois da sexta semana, semana, os enxertos tumorais foram tratados semanalmente com injeções intra-tumorais de veículo (controle) ou o calcitriol 0,06 mcg (dose que pode permitir que picos séricos de calcitriol na faixa terapêutica prevista) durante seis semanas. A proliferação e apoptose do enxerto tumoral Veículo (controlo) ou o calcitriol 0,06 mcg (dose que pode permitir que o soro de pico, assim como, a expressão dos genes alvos foram avaliadas através de reações imunohistoquímica ou RT-PCR. A expressão de VDR foi detectada em todas as amostras, assim como uma tendência para maior expressão de mRNA CYP24A1 (indução 10-18 vezes) em amostras tratadas com calcitriol, indicando que a via genómica foi induzida pelo hormonio. O elevado índice proliferativo, avaliado pela expressão de Ki67, foi detectado. No entanto, não havia diferenças na expressão de marcadores de proliferação (incorporação de BrdU, Ki67 e CDKN1B expressão) nem marcadores de apoptose (caspase-3 clivada e BCL2 expressão) entre os enxertos tumorais tratados por veículo e calcitriol tratado. Além disso, não houve diferença entre os grupos detectada na expressão de mRNA do CDKN1A. Em resumo, os efeitos antitumorais não foram observados neste modelo de enxerto tumoral. A indução do gene alvo CYP24A1 pode ter em parte impedido os efeito antitumorais da vitamina D / Antiproliferative effects of calcitriol were mainly detected in breast carcinoma lineages exposed in vitro to high hormone concentrations (10-100 nM), which is associated with hypercalcemia in human beings. Our hypothesis was that intra-tumoral administration of calcitriol would allow higher issue concentration of the hormone and activation of the genomic pathway. To test this hypothesis, a tumorgraft model, that more closely reproduces the molecular characteristics of the primary tumor, was established. Freshly collected breast cancer samples were grafted in nude mice and after the 6th week, tumorgrafts were treated weekly with intra-tumoral injections of vehicle (control) or calcitriol 0.06 mcg (dose that may allow peak serum calcitriol levels in the predicted therapeutic range) for six weeks. Tumorgraft proliferation and apoptosis, as well as expression of target genes, were evaluated through immnunohistochemistry reactions or RT-PCR. VDR expression was detected in all samples as well as a trend towards higher expression of CYP24A1 mRNA (10-18 fold induction) in calcitriol treated samples, indicating that the genomic pathway was induced by the hormone. A high proliferative index, evaluated by Ki67 expression, was detected. However, there were neither differences in the expression of proliferation markers (BrdU incorporation, Ki67 and CDKN1B expression) nor in apoptosis markers (cleaved caspase 3 and BCL2 expression) between vehicle and calcitriol treated tumorgrafts. In addition, no difference between groups was detected for the expression of CDKN1A mRNA. In summary, calcitriol antitumoral effects were not observed in this tumorgraft model. Calcitriol induction of the target gene CYP24A1, might have in part, precluded vitamin D antitumoral effects Breast neoplasms/genetics Calcitriol Calcitriol Camundongos nus Carcinoma ductal breast Carcinoma ductal de mama/terapia Expressão gênica Gene expression Mice nude Neoplasias da mama/genética Proteína VDR humana Receptores de calcitriol Receptors calcitriol VDR protein human Vitamin D Vitamina D Xenograft model antitumor assays
14	Influência da vitamina D por via intratumoral na proliferação e expressão de genes alvo de xenoenxerto de câncer de mama de pacientes pós-menopausadas / Influence of vitamin D via intratumoral proliferation and expression of target genes in breast cancer xenografts in postmenopausal patients Victor Celso Nogueira Fonseca Filho 02 December 2013 (has links) O efeito antiproliferativo do calcitriol foi detectado principalmente em linhagens de carcinoma mamário expostas in vitro a alta concentração hormonal (10 - 100nM), que é associado com hipercalcemia em seres humanos. Nossa hipótese era que a administração intratumoral de calcitriol permitiria maior concentração do hormônio e ativação da via genômica. Para testar esta hipótese, um modelo de enxerto tumoral que reproduz o mais próximo das características moleculares do tumor primário, foi estabelecida. As amostras de câncer de mama recolhidos foram enxertados em camundongos nude e depois da sexta semana, semana, os enxertos tumorais foram tratados semanalmente com injeções intra-tumorais de veículo (controle) ou o calcitriol 0,06 mcg (dose que pode permitir que picos séricos de calcitriol na faixa terapêutica prevista) durante seis semanas. A proliferação e apoptose do enxerto tumoral Veículo (controlo) ou o calcitriol 0,06 mcg (dose que pode permitir que o soro de pico, assim como, a expressão dos genes alvos foram avaliadas através de reações imunohistoquímica ou RT-PCR. A expressão de VDR foi detectada em todas as amostras, assim como uma tendência para maior expressão de mRNA CYP24A1 (indução 10-18 vezes) em amostras tratadas com calcitriol, indicando que a via genómica foi induzida pelo hormonio. O elevado índice proliferativo, avaliado pela expressão de Ki67, foi detectado. No entanto, não havia diferenças na expressão de marcadores de proliferação (incorporação de BrdU, Ki67 e CDKN1B expressão) nem marcadores de apoptose (caspase-3 clivada e BCL2 expressão) entre os enxertos tumorais tratados por veículo e calcitriol tratado. Além disso, não houve diferença entre os grupos detectada na expressão de mRNA do CDKN1A. Em resumo, os efeitos antitumorais não foram observados neste modelo de enxerto tumoral. A indução do gene alvo CYP24A1 pode ter em parte impedido os efeito antitumorais da vitamina D / Antiproliferative effects of calcitriol were mainly detected in breast carcinoma lineages exposed in vitro to high hormone concentrations (10-100 nM), which is associated with hypercalcemia in human beings. Our hypothesis was that intra-tumoral administration of calcitriol would allow higher issue concentration of the hormone and activation of the genomic pathway. To test this hypothesis, a tumorgraft model, that more closely reproduces the molecular characteristics of the primary tumor, was established. Freshly collected breast cancer samples were grafted in nude mice and after the 6th week, tumorgrafts were treated weekly with intra-tumoral injections of vehicle (control) or calcitriol 0.06 mcg (dose that may allow peak serum calcitriol levels in the predicted therapeutic range) for six weeks. Tumorgraft proliferation and apoptosis, as well as expression of target genes, were evaluated through immnunohistochemistry reactions or RT-PCR. VDR expression was detected in all samples as well as a trend towards higher expression of CYP24A1 mRNA (10-18 fold induction) in calcitriol treated samples, indicating that the genomic pathway was induced by the hormone. A high proliferative index, evaluated by Ki67 expression, was detected. However, there were neither differences in the expression of proliferation markers (BrdU incorporation, Ki67 and CDKN1B expression) nor in apoptosis markers (cleaved caspase 3 and BCL2 expression) between vehicle and calcitriol treated tumorgrafts. In addition, no difference between groups was detected for the expression of CDKN1A mRNA. In summary, calcitriol antitumoral effects were not observed in this tumorgraft model. Calcitriol induction of the target gene CYP24A1, might have in part, precluded vitamin D antitumoral effects Calcitriol Camundongos nus Carcinoma ductal de mama/terapia Expressão gênica Neoplasias da mama/genética Proteína VDR humana Receptores de calcitriol Vitamina D Breast neoplasms/genetics Calcitriol Carcinoma ductal breast Gene expression Mice nude Receptors calcitriol VDR protein human Vitamin D Xenograft model antitumor assays
15	DSTYK Enhances Chemoresistance in Triple-Negative Breast Cancer Cells Ogbu, Stella C., Rojas, Samuel, Weaver, John, Musich, Phillip R., Zhang, Jinyu, Yao, Zhi Q., Jiang, Yong 29 December 2021 (has links) Breast cancer, as the most prevalent cancer in women, is responsible for more than 15% of new cancer cases and about 6.9% of all cancer-related death in the US. A major cause of therapeutic failure in breast cancer is the development of resistance to chemotherapy, especially for triple-negative breast cancer (TNBC). Therefore, how to overcome chemoresistance is the major challenge to improve the life expectancy of breast cancer patients. Our studies demonstrate that TNBC cells surviving the chronic treatment of chemotherapeutic drugs show significantly higher expression of the dual serine/threonine and tyrosine protein kinase (DSTYK) than non-treated parental cells. In our in vitro cellular models, DSTYK knockout via the CRISPR/Cas9-mediated technique results in apoptotic cell death of chemoresistant cells upon drug treatment. Moreover, DSTYK knockout promotes chemotherapeutic drug-induced tumor cell death in an orthotopic mouse model. These findings suggest that DSTYK exerts an important and previously unknown role in promoting chemoresistance. Our studies provide fundamental insight into the role of DSTYK in chemoresistance in TNBC cells and lay the foundation for the development of new strategies targeting DSTYK for improving TNBC therapy. CRISPR/Cas9 DSTYK TNBC inbred NOD breast cancer chemoresistance animals apoptosis (genetics) cell line tumor drug resistance neoplasm female gene expression regulation neoplastic gene knockout techniques humans mice survival analysis enzymology genetics pathology) up-regulation (genetics) xenograft model antitumor assays Biomedical Sciences Internal Medicine
16	The microtubule depolymerizing agent CYT997 causes extensive ablation of tumor vasculature in vivo Burns, C.J., Fantino, E., Powell, A.K., Shnyder, Steven, Cooper, Patricia A., Nelson, S., Christophi, C., Malcontenti-Wilson, C., Dubljevic, V., Harte, M.F., Joffe, M., Phillips, I.D., Segal, D., Wilks, A.F., Smith, G.D. January 2011 (has links) No / The orally active microtubule-disrupting agent (S)-1-ethyl-3-(2-methoxy-4-(5-methyl-4-((1-(pyridin-3-yl)butyl)amino)pyrimidin-2- yl)phenyl)urea (CYT997), reported previously by us (Bioorg Med Chem Lett 19:4639-4642, 2009; Mol Cancer Ther 8:3036-3045, 2009), is potently cytotoxic to a variety of cancer cell lines in vitro and shows antitumor activity in vivo. In addition to its cytotoxic activity, CYT997 possesses antivascular effects on tumor vasculature. To further characterize the vascular disrupting activity of CYT997 in terms of dose and temporal effects, we studied the activity of the compound on endothelial cells in vitro and on tumor blood flow in vivo by using a variety of techniques. In vitro, CYT997 is shown to potently inhibit the proliferation of vascular endothelial growth factor-stimulated human umbilical vein endothelial cells (IC(50) 3.7 +/- 1.8 nM) and cause significant morphological changes at 100 nM, including membrane blebbing. Using the method of corrosion casting visualized with scanning electron microscopy, a single dose of CYT997 (7.5 mg/kg i.p.) in a metastatic cancer model was shown to cause destruction of tumor microvasculature in metastatic lesions. Furthermore, repeat dosing of CYT997 at 10 mg/kg and above (intraperitoneally, b.i.d.) was shown to effectively inhibit development of liver metastases. The time and dose dependence of the antivascular effects were studied in a DLD-1 colon adenocarcinoma xenograft model using the fluorescent dye Hoechst 33342. CYT997 demonstrated rapid and dose-dependent vascular shutdown, which persists for more than 24 h after a single oral dose. Together, the data demonstrate that CYT997 possesses potent antivascular activity and support continuing development of this promising compound. Angiogenesis inhibitors Animals Antineoplastic agents Cell line Cell proliferation Colonic neoplasms Dose-response relationship Drug screening assays Human umbilical vein endothelial cells Humans Liver neoplasms Male Mice Nude Neovascularization Pyridines Pyrimidines Time factors Tubulin modulators Xenograft model antitumor assays REF 2014
17	Antitumor activity of a duocarmycin analogue rationalized to be metabolically activated by cytochrome P450 1A1 in human transitional cell carcinoma of the bladder Sutherland, Mark, Gill, Jason H., Loadman, Paul, Laye, Jonathan P., Sheldrake, Helen M., Illingworth, Nicola A., Alandas, Mohammed N., Cooper, Patricia A., Searcey, M., Pors, Klaus, Shnyder, Steven, Patterson, Laurence H. 01 October 2012 (has links) No / We identify cytochrome P450 1A1 (CYP1A1) as a target for tumor-selective drug development in bladder cancer and describe the characterization of ICT2700, designed to be metabolized from a prodrug to a potent cytotoxin selectively by CYP1A1. Elevated CYP1A1 expression was shown in human bladder cancer relative to normal human tissues. RT112 bladder cancer cells, endogenously expressing CYP1A1, were selectively chemosensitive to ICT2700, whereas EJ138 bladder cells that do not express CYP1A1 were significantly less responsive. Introduction of CYP1A1 into EJ138 cells resulted in 75-fold increased chemosensitivity to ICT2700 relative to wild-type EJ138. Negligible chemosensitivity was observed in ICT2700 in EJ138 cells expressing CYP1A2 or with exposure of EJ138 cells to CYP1B1- or CYP3A4-generated metabolites of ICT2700. Chemosensitivity to ICT2700 was also negated in EJ138-CYP1A1 cells by the CYP1 inhibitor alpha-naphthoflavone. Furthermore, ICT2700 did not induce expression of the AhR-regulated CYP1 family, indicating that constitutive CYP1A1 expression is sufficient for activation of ICT2700. Consistent with the selective activity by CYP1A1 was a time and concentration-dependent increase in gamma-H2AX protein expression, indicative of DNA damage, associated with the activation of ICT2700 in RT112 but not EJ138 cells. In mice-bearing CYP1A1-positive and negative isogenic tumors, ICT2700 administration resulted in an antitumor response only in the CYP1A1-expressing tumor model. This antitumor response was associated with detection of the CYP1A1-activated metabolite in tumors but not in the liver. Our findings support the further development of ICT2700 as a tumor-selective treatment for human bladder cancers. Animals Antineoplastic agents Biotransformation CHO cells Carcinoma Cell line Tumor Cell survival Cricetinae Cytochrome P-450 CYP1A1 Female Gene expression Humans Indoles Liver Maximum tolerated dose Mice Inbred BALB C Microsomes Pyrroles Tumor burden Urinary bladder neoplasms Xenograft model antitumor assays REF 2014 Metabolism Pharmacokinetics Pharmacology Transitional cell Drug therapy Enzymology Pathology Genetics
18	Colon cancer-specific cytochrome P450 2W1 converts duocarmycin analogues into potent tumor cytotoxins Travica, S., Pors, Klaus, Loadman, Paul, Shnyder, Steven, Johansson, I., Alandas, Mohammed N., Sheldrake, Helen M., Mkrtchian, S., Patterson, Laurence H., Ingelman-Sundberg, M. January 2013 (has links) No / PURPOSE: Cytochrome P450 2W1 (CYP2W1) is a monooxygenase detected in 30% of colon cancers, whereas its expression in nontransformed adult tissues is absent, rendering it a tumor-specific drug target for development of novel colon cancer chemotherapy. Previously, we have identified duocarmycin synthetic derivatives as CYP2W1 substrates. In this study, we investigated whether two of these compounds, ICT2705 and ICT2706, could be activated by CYP2W1 into potent antitumor agents. EXPERIMENTAL DESIGN: The cytotoxic activity of ICT2705 and ICT2706 in vitro was tested in colon cancer cell lines expressing CYP2W1, and in vivo studies with ICT2706 were conducted on severe combined immunodeficient mice bearing CYP2W1-positive colon cancer xenografts. RESULTS: Cells expressing CYP2W1 suffer rapid loss of viability following treatment with ICT2705 and ICT2706, whereas the CYP2W1-positive human colon cancer xenografts display arrested growth in the mice treated with ICT2706. The specific cytotoxic metabolite generated by CYP2W1 metabolism of ICT2706 was identified in vitro. The cytotoxic events were accompanied by an accumulation of phosphorylated H2A.X histone, indicating DNA damage as a mechanism for cancer cell toxicity. This cytotoxic effect is most likely propagated by a bystander killing mechanism shown in colon cancer cells. Pharmacokinetic analysis of ICT2706 in mice identified higher concentration of the compound in tumor than in plasma, indicating preferential accumulation of drug in the target tissue. CONCLUSION: Our findings suggest a novel approach for treatment of colon cancer that uses a locoregional activation of systemically inactive prodrug by the tumor-specific activator enzyme CYP2W1. Animals Bystander effect Cell line Colonic neoplasms Cytochrome P-450 enzyme system Cytotoxins DNA damage Drug resistance Female Gene expression Heterocyclic compounds Humans Indoles Mice Tissue distribution Tumor burden Xenograft model antitumor assays REF 2014 Tumor 3-Ring Neoplasm Drug effects Pharmacokinetics Toxicity Metabolism Enzymology Genetics Pathology
19	The dual-acting chemotherapeutic agent Alchemix induces cell death independently of ATM and p53 Thomas, A., Perry, T., Berhane, S., Oldreive, C., Zlatanou, A., Williams, L.R., Weston, V.J., Stankovic, T., Kearns, P., Pors, Klaus, Grand, R.J., Stewart, G.S. 06 January 2015 (has links) Yes / Topoisomerase inhibitors are in common use as chemotherapeutic agents although they can display reduced efficacy in chemotherapy-resistant tumours, which have inactivated DNA damage response (DDR) genes, such as ATM and TP53. Here, we characterise the cellular response to the dual-acting agent, Alchemix (ALX), which is a modified anthraquinone that functions as a topoisomerase inhibitor as well as an alkylating agent. We show that ALX induces a robust DDR at nano-molar concentrations and this is mediated primarily through ATR- and DNA-PK- but not ATM-dependent pathways, despite DNA double strand breaks being generated after prolonged exposure to the drug. Interestingly, exposure of epithelial tumour cell lines to ALX in vitro resulted in potent activation of the G2/M checkpoint, which after a prolonged arrest, was bypassed allowing cells to progress into mitosis where they ultimately died by mitotic catastrophe. We also observed effective killing of lymphoid tumour cell lines in vitro following exposure to ALX, although, in contrast, this tended to occur via activation of a p53-independent apoptotic pathway. Lastly, we validate the effectiveness of ALX as a chemotherapeutic agent in vivo by demonstrating its ability to cause a significant reduction in tumour cell growth, irrespective of TP53 status, using a mouse leukaemia xenograft model. Taken together, these data demonstrate that ALX, through its dual action as an alkylating agent and topoisomerase inhibitor, represents a novel anti-cancer agent that could be potentially used clinically to treat refractory or relapsed tumours, particularly those harbouring mutations in DDR genes. Animals Anthraquinones Antigens Antineoplastic agents Ataxia telangiectasia mutated proteins Cell death Cell line DNA damage DNA repair DNA replication DNA topoisomerases DNA-Binding proteins Dose-response relationship G2 phase cell cycle checkpoints Humans Leukemia M phase cell cycle checkpoints Mice Topoisomerase inhibitors Tumor suppressor protein p53 Xenograft model antitumor assays

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