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3. Discovery and Pharmacological Evaluation of STEAP4 as a Novel Target for HER2 Overexpressing Breast Cancer

Author

Orfanou, I.-M. Argyros, O. Papapetropoulos, A. Tseleni-Balafouta, S. Vougas, K. Tamvakopoulos, C.

Subjects
skin and connective tissue diseases
Abstract

Breast cancer (BC) is a highly heterogeneous disease encompassing multiple subtypes with different molecular and histopathological features, disease prognosis, and therapeutic responses. Among these, the Triple Negative BC form (TNBC) is an aggressive subtype with poor prognosis and therapeutic outcome. With respect to HER2 overexpressing BC, although advanced targeted therapies have improved the survival of patients, disease relapse and metastasis remains a challenge for therapeutic efficacy. In this study the aim was to identify key membrane-associated proteins which are overexpressed in these aggressive BC subtypes and can serve as potential biomarkers or drug targets. We leveraged on the development of a membrane enrichment protocol in combination with the global profiling GeLC-MS/MS technique, and compared the proteomic profiles of a HER2 overexpressing (HCC-1954) and a TNBC (MDA-MB-231) cell line with that of a benign control breast cell line (MCF-10A). An average of 2300 proteins were identified from each cell line, of which approximately 600 were membrane-associated proteins. Our global proteomic methodology in tandem with invigoration by Western blot and Immunofluorescence analysis, readily detected several previously-established BC receptors like HER2 and EPHA2, but importantly STEAP4 and CD97 emerged as novel potential candidate markers. This is the first time that the mitochondrial iron reductase STEAP4 protein up-regulation is linked to BC (HER2+ subtype), while for CD97, its role in BC has been previously described, but never before by a global proteomic technology in TNBC. STEAP4 was selected for further detailed evaluation by the employment of Immunohistochemical analysis of BC xenografts and clinical tissue microarray studies. Results showed that STEAP4 expression was evident only in malignant breast tissues whereas all the benign breast cases had no detectable levels. A functional role of STEAP4 intervention was established in HER2 overexpressing BC by pharmacological studies, where blockage of the STEAP4 pathway with an iron chelator (Deferiprone) in combination with the HER2 inhibitor Lapatinib led to a significant reduction in cell growth in vitro. Furthermore, siRNA mediated knockdown of STEAP4 also suppressed cell proliferation and enhanced the inhibition of Lapatinib in HER2 overexpressing BC, confirming its potential oncogenic role in BC. In conclusion, STEAP4 may represent a novel BC related biomarker and a potential pharmacological target for the treatment of HER2 overexpressing BC. © Copyright © 2021 Orfanou, Argyros, Papapetropoulos, Tseleni-Balafouta, Vougas and Tamvakopoulos.

Published
2021

4. Discovery of new aminosubstituted pyrrolopyrimidines with antiproliferative activity against breast cancer cells and investigation of their effect towards the PI3Kα enzyme

Author

Daniilides, K. Lougiakis, N. Evangelidis, T. Kostakis, I.K. Pouli, N. Marakos, P. Mikros, E. Skaltsounis, A.-L. Bach, S. Baratte, B. Ruchaud, S. Karamani, V. Papafotika, A. Christoforidis, S. Argyros, O. Kouvari, E. Tamvakopoulos, C.

Abstract

Objective: A series of novel 2,4-diaminosubstituted pyrrolo[3,2-d]pyrimidines was synthesized together with their corresponding 7-phenyl or 7-isopropyl counterparts. Results: Among the target derivatives, the 7-substituted analogues exhibited interesting cytotoxic activity against a panel of PI3Kα related human breast cancer cell lines, namely MCF7, T47D, MDA-MB-231 and HCC1954. Selected compounds were tested for potential PI3Kα inhibitory activity as well as for their cytotoxic effect in prostate cancer cell lines (DU145 and PC3). Conclusion: Derivatives bearing a specific substitution pattern consisting of 7-phenyl as well as a 2-(4- aminocyclohexylamino) moiety (16c, 16f) display kinase inhibitory activity, elucidated on the basis of molecular simulation studies, which revealed their interaction with the DFG motif of the kinase. © 2017, Bentham Science Publishers.

Published
2017

5. Design and synthesis of novel 7-aminosubstituted pyrido[2,3-b]pyrazines exhibiting anti-breast cancer activity

Author

Argyros, O. Lougiakis, N. Kouvari, E. Papafotika, A. Raptopoulou, C.P. Psycharis, V. Christoforidis, S. Pouli, N. Marakos, P. Tamvakopoulos, C.

Abstract

Breast cancer (BrCa) remains an unmet medical need despite the revolutionary development of antibody treatments and protein kinase inhibitors. In the current study, a series of novel substituted pyridopyrazine derivatives have been rationally designed and evaluated as multi-kinase inhibitors in the PI3K pathway. The target compounds were prepared from 6-amino-2-picoline, which upon nitration and selective reduction was converted to suitably substituted 6-methyl-7-aminopyrido[2,3-b]pyrazines. Suitable manipulation of the former amines provided the designed analogues, which were then assessed in vitro against several BrCa cell lines using the MTT cytotoxicity assay. The most potent compounds underwent evaluation in a broad spectrum of protein kinases, while their pharmacokinetic parameters were measured by LC-MS/MS. In vivo evaluation of a hit compound (14a) was performed in a HER2 amplified BrCa xenograft model (HCC1954) and efficacy was determined using Western blot based phosphokinase assays and immunohistochemistry. This derivative showed low micromolar cytotoxic potency in all BrCa cell lines, a mild inhibition of the PI3Kα wild type and H1047R mutated enzyme and excellent pharmacokinetic parameters following oral and intraperitoneal administration at the designed dose of 10 mg/kg, with absence of in vivo phenotypic toxicity. Interestingly, compound 14a inhibited the growth of xenografted tumors. Analysis of excised tumors from the treated animals showed a significantly reduced population of Ki-67 positive cells, as well as downregulated levels of phosphorylated AKT, ERK1/2 and SRC compared to vehicle treated animals. Finally, the specificity of 14a was assessed in a panel of 31 kinases where a mild, but direct, inhibition of the MET receptor tyrosine kinase was observed. © 2016 Elsevier Masson SAS

Published
2017

6. Development of a new S/MAR containing Minicircle DNA vector: a new promise for Gene Therapy

Author

NICETA, Marcello, CORSELLO, Giovanni, Wong, SP, Argyros, O, Tolmachov, O, Krampitz, S, Coutelle, C, Harbottle, RP, Niceta, M, Wong, SP, Argyros, O, Tolmachov, O, Krampitz, S, Coutelle, C, Corsello, G, and Harbottle, RP

Subjects
Settore MED/38 - Pediatria Generale E Specialistica, “Minicircle VECTOR", S/MAR
Abstract

A barrier limiting the use of nonviral vectors for gene therapy is related to the short duration of transgene expression in vivo. Development, evaluation, and optimisation of a long term transgene expression using a non viral vector is currently the primary aim in our research field. Recently, we have demonstrate that a nonviral episomal plasmid (pDNA) vector combined with a scaffold/matrix attachment region (S/MAR) is able to sustain long-term expression in murine liver for at least six months following hydrodynamic injection. However, plasmids contain sequences, which are essential for propagation in bacteria but are unnecessary for expression in mammalian cells. These bacterial components are responsible for the epigenetic silencing of the vector and toxicity when applied in vivo.

Published
2009

7. Un vettore NON-virale contenente un elemento S-MAR (Scafold/Matrix Attachment)consente un'espressione persistente nel tessuto epatico nel modello murino

Author

NICETA, Marcello, CORSELLO, Giovanni, Argyros, O, Wong, SP, Waddington, S, Howe, S, Coutelle, C, Miller, AD, Harbottle, RP, Niceta, M, Argyros, O, Wong, SP, Waddington, S, Howe, S, Coutelle, C, Miller, AD, Corsello, G, and Harbottle, RP

Subjects
Settore MED/38 - Pediatria Generale E Specialistica, VETTORE S/MAR, TERAPIA GENICA NON VIRALE, TESSUTO EPATICO
Abstract

Un vettore ideale dovrebbe consentire l'espressione di un transgene senza alcuna limitazione di sicurezza e di riproducibilità. Qui riportiamo lo sviluppo di un nuovo vettore NON-virale basato su DNA episomale plasmidico (pDNA) che sembra soddisfare al pieno le caratteristiche del vettore ideale nel tessuto epatico. Questo pDNA deriva dalla combinazione tra un promotore epatospecifico (AAT promoter) posto a monte del transgene e un elemento S-MAR (Scafold/Matrix Attachment) posto a valle, mentre il reporter è gene della luciferasi. L'applicazione nel tessuto epatico è stata effettuata mediante iniezione ad alta pressione per via vena caudale del modello murino (hydrodynamic delivery). L'espressione a lungo termine è stata dimostrata attraverso diverse metodiche in vivo ed in vitro. In vivo, mediante l'utilizzo del Xenogen in vivo bio-imaging ai tempi "

Published
2008

8. Development of S/MAR plasmid vector for persistent expression and maintenance in vivo

Author

Argyros, O, Wong, SP, Waddington, S, Coutelle, C, Miller, AD, Harbottle, R., NICETA, Marcello, Argyros, O, Wong, SP, Waddington, S, Niceta, M, Coutelle, C, Miller, AD, and Harbottle, R

Subjects
Settore MED/38 - Pediatria Generale E Specialistica, Non-viral episomal plasmid DNA (pDNA) vector, S/MAR element, AAT-promoter
Abstract

An ideal gene therapy vector should enable persistent transgene expression without limitations of safety and reproducibility. Here we report the development of a non-viral episomal plasmid DNA (pDNA) vector that appears to fulfil these criteria. This pDNA vector combines a scaffold/matrix attachment region (S/MAR) with a human liver-specific promoter (a1-antitrypsin (AAT)) in such a way that long-term expression is enabled in murine liver following hydrodynamic injection. Long-term expression is demonstrated by monitoring the longitudinal luciferase expression profile for up to 6 months by means of in situ bioluminescent imaging. We conclude that the combination of a mammalian, tissue-specific promoter with the S/MAR element is sufficient to drive longterm episomal pDNA expression of genes in vivo.

Published
2007

18. pEPito: a significantly improved non-viral episomal expression vector for mammalian cells

Author

Ogris Manfred, Lipps Hans J, Harbottle Richard P, Wong Suet-Ping, Argyros Orestis, Haase Rudolf, Magnusson Terese, Pinto Maria, Haas Jürgen, and Baiker Armin

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background The episomal replication of the prototype vector pEPI-1 depends on a transcription unit starting from the constitutively expressed Cytomegalovirus immediate early promoter (CMV-IEP) and directed into a 2000 bp long matrix attachment region sequence (MARS) derived from the human β-interferon gene. The original pEPI-1 vector contains two mammalian transcription units and a total of 305 CpG islands, which are located predominantly within the vector elements necessary for bacterial propagation and known to be counterproductive for persistent long-term transgene expression. Results Here, we report the development of a novel vector pEPito, which is derived from the pEPI-1 plasmid replicon but has considerably improved efficacy both in vitro and in vivo. The pEPito vector is significantly reduced in size, contains only one transcription unit and 60% less CpG motives in comparison to pEPI-1. It exhibits major advantages compared to the original pEPI-1 plasmid, including higher transgene expression levels and increased colony-forming efficiencies in vitro, as well as more persistent transgene expression profiles in vivo. The performance of pEPito-based vectors was further improved by replacing the CMV-IEP with the human CMV enhancer/human elongation factor 1 alpha promoter (hCMV/EF1P) element that is known to be less affected by epigenetic silencing events. Conclusions The novel vector pEPito can be considered suitable as an improved vector for biotechnological applications in vitro and for non-viral gene delivery in vivo.

Published
2010
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19. Development of S/MAR minicircles for enhanced and persistent transgene expression in the mouse liver

Author

Simon N. Waddington, Richard P. Harbottle, Steven J. Howe, Marcello Niceta, Constantinos Fedonidis, Suet Ping Wong, Orestis Argyros, Charles Coutelle, Oleg Tolmachov, Argyros, O, Wong, SP, Fedonidis, C, Tolmachov, O, Waddington, SN, Howe, SJ, Niceta, M, Coutelle, C, and Harbottle, RP

Subjects
Transgene, Genetic Vectors, Enzyme-Linked Immunosorbent Assay, Biology, Minicircle, Molecular biology, Polymerase Chain Reaction, Scaffold/matrix attachment region (S/MAR) – Minicircle – Plasmid – Non-viral – Gene therapy – Liver – Hydrodynamic delivery, Blotting, Southern, Mice, Plasmid, Settore MED/38 - Pediatria Generale E Specialistica, Liver, In vivo, Cell Line, Tumor, Drug Discovery, Gene expression, Molecular Medicine, Gene silencing, Animals, Humans, Expression cassette, Transgenes, Scaffold/matrix attachment region, Genetics (clinical)
Abstract

We have previously described the development of a scaffold/matrix attachment region (S/MAR) episomal vector system for in vivo application and demonstrated its utility to sustain transgene expression in the mouse liver for at least 6 months following a single administration. Subsequently, we observed that transgene expression is sustained for the lifetime of the animal. The level of expression, however, does drop appreciably over time. We hypothesised that by eliminating the bacterial components in our vectors, we could improve their performance since bacterial sequences have been shown to be responsible for the immunotoxicity of the vector and the silencing of its expression when applied in vivo. We describe here the development of a minimally sized S/MAR vector, which is devoid of extraneous bacterial sequences. This minicircle vector comprises an expression cassette and an S/MAR moiety, providing higher and more sustained transgene expression for several months in the absence of selection, both in vitro and in vivo. In contrast to the expression of our original S/MAR plasmid vector, the novel S/MAR minicircle vectors mediate increased transgene expression, which becomes sustained at about twice the levels observed immediately after administration. These promising results demonstrate the utility of minimally sized S/MAR vectors for persistent, atoxic gene expression.

Published
2010

20. Persistent episomal transgene expression in liver following delivery of a scaffold/matrix attachment region containing non-viral vector

Author

Marcello Niceta, Steven J. Howe, Andrew D. Miller, Simon N. Waddington, R P Harbottle, Orestis Argyros, Suet-Ping Wong, Charles Coutelle, Argyros, O, Wong, SP, Niceta M, Waddington S N, Howe S J, Coutelle C, Miller AD, and Harbottle RP

Subjects
Time Factors, Transgene, Genetic Vectors, Gene Expression, Mice, Inbred Strains, Gene delivery, Biology, Transfection, Viral vector, Injections, Mice, Settore MED/38 - Pediatria Generale E Specialistica, Gene expression, Genetics, Gene silencing, Animals, Hepatectomy, Humans, Luciferase, Transgenes, Scaffold/matrix attachment region, Luciferases, Promoter Regions, Genetic, Molecular Biology, Genetic Therapy, non-viral episomal plasmid DNA (pDNA) vector, S/MAR element, hydrodynamic injection, DNA Methylation, Matrix Attachment Regions, Molecular biology, Immunohistochemistry, Liver, alpha 1-Antitrypsin, DNA methylation, Molecular Medicine, Plasmids
Abstract

An ideal gene therapy vector should enable persistent transgene expression without limitations of safety and reproducibility. Here we report the development of a non-viral episomal plasmid DNA (pDNA) vector that appears to fulfil these criteria. This pDNA vector combines a scaffold/matrix attachment region (S/MAR) with a human liver-specific promoter (alpha1-antitrypsin (AAT)) in such a way that long-term expression is enabled in murine liver following hydrodynamic injection. Long-term expression is demonstrated by monitoring the longitudinal luciferase expression profile for up to 6 months by means of in situ bioluminescent imaging. All relevant control pDNA constructs expressing luciferase are unable to sustain significant transgene expression beyond 1 week post-administration. We establish that this shutdown of expression is due to promoter methylation. In contrast, the S/MAR element appears to inhibit methylation of the AAT promoter thereby preventing transgene silencing. Although this vector appears to be maintained as an episome throughout, we have no evidence for its establishment as a replicating entity. We conclude that the combination of a mammalian, tissue-specific promoter with the S/MAR element is sufficient to drive long-term episomal pDNA expression of genes in vivo.

Published
2008

21. Discovery and Pharmacological Evaluation of STEAP4 as a Novel Target for HER2 Overexpressing Breast Cancer.

Author

Orfanou IM, Argyros O, Papapetropoulos A, Tseleni-Balafouta S, Vougas K, and Tamvakopoulos C

Abstract

Breast cancer (BC) is a highly heterogeneous disease encompassing multiple subtypes with different molecular and histopathological features, disease prognosis, and therapeutic responses. Among these, the Triple Negative BC form (TNBC) is an aggressive subtype with poor prognosis and therapeutic outcome. With respect to HER2 overexpressing BC, although advanced targeted therapies have improved the survival of patients, disease relapse and metastasis remains a challenge for therapeutic efficacy. In this study the aim was to identify key membrane-associated proteins which are overexpressed in these aggressive BC subtypes and can serve as potential biomarkers or drug targets. We leveraged on the development of a membrane enrichment protocol in combination with the global profiling GeLC-MS/MS technique, and compared the proteomic profiles of a HER2 overexpressing (HCC-1954) and a TNBC (MDA-MB-231) cell line with that of a benign control breast cell line (MCF-10A). An average of 2300 proteins were identified from each cell line, of which approximately 600 were membrane-associated proteins. Our global proteomic methodology in tandem with invigoration by Western blot and Immunofluorescence analysis, readily detected several previously-established BC receptors like HER2 and EPHA2, but importantly STEAP4 and CD97 emerged as novel potential candidate markers. This is the first time that the mitochondrial iron reductase STEAP4 protein up-regulation is linked to BC (HER2+ subtype), while for CD97, its role in BC has been previously described, but never before by a global proteomic technology in TNBC. STEAP4 was selected for further detailed evaluation by the employment of Immunohistochemical analysis of BC xenografts and clinical tissue microarray studies. Results showed that STEAP4 expression was evident only in malignant breast tissues whereas all the benign breast cases had no detectable levels. A functional role of STEAP4 intervention was established in HER2 overexpressing BC by pharmacological studies, where blockage of the STEAP4 pathway with an iron chelator (Deferiprone) in combination with the HER2 inhibitor Lapatinib led to a significant reduction in cell growth in vitro . Furthermore, siRNA mediated knockdown of STEAP4 also suppressed cell proliferation and enhanced the inhibition of Lapatinib in HER2 overexpressing BC, confirming its potential oncogenic role in BC. In conclusion, STEAP4 may represent a novel BC related biomarker and a potential pharmacological target for the treatment of HER2 overexpressing BC., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Orfanou, Argyros, Papapetropoulos, Tseleni-Balafouta, Vougas and Tamvakopoulos.)

Published
2021
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22. Targeting of the breast cancer microenvironment with a potent and linkable oxindole based antiangiogenic small molecule.

Author

Argyros O, Karampelas T, Varela A, Asvos X, Papakyriakou A, Agalou A, Beis D, Davos CH, Fokas D, and Tamvakopoulos C

Subjects
Angiogenesis Inhibitors chemical synthesis, Animals, Cell Line, Tumor, Cell Proliferation, Female, Human Umbilical Vein Endothelial Cells, Humans, Indoles chemical synthesis, Indoles chemistry, Mice, Mice, Inbred C57BL, Mice, SCID, Neoplasms, Experimental pathology, Oxindoles, Pyrroles chemistry, Pyrroles therapeutic use, Sunitinib, Tumor Burden, Tumor Microenvironment, Vascular Endothelial Growth Factor Receptor-2 metabolism, Xenograft Model Antitumor Assays, Angiogenesis Inhibitors therapeutic use, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Indoles therapeutic use, Neoplasms, Experimental drug therapy
Abstract

The clinical efficacy of antiangiogenic small molecules (e.g., sunitinib) in breast carcinoma has largely failed with substantial off-target toxicity. We rationally designed and evaluated preclinically a novel sunitinib analogue, SAP, with favourable pharmacological properties and the ability to be readily conjugated to a targeting peptide or antibody for active tumour targeting.SAP was evaluated in silico and in vitro in order to verify target engagement (e.g., VEGFR2). Pharmacokinetic and biodistribution parameters were determined in mice using LC-MS/MS. SAP efficacy was tested in two breast cancer xenograft and two syngeneic animal models and pharmacodynamic evaluation was accomplished using phosphokinase assays and immunohistochemistry. Cardiac and blood toxicity of SAP were also monitored.SAP retained the antiangiogenic and cytotoxic properties of the parental molecule with an increased blood exposure and tumor accumulation compared to sunitinib. SAP proved efficacious in all animal models. Tumors from SAP treated animals had significantly decreased Ki-67 and CD31 markers and reduced levels of phosphorylated AKT, ERK and S6 compared to vehicle treated animals. In mice dosed with SAP there was negligible hematotoxicity, while cardiac function measurements showed a reduction in the percentage left ventricular fractional shortening compared to vehicle treated animals.In conclusion, SAP is a novel rationally designed conjugatable small antiangiogenic molecule, efficacious in preclinical models of breast cancer.

Published
2017
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23. Gemcitabine Based Peptide Conjugate with Improved Metabolic Properties and Dual Mode of Efficacy.

Author

Karampelas T, Skavatsou E, Argyros O, Fokas D, and Tamvakopoulos C

Subjects
Animals, Deoxycytidine pharmacology, Female, Humans, Male, Mice, Mice, Inbred C57BL, Prodrugs pharmacology, Prostatic Neoplasms, Castration-Resistant metabolism, Rats, Wistar, Receptors, LHRH metabolism, Tissue Distribution physiology, Tumor Cells, Cultured, Gemcitabine, Deoxycytidine analogs & derivatives, Peptides pharmacology, Prostatic Neoplasms, Castration-Resistant drug therapy
Abstract

Gemcitabine is a clinically established anticancer agent potent in various solid tumors but limited by its rapid metabolic inactivation and off-target toxicity. We have previously generated a metabolically superior to gemcitabine molecule (GSG) by conjugating gemcitabine to a gonadotropin releasing hormone receptor (GnRH-R) ligand peptide and showed that GSG was efficacious in a castration resistant prostate cancer (CRPC) animal model. The current article provides an in-depth metabolic and mechanistic study of GSG, coupled with toxicity assays that strengthen the potential role of GSG in the clinic. LC-MS/MS based approaches were employed to delineate the metabolism of GSG, its mechanistic cellular uptake, and release of gemcitabine and to quantitate the intracellular levels of gemcitabine and its metabolites (active dFdCTP and inactive dFdU) resulting from GSG. The GnRH-R agonistic potential of GSG was investigated by quantifying the testosterone levels in animals dosed daily with GSG, while an in vitro colony forming assay together with in vivo whole blood measurements were performed to elucidate the hematotoxicity profile of GSG. Stability showed that the major metabolite of GSG is a more stable nonapeptide that could prolong gemcitabine's bioavailability. GSG acted as a prodrug and offered a metabolic advantage compared to gemcitabine by generating higher and steadier levels of dFdCTP/dFdU ratio, while intracellular release of gemcitabine from GSG in DU145 CRPC cells depended on nucleoside transporters. Daily administrations in mice showed that GSG is a potent GnRH-R agonist that can also cause testosterone ablation without any observed hematotoxicity. In summary, GSG could offer a powerful and unique pharmacological approach to prostate cancer treatment: a single nontoxic molecule that can be used to reach the tumor site selectively with superior to gemcitabine metabolism, biodistribution, and safety while also agonistically ablating testosterone levels.

Published
2017
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24. Design and synthesis of novel 7-aminosubstituted pyrido[2,3-b]pyrazines exhibiting anti-breast cancer activity.

Author

Argyros O, Lougiakis N, Kouvari E, Papafotika A, Raptopoulou CP, Psycharis V, Christoforidis S, Pouli N, Marakos P, and Tamvakopoulos C

Subjects
Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacokinetics, Cell Line, Tumor, Cell Proliferation drug effects, Chemistry Techniques, Synthetic, Female, Humans, Mice, Pyrazines chemistry, Pyrazines pharmacokinetics, Structure-Activity Relationship, Xenograft Model Antitumor Assays, Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacology, Breast Neoplasms pathology, Drug Design, Phosphoinositide-3 Kinase Inhibitors, Pyrazines chemical synthesis, Pyrazines pharmacology
Abstract

Breast cancer (BrCa) remains an unmet medical need despite the revolutionary development of antibody treatments and protein kinase inhibitors. In the current study, a series of novel substituted pyridopyrazine derivatives have been rationally designed and evaluated as multi-kinase inhibitors in the PI3K pathway. The target compounds were prepared from 6-amino-2-picoline, which upon nitration and selective reduction was converted to suitably substituted 6-methyl-7-aminopyrido[2,3-b]pyrazines. Suitable manipulation of the former amines provided the designed analogues, which were then assessed in vitro against several BrCa cell lines using the MTT cytotoxicity assay. The most potent compounds underwent evaluation in a broad spectrum of protein kinases, while their pharmacokinetic parameters were measured by LC-MS/MS. In vivo evaluation of a hit compound (14a) was performed in a HER2 amplified BrCa xenograft model (HCC1954) and efficacy was determined using Western blot based phosphokinase assays and immunohistochemistry. This derivative showed low micromolar cytotoxic potency in all BrCa cell lines, a mild inhibition of the PI3Kα wild type and H1047R mutated enzyme and excellent pharmacokinetic parameters following oral and intraperitoneal administration at the designed dose of 10 mg/kg, with absence of in vivo phenotypic toxicity. Interestingly, compound 14a inhibited the growth of xenografted tumors. Analysis of excised tumors from the treated animals showed a significantly reduced population of Ki-67 positive cells, as well as downregulated levels of phosphorylated AKT, ERK1/2 and SRC compared to vehicle treated animals. Finally, the specificity of 14a was assessed in a panel of 31 kinases where a mild, but direct, inhibition of the MET receptor tyrosine kinase was observed., (Copyright © 2016 Elsevier Masson SAS. All rights reserved.)

Published
2017
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25. Discovery of New Aminosubstituted Pyrrolopyrimidines with Antiproliferative Activity Against Breast Cancer Cells and Investigation of their Effect Towards the PI3Kα Enzyme.

Author

Daniilides K, Lougiakis N, Evangelidis T, Kostakis IK, Pouli N, Marakos P, Mikros E, Skaltsounis AL, Bach S, Baratte B, Ruchaud S, Karamani V, Papafotika A, Christoforidis S, Argyros O, Kouvari E, and Tamvakopoulos C

Subjects
Amination, Breast drug effects, Breast metabolism, Breast Neoplasms metabolism, Cell Line, Tumor, Class I Phosphatidylinositol 3-Kinases, Drug Design, Drug Screening Assays, Antitumor, Female, Humans, Male, Molecular Docking Simulation, Phosphatidylinositol 3-Kinases metabolism, Prostate drug effects, Prostate metabolism, Prostatic Neoplasms drug therapy, Prostatic Neoplasms metabolism, Protein Kinase Inhibitors chemistry, Protein Kinase Inhibitors pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Breast Neoplasms drug therapy, Cell Proliferation drug effects, Phosphoinositide-3 Kinase Inhibitors, Pyrimidines chemistry, Pyrimidines pharmacology, Pyrroles chemistry, Pyrroles pharmacology
Abstract

Objective: A series of novel 2,4-diaminosubstituted pyrrolo[3,2-d]pyrimidines was synthesized together with their corresponding 7-phenyl or 7-isopropyl counterparts., Results: Among the target derivatives, the 7-substituted analogues exhibited interesting cytotoxic activity against a panel of PI3Kα related human breast cancer cell lines, namely MCF7, T47D, MDA-MB-231 and HCC1954. Selected compounds were tested for potential PI3Kα inhibitory activity as well as for their cytotoxic effect in prostate cancer cell lines (DU145 and PC3)., Conclusion: Derivatives bearing a specific substitution pattern consisting of 7-phenyl as well as a 2-(4- aminocyclohexylamino) moiety (16c, 16f) display kinase inhibitory activity, elucidated on the basis of molecular simulation studies, which revealed their interaction with the DFG motif of the kinase., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published
2017
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26. Peptide-Drug Conjugate GnRH-Sunitinib Targets Angiogenesis Selectively at the Site of Action to Inhibit Tumor Growth.

Author

Argyros O, Karampelas T, Asvos X, Varela A, Sayyad N, Papakyriakou A, Davos CH, Tzakos AG, Fokas D, and Tamvakopoulos C

Subjects
Animals, Cell Proliferation drug effects, Drug Design, Humans, Male, Mice, Prostatic Neoplasms, Castration-Resistant pathology, Receptors, LHRH analysis, Sunitinib, Xenograft Model Antitumor Assays, Angiogenesis Inhibitors pharmacology, Antineoplastic Agents pharmacology, Gonadotropin-Releasing Hormone pharmacology, Indoles pharmacology, Prostatic Neoplasms, Castration-Resistant drug therapy, Pyrroles pharmacology
Abstract

The potential to heighten the efficacy of antiangiogenic agents was explored in this study based on active targeting of tumor cells overexpressing the gonadotropin-releasing hormone receptor (GnRH-R). The rational design pursued focused on five analogues of a clinically established antiangiogenic compound (sunitinib), from which a lead candidate (SAN1) was conjugated to the targeting peptide [d-Lys(6)]-GnRH, generating SAN1GSC. Conjugation of SAN1 did not disrupt any of its antiangiogenic or cytotoxic properties in GnRH-R-expressing prostate and breast tumor cells. Daily SAN1GSC treatments in mouse xenograft models of castration-resistant prostate cancer resulted in significant tumor growth delay compared with equimolar SAN1 or sunitinib alone. This efficacy correlated with inhibited phosphorylation of AKT and S6, together with reduced Ki-67 and CD31 expression. The superior efficacy of the peptide-drug conjugate was also attributed to the finding that higher amounts of SAN1 were delivered to the tumor site (∼4-fold) following dosing of SAN1GSC compared with equimolar amounts of nonconjugated SAN1. Importantly, treatment with SAN1GSC was associated with minimal hematotoxicity and cardiotoxicity based on measurements of the left ventricular systolic function in treated mice. Our results offer preclinical proof-of-concept for SAN1GSC as a novel molecule that selectively reaches the tumor site and downregulates angiogenesis with negligible cardiotoxicity, thus encouraging its further clinical development and evaluation., (©2015 American Association for Cancer Research.)

Published
2016
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27. Sustained expression from DNA vectors.

Author

Wong SP, Argyros O, and Harbottle RP

Subjects
Animals, Chromosomal Position Effects, DNA immunology, Epigenesis, Genetic, Gene Transfer Techniques, Humans, Nanoparticles administration & dosage, DNA administration & dosage, Gene Expression, Genetic Vectors immunology, Transgenes
Abstract

DNA vectors have the potential to become powerful medical tools for treatment of human disease. The human body has, however, developed a range of defensive strategies to detect and silence foreign or misplaced DNA, which is more typically encountered during infection or chromosomal damage. A clinically relevant human gene therapy vector must overcome or avoid these protections whilst delivering sustained levels of therapeutic gene product without compromising the vitality of the recipient host. Many non-viral DNA vectors trigger these defense mechanisms and are subsequently destroyed or rendered silent. Thus, without modification or considered design, the clinical utility of a typical DNA vector is fundamentally limited due to the transient nature of its transgene expression. The development of safe and persistently expressing DNA vectors is a crucial prerequisite for its successful clinical application and subsequently remains, therefore, one of the main strategic tasks of non-viral gene therapy research. In this chapter we will describe our current understanding of the mechanisms that can destroy or silence DNA vectors and discuss strategies, which have been utilized to improve their sustenance and the level and duration of their transgene expression., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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28. GnRH-Gemcitabine conjugates for the treatment of androgen-independent prostate cancer: pharmacokinetic enhancements combined with targeted drug delivery.

Author

Karampelas T, Argyros O, Sayyad N, Spyridaki K, Pappas C, Morgan K, Kolios G, Millar RP, Liapakis G, Tzakos AG, Fokas D, and Tamvakopoulos C

Subjects
Animals, Cell Proliferation drug effects, Deoxycytidine chemistry, Deoxycytidine metabolism, Deoxycytidine pharmacokinetics, Deoxycytidine pharmacology, Gonadotropin-Releasing Hormone pharmacokinetics, Gonadotropin-Releasing Hormone pharmacology, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Inbred NOD, Mice, SCID, Molecular Structure, Prostatic Neoplasms, Castration-Resistant metabolism, Prostatic Neoplasms, Castration-Resistant pathology, Receptors, LHRH metabolism, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, Gemcitabine, Deoxycytidine analogs & derivatives, Drug Delivery Systems, Gonadotropin-Releasing Hormone chemistry, Gonadotropin-Releasing Hormone metabolism, Prostatic Neoplasms, Castration-Resistant drug therapy
Abstract

Gemcitabine, a drug with established efficacy against a number of solid tumors, has therapeutic limitations due to its rapid metabolic inactivation. The aim of this study was the development of an innovative strategy to produce a metabolically stable analogue of gemcitabine that could also be selectively delivered to prostate cancer (CaP) cells based on cell surface expression of the Gonadotropin Releasing Hormone-Receptor (GnRH-R). The synthesis and evaluation of conjugated molecules, consisting of gemcitabine linked to a GnRH agonist, is presented along with results in androgen-independent prostate cancer models. NMR and ligand binding assays were employed to verify conservation of microenvironments responsible for binding of novel GnRH-gemcitabine conjugates to the GnRH-R. In vitro cytotoxicity, cellular uptake, and metabolite formation of the conjugates were examined in CaP cell lines. Selected conjugates were efficacious in the in vitro assays with one of them, namely, GSG, displaying high antiproliferative activity in CaP cell lines along with significant metabolic and pharmacokinetic advantages in comparison to gemcitabine. Finally, treatment of GnRH-R positive xenografted mice with GSG showed a significant advantage in tumor growth inhibition when compared to gemcitabine.

Published
2014
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29. Examination of the effect of increasing the number of intra-disulfide amino functional groups on the performance of small molecule cyclic polyamine disulfide vectors.

Author

Drake CR, Aissaoui A, Argyros O, Thanou M, Steinke JH, and Miller AD

Subjects
Acetylcysteine administration & dosage, Animals, CHO Cells, Cell Line, Tumor, Cell Survival drug effects, Cricetulus, DNA administration & dosage, Female, Humans, Luciferases genetics, Lung metabolism, Mice, Mice, Inbred BALB C, Nanoparticles administration & dosage, Plasmids, Transfection, beta-Galactosidase genetics, beta-Galactosidase metabolism, DNA chemistry, Disulfides chemistry, Genetic Vectors, Nanoparticles chemistry, Polyamines chemistry
Abstract

Establishing structure-activity relationships is vital if the efficacy of non-viral vectors is to match that of their viral counter-parts. Recently, we reported on the ability of a series of small molecule, cyclic polyamine disulfides to condense and cage plasmid DNA (pDNA) by a process of thermodynamically controlled templated polymerization, leading to a series of corresponding pDNA-polyplex nanoparticles able to mediate high levels of transfection with no associated cytotoxicities. The leading cyclic polyamine disulfide was shown to be the spermine tetra-amine disulfide (TetraN-3,4,3). Herein we report on the significantly more challenging syntheses of cyclic disulfides with longer polyamine motifs. Two new cyclic polyamine disulfides, based on hexa- and octa-amine inserts, were prepared and their transfection efficacies and cytotoxicities compared with our previously reported cyclic tri- and tetra-amine disulfides. The new cyclic hexa- and octa-amine disulfides prove more effective at transfection in vitro, especially of lung epithelial A549 cell line. By contrast, our original cyclic tetra-amine disulfide remains the most efficient agent for the transfection of lung epithelial cells in vivo following intra-nasal administration. Hypothetical mechanistic reasons are presented to explain this outcome. Our data in toto support the concept of shorter cyclic polyamine disulfides as preferred agents for polycation-mediated controlled condensation and functional delivery of pDNA to lung epithelial cells in vivo., (Copyright © 2013. Published by Elsevier B.V.)

Published
2013
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30. Genetic modification of cancer cells using non-viral, episomal S/MAR vectors for in vivo tumour modelling.

Author

Argyros O, Wong SP, Gowers K, and Harbottle RP

Subjects
Animals, Blotting, Southern, DNA Primers genetics, Genetic Vectors genetics, Humans, Immunohistochemistry, Longitudinal Studies, Luciferases, Mice, Mice, SCID, Plasmids genetics, Polymerase Chain Reaction, Promoter Regions, Genetic genetics, Real-Time Polymerase Chain Reaction, Ubiquitin C genetics, Cell Line, Tumor, Matrix Attachment Regions genetics, Plasmids metabolism, Transplantation, Heterologous methods, Tumor Cells, Cultured metabolism
Abstract

The development of genetically marked animal tumour xenografts is an area of ongoing research to enable easier and more reliable testing of cancer therapies. Genetically marked tumour models have a number of advantages over conventional tumour models, including the easy longitudinal monitoring of therapies and the reduced number of animals needed for trials. Several different methods have been used in previous studies to mark tumours genetically, however all have limitations, such as genotoxicity and other artifacts related to the usage of integrating viral vectors. Recently, we have generated an episomally maintained plasmid DNA (pDNA) expression system based on Scaffold/Matrix Attachment Region (S/MAR), which permits long-term luciferase transgene expression in the mouse liver. Here we describe a further usage of this pDNA vector with the human Ubiquitin C promoter to create stably transfected human hepatoma (Huh7) and human Pancreatic Carcinoma (MIA-PaCa2) cell lines, which were delivered into "immune deficient" mice and monitored longitudinally over time using a bioluminometer. Both cell lines revealed sustained episomal long-term luciferase expression and formation of a tumour showing the pathological characteristics of hepatocellular carcinoma (HCC) and pancreatic carcinoma (PaCa), respectively. This is the first demonstration that a pDNA vector can confer sustained episomal luciferase transgene expression in various mouse tumour models and can thus be readily utilised to follow tumour formation without interfering with the cellular genome.

Published
2012
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31. Vector systems for prenatal gene therapy: principles of non-viral vector design and production.

Author

Wong SP, Argyros O, and Harbottle RP

Subjects
Animals, Chitosan administration & dosage, DNA Nucleotidyltransferases metabolism, DNA, Circular administration & dosage, DNA, Circular biosynthesis, DNA, Circular genetics, Endotoxins isolation & purification, Fetus metabolism, Gene Transfer Techniques, Humans, Injections, Mice, Organ Specificity, Plasmids genetics, Polyethyleneimine administration & dosage, Viruses metabolism, Yolk Sac blood supply, Genetic Therapy methods, Genetic Vectors biosynthesis, Genetic Vectors genetics, Prenatal Care methods
Abstract

Gene therapy vectors based on viruses are the most effective gene delivery systems in use today and although efficient at gene transfer their potential toxicity (Hacein-Bey-Abina et al., Science 302:415-419, 2003) provides impetus for the development of safer non-viral alternatives. An ideal vector for human gene therapy should deliver sustainable therapeutic levels of gene expression without affecting the viability of the host at either the cellular or somatic level. Vectors, which comprise entirely human elements, may provide the most suitable method of achieving this. Non-viral vectors are attractive alternatives to viral gene delivery systems because of their low toxicity, relatively easy production, and great versatility. The development of more efficient, economically prepared, and safer gene delivery vectors is a crucial prerequisite for their successful clinical application and remains a primary strategic task of gene therapy research.

Published
2012
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32. Non-viral episomal modification of cells using S/MAR elements.

Author

Argyros O, Wong SP, and Harbottle RP

Subjects
Animals, DNA Replication, Gene Expression, Genetic Vectors therapeutic use, Humans, Mice, Cells metabolism, Genetic Therapy, Genetic Vectors genetics, Matrix Attachment Regions genetics, Plasmids metabolism
Abstract

Introduction: The early potential of gene therapy is slowly becoming realized following the recent treatment of patients with severe combined immunodeficiency and ocular diseases. However at present the field of gene therapy is tempered by the toxicity issues, mainly that of the integrated retroviral vector used in most trials which led to oncogenesis in several of the treated patients. The development of safer, alternative vectors is therefore vital for further progress in this field, in particular vectors which remain episomal and are therefore less genotoxic. One such unique class of vectors are those based on scaffold matrix attachment regions (S/MARs) elements, which are maintained extra-chromosomally and replicate in vitro and in vivo., Areas Covered: The overview here describes the most relevant studies utilizing the S/MAR element to episomally modify mammalian cells and tissues with a particular focus on liver tissue, as well as the brain, the muscle, the eye, cancer cells, embryonic cells and neonatal mice. For this purpose, recently published data in these areas (mainly articles published between 2000 and 2010) are reviewed., Expert Opinion: The utilisation of vectors harbouring an S/MAR element is an efficient, safe and cost-effective way to episomally modify mammalian cells.

Published
2011
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33. Development of S/MAR minicircles for enhanced and persistent transgene expression in the mouse liver.

Author

Argyros O, Wong SP, Fedonidis C, Tolmachov O, Waddington SN, Howe SJ, Niceta M, Coutelle C, and Harbottle RP

Subjects
Animals, Blotting, Southern, Cell Line, Tumor, Enzyme-Linked Immunosorbent Assay, Humans, Mice, Polymerase Chain Reaction, Genetic Vectors genetics, Liver metabolism, Transgenes genetics
Abstract

We have previously described the development of a scaffold/matrix attachment region (S/MAR) episomal vector system for in vivo application and demonstrated its utility to sustain transgene expression in the mouse liver for at least 6 months following a single administration. Subsequently, we observed that transgene expression is sustained for the lifetime of the animal. The level of expression, however, does drop appreciably over time. We hypothesised that by eliminating the bacterial components in our vectors, we could improve their performance since bacterial sequences have been shown to be responsible for the immunotoxicity of the vector and the silencing of its expression when applied in vivo. We describe here the development of a minimally sized S/MAR vector, which is devoid of extraneous bacterial sequences. This minicircle vector comprises an expression cassette and an S/MAR moiety, providing higher and more sustained transgene expression for several months in the absence of selection, both in vitro and in vivo. In contrast to the expression of our original S/MAR plasmid vector, the novel S/MAR minicircle vectors mediate increased transgene expression, which becomes sustained at about twice the levels observed immediately after administration. These promising results demonstrate the utility of minimally sized S/MAR vectors for persistent, atoxic gene expression.

Published
2011
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34. Systemic gene transfer of polyethylenimine (PEI)-plasmid DNA complexes to neonatal mice.

Author

Wong SP, Argyros O, Howe SJ, and Harbottle RP

Subjects
Animals, Brain metabolism, DNA chemistry, Female, Gene Expression, Kidney metabolism, Liver enzymology, Liver metabolism, Lung metabolism, Mice, Myocardium metabolism, Plasmids chemistry, Spleen metabolism, Transgenes, DNA administration & dosage, Plasmids administration & dosage, Polyethyleneimine chemistry, Transfection
Abstract

Non-viral vectors have not been extensively investigated in neonatal mice due to the poor efficiency of the delivery methods available. Understanding the effects of non-viral vectors during early development is vital to develop safe gene therapy treatments where irreversible pathological processes may be avoided by early gene reconstitution. Here we describe a simple and effective method for the systemic administration of non-viral vectors via the superior temporal vein of mouse pups at 1.5 days of age. We show that injection of polyethylenimine (PEI)-complexed plasmid DNA (pDNA) intravenously results in effective transfection in the liver, lung, heart, spleen, brain and kidney. We also investigate the specific targeting of transgene expression to the proliferating neonate liver using a liver-specific plasmid containing a Scaffold Matrix Attachment Region (S/MAR) element, which has previously been shown to confer long-term expression in adult mouse liver. Using bioluminescent imaging, a gradual increase in transgene expression was observed which peaked at days 11-12, before the reduction of expression to background levels by day 25, suggestive of vector copy number loss. We conclude that non-viral vectors can successfully be used for systemic delivery to neonatal mice and that this technique is likely to open a host of early therapeutic possibilities for gene transfer by a range of non-viral vector formulations., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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35. Bioresponsive small molecule polyamines as noncytotoxic alternative to polyethylenimine.

Author

Drake CR, Aissaoui A, Argyros O, Serginson JM, Monnery BD, Thanou M, Steinke JH, and Miller AD

Subjects
Animals, CHO Cells, Cell Death drug effects, Cell Line, Tumor, Cricetinae, Cricetulus, Gene Transfer Techniques, Mice, Molecular Structure, Molecular Weight, Polyamines chemical synthesis, Polyamines pharmacology, Polyethyleneimine chemical synthesis, Structure-Activity Relationship, Polyamines chemistry, Polyethyleneimine chemistry, Polyethyleneimine pharmacology
Abstract

Nonviral gene therapy continues to require novel synthetic vectors to deliver therapeutic nucleic acids effectively and safely. The majority of synthetic nonviral vectors employed in clinical trials to date have been cationic liposomes; however, cationic polymers are attracting increasing attention. One of the few cationic polymers to enter clinical trials has been polyethylenimine (PEI); however, doubts remain over its cytotoxicity, and in addition it displays lower levels of transfection than viral systems. Herein, we report on the development of a series of small molecule analogues of PEI that are bioresponsive to the presence of pDNA, forming poly(disulfide)s that are capable of efficacious transfection with no associated toxicity. The most effective small molecule developed, a cyclic disulfide based upon a spermine backbone, is shown to form very well-defined polyplexes (100-200 nm in diameter) that mediate murine lung transfection in vivo to within an order of magnitude of in vivo jetPEI, and at the same time display a much improved cytotoxicity profile.

Published
2010
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36. Strategies for the episomal modification of cells.

Author

Wong SP, Argyros O, Coutelle C, and Harbottle RP

Subjects
Animals, DNA Replication, Genetic Vectors genetics, Humans, Matrix Attachment Regions genetics, Cells metabolism, Plasmids genetics
Abstract

The clinical application of gene therapy has become a reality with the treatment of patients with X-linked SCID (SCID-X1) using a modified retrovirus. This success has been tempered by the toxicity of the vector used in this trial, which led to oncogenesis in several of the treated patients. The development of safer, alternative vectors, which remain episomal and are therefore less genotoxic, is currently an area of active research. Notable recent developments include the application of modified lentiviral vectors, which stably express transgenes without the risk of integration; plasmid vectors, which exist episomally and are persistently expressed in the livers of mice; and the generation of replicating artificial chromosomes containing genomic loci. In addition, knowledge of the molecular mechanisms of nuclear retention and replication of the transgene is improving and will facilitate further developments in the use of episomal DNA for the genetic modification of cells. This review describes the development and application of gene therapy vectors, with a focus on those that are specifically designed to avoid integration and exist episomally.

Published
2009

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