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Synthesis and pharmacological evaluation of novel anti-tumour prodrugs : synthesis and pharmacological investigations into novel MMP-activated peptide-based prodrugs of methotrexate as potential cancer therapeuticsElbakay, Jamal Ali Mohamed January 2017 (has links)
Methotrexate (MTX) is an antimetabolite anticancer agent that is used in treatment of multiple cancers, such as acute lymphoblastic leukaemia and osteosarcoma. A lack of selective tumour toxicity is one of the major problems associated with MTX chemotherapy, especially when given at high doses, as in high dose MTX (HDMTX) therapy. MTX causes various toxicity problems including life-threatening nephrotoxicity, haematological toxicity and neurotoxicity. Overcoming this toxicity is of great importance and has been attempted in various ways, not least via the design of prodrugs. The concept of tumour protease, and specifically matrix metalloproteinase (MMP), activated prodrugs was the focus of the work described in this thesis. This concept relies upon attachment of an MMP-sensitive peptide sequence to a specific site in a drug structure, so as to inactive it. The activity of the parent drug is restored once it is activated by the MMPs in the tumour microenvironment. In this work, different MMP-sensitive peptide sequences linked to MTX were synthesised, resulting in 63 MTX prodrugs. The MMP-mediated activation of these conjugates in tumour tissues (specifically HT1080 homogenates) ex vivo was assessed and the results were compared to the activation of these conjugates in various normal tissues specifically liver, kidney and lung. Specific criteria were established for the selection of promising conjugates for more detailed study. From 7 promising compounds, compound 75 was identified as the lead prodrug, demonstrating selective MMP activation, as indicated by inhibition of its activation by broad spectrum MMP inhibitor ilomastat. The pharmacokinetics of compound 75 was studied in tumour (HT1080) xenograft-bearing mice and the results were compared to those obtained from administration of equimolar doses of conventional MTX. Compound 75 led to enhanced tumour concentrations of MTX, with reduced exposure to normal tissues in vivo compared to conventional MTX therapy. Furthermore, the efficacy of equimolar doses of compound 75 and directly dosed MTX in reduction of HT1080 volume were compared. Superior antitumour activity was observed with compound 75 compared to MTX treatment. Compound 75 is the first example of an MMP-activated prodrug to be reported with enhanced therapeutic index, as evidenced by a full in vivo pharmacokinetic analysis and normal tissue metabolism data. The data presented in thesis support the concept of MMP-activated prodrug development, and form a strong foundation upon which to develop a clinicallyuseful MTX prodrug, with the potential to enhance efficacy and reduce toxicity to the patient.
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Synthesis and pharmacological evaluation of novel anti-tumour prodrugs. Synthesis and pharmacological investigations into novel MMP-activated peptide-based prodrugs of methotrexate as potential cancer therapeuticsElbakay, Jamal A.M. January 2017 (has links)
Methotrexate (MTX) is an antimetabolite anticancer agent that is used in treatment of multiple cancers, such as acute lymphoblastic leukaemia and osteosarcoma. A lack of selective tumour toxicity is one of the major problems associated with MTX chemotherapy, especially when given at high doses, as in high dose MTX (HDMTX) therapy. MTX causes various toxicity problems including life-threatening nephrotoxicity, haematological toxicity and neurotoxicity. Overcoming this toxicity is of great importance and has been attempted in various ways, not least via the design of prodrugs.
The concept of tumour protease, and specifically matrix metalloproteinase (MMP), activated prodrugs was the focus of the work described in this thesis. This concept relies upon attachment of an MMP-sensitive peptide sequence to a specific site in a drug structure, so as to inactive it. The activity of the parent drug is restored once it is activated by the MMPs in the tumour microenvironment. In this work, different MMP-sensitive peptide sequences linked to MTX were synthesised, resulting in 63 MTX prodrugs.
The MMP-mediated activation of these conjugates in tumour tissues (specifically HT1080 homogenates) ex vivo was assessed and the results were compared to the activation of these conjugates in various normal tissues specifically liver, kidney and lung. Specific criteria were established for the selection of promising conjugates for more detailed study. From 7 promising compounds, compound 75 was identified as the lead prodrug, demonstrating selective MMP activation, as indicated by inhibition of its activation by broad spectrum MMP inhibitor ilomastat.
The pharmacokinetics of compound 75 was studied in tumour (HT1080) xenograft-bearing mice and the results were compared to those obtained from administration of equimolar doses of conventional MTX. Compound 75 led to enhanced tumour concentrations of MTX, with reduced exposure to normal tissues in vivo compared to conventional MTX therapy. Furthermore, the efficacy of equimolar doses of compound 75 and directly dosed MTX in reduction of HT1080 volume were compared. Superior antitumour activity was observed with compound 75 compared to MTX treatment.
Compound 75 is the first example of an MMP-activated prodrug to be reported with enhanced therapeutic index, as evidenced by a full in vivo pharmacokinetic analysis and normal tissue metabolism data.
The data presented in thesis support the concept of MMP-activated prodrug development, and form a strong foundation upon which to develop a clinically-useful MTX prodrug, with the potential to enhance efficacy and reduce toxicity to the patient. / Libyan government / The full text will be available after the extended embargo: 5th March 2027
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Pharmacogénétique du DHFR chez les enfants leucémiquesAl-Shakfa, Fidaa 04 1900 (has links)
Le dihydrofolate réductase (DHFR) est la principale cible du méthotrexate, un important composant du traitement de la leucémie lymphoblastique aiguë (LLA). Une association des polymorphismes du promoteur de DHFR avec l’issue de la LLA a été mise en évidence au laboratoire. Une survie sans événement (EFS) réduite corrélait avec les allèles A -317 et C -1610, et l’haplotype *1, défini par ces allèles. L’haplotype *1 était aussi associé à une expression élevée du DHFR. Dans cette étude, nous étendons l’analyse à la région régulatrice adjacente, d’environ 400 pb, correspondant au transcrit mineur non-codant du DHFR, qui joue un rôle essentiel dans la régulation de la transcription au niveau du promoteur majeur. Six polymorphismes ont été identifiés, parmi lesquels 5 étaient des SNPs et un polymorphisme de longueur composé d’un nombre variable d’éléments de 9 pb et d’une insertion/délétion de 9 pb. L’analyse d’haplotype, incluant tous les polymorphismes promoteurs, a révélé une diversification de l’haploytpe *1 en 5 sous-types (*1a à *1e). Les variations du promoteur majeur et les sous-types de l’haplotype *1 ont été par la suite analysés pour l’association avec l’issue de LLA. Un EFS réduit corrélait avec l’allèle A du polymorphisme G308A (p=0,02) et avec l’haplotype *1 (p=0,01). Des niveaux élevées d’ARNm étaient trouvés chez les porteurs de l’haplotype *1b (p=0,005) et pas pour les autres sous-types de l’haplotype *1. Alors, la mauvaise issue de LLA associée avec l'haplotype *1 est en effet déterminée par le sous-type *1b. Cette étude donne un nouvel aperçu des polymorphismes régulateurs du DHFR définissant plus précisément les variations du DHFR prédisposant un événement. / Dihydrofolate reductase (DHFR) is the major target of methotrexate, a key component in childhood acute lymphoblastic leukemia (ALL) treatment. We recently reported an association of DHFR promoter polymorphisms with ALL outcome. Lower event free survival (EFS) correlated with the alleles A -317 and C -1610, and with haplotype *1, defined by these alleles. Haplotype*1 was also associated higher DHFR expression. Here we extended the analysis to adjacent 400bp regulatory region corresponding to non-coding minor DHFR transcript which plays an essential role in the regulation of transcription from the major promoter. Six polymorphisms were identified, of which 5 were SNPs and one length polymorphism composed of variable number of 9bp elements and 9bp insertion/deletion. Haplotype analysis including all promoter polymorphisms revealed diversification of haplotype *1 into 5 subtypes (*1a to *1e). Major promoter variations and haplotype *1 subtypes were subsequently analyzed for the association with ALL outcome. Lower EFS correlated with an A allele of G308A polymorphism (p=0.02) and with *1b haplotype (p=0.01). Higher mRNA levels were found in the carriers of *1b haplotype (p=0.005) and not for remaining haplotype *1 subtypes. So, the worse ALL outcome associated with haplotype *1 is actually determined by the subtype *1b. The study provides a new insight into DHFR regulatory polymorphisms defining more precisely event–predisposing DHFR variations.
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Pharmacogénétique du DHFR chez les enfants leucémiquesAl-Shakfa, Fidaa 04 1900 (has links)
Le dihydrofolate réductase (DHFR) est la principale cible du méthotrexate, un important composant du traitement de la leucémie lymphoblastique aiguë (LLA). Une association des polymorphismes du promoteur de DHFR avec l’issue de la LLA a été mise en évidence au laboratoire. Une survie sans événement (EFS) réduite corrélait avec les allèles A -317 et C -1610, et l’haplotype *1, défini par ces allèles. L’haplotype *1 était aussi associé à une expression élevée du DHFR. Dans cette étude, nous étendons l’analyse à la région régulatrice adjacente, d’environ 400 pb, correspondant au transcrit mineur non-codant du DHFR, qui joue un rôle essentiel dans la régulation de la transcription au niveau du promoteur majeur. Six polymorphismes ont été identifiés, parmi lesquels 5 étaient des SNPs et un polymorphisme de longueur composé d’un nombre variable d’éléments de 9 pb et d’une insertion/délétion de 9 pb. L’analyse d’haplotype, incluant tous les polymorphismes promoteurs, a révélé une diversification de l’haploytpe *1 en 5 sous-types (*1a à *1e). Les variations du promoteur majeur et les sous-types de l’haplotype *1 ont été par la suite analysés pour l’association avec l’issue de LLA. Un EFS réduit corrélait avec l’allèle A du polymorphisme G308A (p=0,02) et avec l’haplotype *1 (p=0,01). Des niveaux élevées d’ARNm étaient trouvés chez les porteurs de l’haplotype *1b (p=0,005) et pas pour les autres sous-types de l’haplotype *1. Alors, la mauvaise issue de LLA associée avec l'haplotype *1 est en effet déterminée par le sous-type *1b. Cette étude donne un nouvel aperçu des polymorphismes régulateurs du DHFR définissant plus précisément les variations du DHFR prédisposant un événement. / Dihydrofolate reductase (DHFR) is the major target of methotrexate, a key component in childhood acute lymphoblastic leukemia (ALL) treatment. We recently reported an association of DHFR promoter polymorphisms with ALL outcome. Lower event free survival (EFS) correlated with the alleles A -317 and C -1610, and with haplotype *1, defined by these alleles. Haplotype*1 was also associated higher DHFR expression. Here we extended the analysis to adjacent 400bp regulatory region corresponding to non-coding minor DHFR transcript which plays an essential role in the regulation of transcription from the major promoter. Six polymorphisms were identified, of which 5 were SNPs and one length polymorphism composed of variable number of 9bp elements and 9bp insertion/deletion. Haplotype analysis including all promoter polymorphisms revealed diversification of haplotype *1 into 5 subtypes (*1a to *1e). Major promoter variations and haplotype *1 subtypes were subsequently analyzed for the association with ALL outcome. Lower EFS correlated with an A allele of G308A polymorphism (p=0.02) and with *1b haplotype (p=0.01). Higher mRNA levels were found in the carriers of *1b haplotype (p=0.005) and not for remaining haplotype *1 subtypes. So, the worse ALL outcome associated with haplotype *1 is actually determined by the subtype *1b. The study provides a new insight into DHFR regulatory polymorphisms defining more precisely event–predisposing DHFR variations.
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