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Mechanism of carcinogenicity and nephrotoxicity of aristolochic acids
Bárta, František
Aristolochic acids (AA) are human carcinogens which have also very strong nephrotoxic properties. A mixture of AA is present in Aristolochiacae plant species. These plants were and still are used in traditional medicine in some countries, particularly in Asia. Aristolochic acids participate in development of two types of nephropathies. The first disease is designated as Aristolochic Acid Nephropathy (AAN), the second one is Balkan Endemic Nephropathy (BEN). Both nephropathies are associated with urothelial malignancies, which are caused by AA. One of the common features of ANN and BEN is that not all individuals exposed to AA suffer from nephropathy and tumour development. One cause for these different responses may be individual differences in the activities and expression levels of the enzymes catalyzing the biotransformation of AAI, the major toxic component of AA contained in Aristolochia species. Detailed knowledge of enzymes which participate in metabolism of AAI may contribute to elucidation of inter-individual susceptibility to AAN, BEN and later urothelial malignancies. Aristolochic acid I is either oxidative detoxicated or reductive activated by biotransformation enzymes. Reductive bioactiovation of AAI leads to formation of covalent AA-DNA adducts in organism which result in producing of...
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Mechanism of carcinogenicity and nephrotoxicity of aristolochic acids
Bárta, František
Aristolochic acids (AA) are human carcinogens which have also very strong nephrotoxic properties. A mixture of AA is present in Aristolochiacae plant species. These plants were and still are used in traditional medicine in some countries, particularly in Asia. Aristolochic acids participate in development of two types of nephropathies. The first disease is designated as Aristolochic Acid Nephropathy (AAN), the second one is Balkan Endemic Nephropathy (BEN). Both nephropathies are associated with urothelial malignancies, which are caused by AA. One of the common features of ANN and BEN is that not all individuals exposed to AA suffer from nephropathy and tumour development. One cause for these different responses may be individual differences in the activities and expression levels of the enzymes catalyzing the biotransformation of AAI, the major toxic component of AA contained in Aristolochia species. Detailed knowledge of enzymes which participate in metabolism of AAI may contribute to elucidation of inter-individual susceptibility to AAN, BEN and later urothelial malignancies. Aristolochic acid I is either oxidative detoxicated or reductive activated by biotransformation enzymes. Reductive bioactiovation of AAI leads to formation of covalent AA-DNA adducts in organism which result in producing of...
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Mechanism of carcinogenicity and nephrotoxicity of aristolochic acids
Bárta, František ; Stiborová, Marie (advisor) ; Dračínská, Helena (referee)
Aristolochic acids (AA) are human carcinogens which have also very strong nephrotoxic properties. A mixture of AA is present in Aristolochiacae plant species. These plants were and still are used in traditional medicine in some countries, particularly in Asia. Aristolochic acids participate in development of two types of nephropathies. The first disease is designated as Aristolochic Acid Nephropathy (AAN), the second one is Balkan Endemic Nephropathy (BEN). Both nephropathies are associated with urothelial malignancies, which are caused by AA. One of the common features of ANN and BEN is that not all individuals exposed to AA suffer from nephropathy and tumour development. One cause for these different responses may be individual differences in the activities and expression levels of the enzymes catalyzing the biotransformation of AAI, the major toxic component of AA contained in Aristolochia species. Detailed knowledge of enzymes which participate in metabolism of AAI may contribute to elucidation of inter-individual susceptibility to AAN, BEN and later urothelial malignancies. Aristolochic acid I is either oxidative detoxicated or reductive activated by biotransformation enzymes. Reductive bioactiovation of AAI leads to formation of covalent AA-DNA adducts in organism which result in producing of...
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