Metabolic diversity involved in biodegradation of 2-nitroimidazole and 5-nitroanthranilic acid

Qu, Yi

08 November 2010

Evolution of strategies for biodegradation of synthetic organic pollutants relies on recruitment of genes from catabolic pathways for natural compounds. Investigation of metabolic diversity in nature can provide insight into biochemical strategies that could be recruited for bioremediation of pollutants. As part of a search for novel metabolic diversity we isolated soil bacteria able to degrade 2-nitroimidazole (2NI) and 5-nitroanthranilic acid (5NAA), and determined the biochemistry and molecular biology of their biodegradation pathways. 2NI and its analogs are increasingly used as prodrugs for the treatment of both tuberculosis and cancer. The biodegradation of 2NI by a soil Mycobacterium sp. is initiated by an unusual hydrolytic denitration. The reaction is catalyzed by a novel nitrohydrolase with a divergent sequence and represents the discovery of a previously unreported drug resistance mechanism in soil prior to its identification in clinical situations. 5NAA is the starting material for various nitroaromatic compounds and dyes. The biodegradation pathway of 5NAA is initiated by an unusual hydrolytic deamination. The corresponding gene is very distantly related to biochemically characterized genes in the NCBI database. The nitro group of 5NAA is eliminated as nitrite during the spontaneous formation of lactones from a ring fission product, a previously unreported mechanism. Degradation pathways of 5NAA and 2NI serve as precedents for those of nitroaniline and nitroimidazole pollutants. The work supports the hypothesis that the study of the metabolism of natural organic compounds selected on the basis of unusual structural features and ecological roles can reveal new metabolic diversity.

Metabolic diversity

Biodegradation

2-nitroimidazole

5-nitroanthranilic acid

Nitroaromatic compounds

Amino compounds

Pollutants

Nitro compounds

Síntese de novas quinazolinas para tratamento de tumores sob hipóxia e nitroimidazol para diagnóstico por PET / Synthesis of novel quinazolines for the treatment of tumors under hypoxia and nitroimidazole for diagnosis by PET

Nunes, Paulo Sergio Gonçalves

16 October 2018

O tumor sob hipóxia apresenta resistência a terapia antitumoral convencional por diferentes mecanismos. O uso de métodos diagnósticos moleculares não invasivos, como imagem por PET, permite a identificação de tumores sob hipóxia e auxilia no delineamento da estratégia terapêutica mais adequada. Atualmente, diversas pesquisas têm demonstrado alternativas ao tratamento de tumores sob hipóxia, explorando características como, potencial redutor do tumor e inibição de mecanismos de adaptação celular para a sobrevivência sob essa condição. Assim, neste trabalho foi realizada a síntese e avaliação in vivo de novo derivado 2-nitroimidazol, contendo o grupo hidrofílico zwiteriônico amôniometil-trifluoroborato (AMBF3), 18F-AmBF3-bu-2NI, com potencial para geração de imagens de tumores sob hipóxia. O composto AmBF3-bu-2NI foi facilmente preparado em 4 etapas sintéticas. A marcação com 18F foi realizada via reação de troca isotópica 18F-19F e 18F-AmBF3-bu-2NI foi obtido em 14,8 ± 0,4% de rendimento radioquímico (n = 3) com decaimento corrigido, 24,5 ± 5,2 GBq/?mol de atividade específica e >99% de pureza radioquímica. Estudos de imagem e biodistribuição ex vivo em camundongos, portando tumores HT-29, demonstraram que 18F-AmBF3-bu-2NI possui rápido clearance do sangue, com excreção pelas vias hepatobiliar e renal. No entanto, o tumor não foi visualizado em imagens de PET até 3 h pós-injeção devido à baixa captação tumoral (0,54 ± 0,13 e 0,19 ± 0,04% AI/g em 1 e 3 h pós-injeção, respectivamente), devido à não difusão de 18F-AmBF3-bu-2NI através da membrana celular. Adicionalmente, compostos quinazolinicos com potencial aplicação em diagnóstico foram também sintetizados contendo unidades biorredutives, nitro-benzil e nitro-imidazol, além de grupo fluoroetil, inicialmente contendo 19F (frio), como padrão analítico para a síntese do radiotraçador. Entretanto, devido a formação de produtos voláteis durante a radiossíntese da unidade 2-[18F]fluoroetil 4-metilbenzenosulfonato (34*), para incorporação no anel quinazolínico, a obtenção do radiotraçador e os correspondentes estudos de biodistribuição e imagem não foram realizados. Em paralelo ao trabalho anterior, foi realizada a síntese de um conjunto de 12 compostos aminotriazolil-quinazolínicos com potencial atividade antitumoral, via reação de cicloadição CuAAC. Inicialmente todos derivados quinazolínicos obtidos no trabalho para aplicação no diagnóstico foram testados em uma série de linhagens de células tumorais sob condições de normóxia e hipóxia (MDA-MB-231, SKBR3, BT474, PC3, MKN45, U251, U87, MIA PaCa-2, Skmel37, e A549, na concentração de 10 ?M), empregando cisplatina como referência. Neste estudo, apenas os derivados contendo grupo nitro-benzil-triazólico 61 e 63, apresentaram cerca de 50% de inibição de células MKN45 em normóxia e 40% em células SKBR3 sob hipóxia, respectivamente. Na sequência, os 12 derivados aminotriazolil-quinazolínicos foram submetidos a avaliação da citotoxicidade in vitro sob as linhagens de células tumorais de mama (MDA-MB-231, SKBR3, BT474, na concentração de 30 ?M), empregado os controles positivos Erlotinib e ii Lapatinib. Apenas o derivado contendo a função ftalimida 9, não substituído nas posições C-6 e C-7 do anel quinazolínico, apresentou cerca de 60% de inibição de células SKBR3 em hipóxia. Paralelamente, os derivados aminotriazolil-quinazolínicos foram submetidos à avaliação de triagem da atividade inibitória frente as quinases HER2, EGFR e PERK, na concentração de 10 ?M. Todavia, não houve inibição significativa nas enzimas avaliadas na concentração testada. Novos ensaios estão em andamento a fim de determinar a capacidade dos compostos atuarem como inibidores do crescimento de outras linhagens de células tumorais. / Tumor hypoxia is resistant to conventional antitumor therapy by different mechanisms. The use of non-invasive molecular diagnostic methods, such as PET imaging, allows the identification of tumors under hypoxia and assists in designing the most appropriate therapeutic strategy. Currently, several researches have provided alternative treatments for tumors under hypoxia, exploring some specific properties, such as tumor reducing potential and inhibition of adaptive mechanisms required for cell survival under hypoxia. Thus in this work, it was performed the synthesis and in vivo evaluation of new 2-nitroimidazole derivative, containing the zwitterionic hydrophilic group, ammonium methyl- trifluoroborate (AMBF3), 18F-AmBF3-bu-2NI, with potential for tumor imaging in hypoxia. The compound AmBF3-bu-2NI was easily prepared in four steps. 18F labeling was conducted via 18F-19F isotope exchange reaction, and 18F-AmBF3-bu-2NI was obtained in 14.8 ± 0.4% (n = 3) decay-corrected radiochemical yield with 24.5 ± 5.2 GBq/?mol specific activity and > 99% radiochemical purity. Imaging and biodistribution ex vivo studies in HT-29 tumor-bearing mice showed that 18F-AmBF3-bu-2NI cleared quickly from blood, and was excreted via the hepatobiliary and renal pathways. However, tumor PET images were not visualized until 3 h post-injection due to low tumor uptake (0.54 ± 0.13 and 0.19 ± 0.04%ID/g at 1 h and 3 h post-injection, respectively) due to non-diffusion of 18F-AmBF3-bu-2NI through the cell membrane. Additionally, quinazolinic compounds with potential diagnostic application were also synthesized containing biorreductive units, nitrobenzyl and nitroimidazole, as well as a fluoroethyl group, initially containing 19F (cold), as an analytical standard for the synthesis of the radiotracer. However, due to the formation of volatile products during the radiosynthesis of the 2-[18F] fluoroethyl 4-methylbenzenesulfonate (34*) unit, for incorporation into the quinazoline ring, the radiotracer preparation and its corresponding biodistribution and imaging studies were not performed. Concomitantly to the previous work, the synthesis of a set of 12 aminotriazolyl-quinazoline compounds with potential antitumor activity was performed, via the CuAAC cycloaddition reaction. Initially, all quinazolinic derivatives obtained in the work for application in the diagnosis were tested in a range of tumor cell lines under normoxia and hypoxia conditions (MDA-MB-231, SKBR3, BT474, PC3, MKN45, U251, U87, MIA PaCa-2, Skmel37, and A549, at 10 ?M), using cisplatin as a reference. In this study, only the derivatives bearing the nitrobenzyltriazole group 61 and 63 showed about 50% inhibition of MKN45 cells in normoxia and 40% in SKBR3 cells under hypoxia, respectively. In the sequence, the 12 aminotriazolyl-quinazoline derivatives were submitted to in vitro cytotoxicity evaluation using breast tumor cell lines (MDA-MB-231, SKBR3, BT474, at 30 ?M), in the presence of the reference drugs Erlotinib and Lapatinib. Only the derivative containing the phthalimide function 9, unsubstituted at C-6 and C-7 positions of the quinazoline ring, displayed about 60% inhibition on SKBR3 cells under hypoxia. Concomitantly, the inhibitory iv activity of these aminotriazolyl-quinazoline derivatives were also subjected to a screening evaluation against the HER2, EGFR and PERK kinases, 10 ?M. However, there was no significant inhibition of these enzymes at the tested concentration. New assays are ongoing to determine the inhibitory activity under other tumor cell lines.

2-nitroimidazol

2-nitroimidazole

AMBF3

AMBF3

Hipóxia tumoral

Organic synthesis

Positron emission tomography

Quinazolinas

Quinazolines

Síntese orgânica

Tomografia de emissão de pósitron

Tumor hypoxia