Efeitos da 5-iodotubercidina em linhagens de melanoma humano parentais e resistentes ao inibidor de BRAF / Effects of 5-iodotubercidin on human melanoma lines of parental and resistant to the BRAF inhibitor

Santos, Stephanie Cristine Carvalho dos

13 February 2019

O melanoma é responsável por menos de 5% dos cânceres de pele, porém, 95% das mortes ocorrem devido a ocorrência de metástases. O melanoma metastático é refratário às terapias convencionais e rapidamente adquire resistência às terapias como as oncogene-dirigidas, como o inibidor de BRAF, da via de MAPK. Estudos prévios de screening in silico do nosso grupo, onde se utilizou as bases de dados TCGA e GEO, identificaram o gene adenosina quinase (ADK) como sendo diferencialmente expresso entre o melanoma invasivo e os nevus. A 5-iodotubercidina (5-ITu) é um potente inibidor farmacológico da ADK que dentre os diversos efeitos relatados na literatura destaca-se pelo potencial genotóxico. Os danos no DNA são os principais ativadores de checkpoint do ciclo celular, que levam a parada do ciclo celular transitória ou permanente, além de induzir morte celular, levando a hipótese de que ADK possa ser potencial agente anti-melanoma. Este trabalho objetivou avaliar a expressão do gene ADK em melanomas humanos e quimiorresistentes ao inibidor de BRAF (iBRAF), avaliou os impactos de 5-ITu sobre a proliferação, progressão do ciclo celular e morte celular e por fim avaliamos sua capacidade de aumentar a sensibilidade das células. Foi realizado PCR em tempo real para avaliar os níveis de expressão de mRNA de ADK em linhagens de melanoma e na cultura primária de melanócitos; a fim de avaliar a citotoxicidade de 5-ITu foram realizados os ensaios de exclusão por azul de tripan e de apoptose - Anexina V e PI e em modelo de esferoide, usando live/dead; também foi avaliada a influência de 5-ITu sobre a capacidade clonogênica e seus efeitos sobre a proliferação celular, a partir dos ensaios de ciclo celular e avaliação de marcadores de proliferação por imunofluorescência; as linhagens foram submetidas a diferentes regimes de tratamento com 5-ITu e o iBRAF, a fim de avaliar a curva de crescimento e a sensibilidade ao iBRAF por MTT níveis de expressão de mRNA de ADK maiores nas linhagens tumorais em relação aos melanócitos. 5-ITu mostrou-se capaz de inibir a proliferação (IC50) das linhagens de melanoma em concentrações de 1,9 a 3,5 µM. 5-ITu não foi capaz de induzir inviabilidade celular, apesar de reduzir a quantidade de células viáveis em todas as condições de tratamento, também não foi capaz de induzir aumento significativo de células apoptóticas, nem mesmo necróticas. No entanto, o tratamento com 5-ITu reduziu a capacidade clonogênica de linhagens de melanoma e promoveu parada de ciclo celular nas fases G1 e G2/M, levou ao aumento da população subG1. O tratamento com 5-ITu promoveu a redução da expressão de marcadores de proliferação, como ki67, e a combinação de tratamentos 5-ITu e iBraf foi capaz de aumentar o tempo de dobramento das linhagens de melanoma, embora tenha se mostrado incapaz de sensibilizar as células de melanoma ao tratamento com iBRAF. Desse modo, pode-se concluir que 5-ITu induz o efeito citostático e se mostra um potente agente antiproliferativo para melanoma parental e resistente. / Melanoma accounts for less than 5% of skin cancers, but 95% of deaths occur due to metastases. Metastatic melanoma is refractory to conventional therapies and rapidly acquires resistance to therapies such as oncogene-directed, such as the BRAF inhibitor, of the MAPK pathway. Previous studies of screening in silico of our group, using the databases TCGA and GEO, identified the adenosine kinase gene (ADK) as differentially expressed between invasive melanoma and nevus. 5-iodotubercidin (5-ITu) is a potent pharmacological inhibitor of ADK that among the several effects reported in the literature stands out for the genotoxic potential. DNA damage is the main activator of the cell cycle checkpoint, which leads to transient or permanent cell cycle arrest, in addition to inducing cell death, leading to the hypothesis that ADK may be a potential anti-melanoma agent. This work aimed to evaluate the expression of the ADK gene in human melanomas and chemoresistants to the BRAF inhibitor (iBRAF), evaluated the impacts of 5-ITu on proliferation, cell cycle progression and cell death and finally we evaluated its ability to increase the sensitivity of cells. Real-time PCR was performed to assess the levels of ADK mRNA expression in melanoma lines and primary melanocyte culture; in order to evaluate the cytotoxicity of 5-ITu, the trypan blue and apoptosis - Annexin V and PI exclusion and blue spheroid models were performed using live / dead; the influence of 5-ITu on the clonogenic capacity and its effects on cell proliferation, from the cell cycle assays and the evaluation of proliferation markers by immunofluorescence; the cell lines were submitted to different treatment regimens with 5-ITu and iBRAF in order to evaluate the growth curve and the sensitivity to iBRAF by MTT levels of mRNA expression of ADK higher in the tumor lines in relation to the melanocytes. 5-ITu was able to inhibit the proliferation (IC 50) of melanoma lines at concentrations of 1.9 to 3.5 181;M. 5-ITu was not able to induce cell non-viability, although it reduced the amount of viable cells in all treatment conditions, nor was it able to induce a significant increase in apoptotic or even necrotic cells. However, treatment with 5-ITu reduced the clonogenic capacity of melanoma cells and promoted cell cycle arrest in the G1 and G2 / M phases, leading to an increase in the subG1 population. Treatment with 5-ITu promotes the reduction of expression of proliferation markers, such as ki67, and the combination of 5-ITu and iBRAF treatments was able to increase the doubling time of melanoma cells, although it has been shown to be unable to sensitize melanoma cells to treatment with iBRAF. Thus, it can be concluded that 5-ITu induces the cytostatic effect and shows a potent antiproliferative agent for parental and resistant melanoma.

5-Iodotubercidin

5-Iodotubercidina

Adenosina quinase

Adenosine Kinase

Agente citostático

Checkpoint

Checkpoint

Cytostatic agent

Danos no DNA

DNA Damage

Melanoma

Melanoma

Resistance

Resistência

Quantum Chemical Studies of Chemotherapeutic Drug Cisplatin : Activation and Binding to DNA

Raber, Johan

January 2007

<p>The serendipitous discovery of the potent cytotoxic properties of cisplatin brought about a revolution in the treatment of certain types of cancer, but almost fifty years later, there still remain unknown areas in the chemistry of cisplatin. There are questions regarding which form of the drug reaches its DNA target, or why certain DNA sequences are more preferred than others for reaction with cisplatin. The work presented here aims to address some of these problems, using quantum chemical calculations to complement and interpret available experimental data.</p><p>Cisplatin's activation reactions are explored by Density Functional Theory (DFT) on two model systems, one solely using a self-consistent reaction field (SCRF) for modeling bulk water, and one including an additional partial solvation shell of water molecules. It is concluded that adding explicit solvation provides a better picture than using SCRF solvation alone. The energy surface supports the view that the active form of cisplatin is the monoaquated form.</p><p>The activation reactions of the cisplatin-derived drug, JM118, are investigated using DFT and SCRF calculations using three solvation model systems. The results show a slower rate of hydrolysis for the first reaction, and a faster rate for the second, suggesting diaquated JM118 as the main DNA binding form of the drug.</p><p>Diaquated cisplatin's first and second reaction with guanine and adenine are studied using DFT and SCRF solvation. Cisplatin's propensity toward guanine in the first substitution is explained by larger stabilisation energy for the initially formed complex and by favoured kinetics. For the second substitution, higher stability in complexation with guanine over adenine is ascribed as the main factor favouring guanine over adenine substitution. This provides the first explanation for the predominance of 1,2-d(GpG) over 1,2-d(ApG) adducts, and the direction specificity of the 1,2-d(ApG) adducts.</p>

Quantum chemistry

cisplatin

quantum chemistry

DNA

density functional theory

activation

JM118

substitution reaction

Platinum

guanine

adenine

cytostatic drug

aquation

anation

activation

Kvantkemi

Quantum Chemical Studies of Chemotherapeutic Drug Cisplatin : Activation and Binding to DNA

Raber, Johan

January 2007

The serendipitous discovery of the potent cytotoxic properties of cisplatin brought about a revolution in the treatment of certain types of cancer, but almost fifty years later, there still remain unknown areas in the chemistry of cisplatin. There are questions regarding which form of the drug reaches its DNA target, or why certain DNA sequences are more preferred than others for reaction with cisplatin. The work presented here aims to address some of these problems, using quantum chemical calculations to complement and interpret available experimental data. Cisplatin's activation reactions are explored by Density Functional Theory (DFT) on two model systems, one solely using a self-consistent reaction field (SCRF) for modeling bulk water, and one including an additional partial solvation shell of water molecules. It is concluded that adding explicit solvation provides a better picture than using SCRF solvation alone. The energy surface supports the view that the active form of cisplatin is the monoaquated form. The activation reactions of the cisplatin-derived drug, JM118, are investigated using DFT and SCRF calculations using three solvation model systems. The results show a slower rate of hydrolysis for the first reaction, and a faster rate for the second, suggesting diaquated JM118 as the main DNA binding form of the drug. Diaquated cisplatin's first and second reaction with guanine and adenine are studied using DFT and SCRF solvation. Cisplatin's propensity toward guanine in the first substitution is explained by larger stabilisation energy for the initially formed complex and by favoured kinetics. For the second substitution, higher stability in complexation with guanine over adenine is ascribed as the main factor favouring guanine over adenine substitution. This provides the first explanation for the predominance of 1,2-d(GpG) over 1,2-d(ApG) adducts, and the direction specificity of the 1,2-d(ApG) adducts.

Quantum chemistry

cisplatin

quantum chemistry

DNA

density functional theory

activation

JM118

substitution reaction

Platinum

guanine

adenine

cytostatic drug

aquation

anation

activation

Kvantkemi

Fucana ativa via das Map quinases e inibe a prolifera??o de c?lulas de ov?rio de hamster chin?s (CHO)

Nobre, Leonardo Thiago Duarte Barreto

08 July 2011

Made available in DSpace on 2014-12-17T14:03:37Z (GMT). No. of bitstreams: 1 LeonardoTDBN_DISSERT_parcial.pdf: 2023324 bytes, checksum: af543040ab580eb729ea0ba7ac05cd5a (MD5) Previous issue date: 2011-07-08 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Fucan is a term used to denominate L-fucose rich sulfated polysaccharides. The fucans have been studied due their pharmacological activities like antithrombotic, antiproliferative and antioxidant. We have extracted three fucan fractions from the brown seaweed Spatoglossum schr?ederi. These fucans were denominated Fuc B 1, Fuc B 1.5 and Fuc B 2. The chemical analyzes show that the fucans have very similar composition as demonstrated by agarose electrophoresis gel, sugar and sulfate content. The antiproliferative effect was determined by MTT and BrdU methodologies in CHO cells. The inhibition of proliferation effect of the three fractions was about 40%. Therefore this we proceed just with the Fuc B 2 due the higher yield. There is no apoptosis indication using the anexin V/propidium iodide test. We found a cell cycle phase G1 arrest. The western blotting show that the PKC; pFAK; pERK 1/2 are activated when the cells were treated with fucans. The treatement with inhibitor of MAPK PD98059 extinguished the fucan effect. These results indicates that fucan act by the ERK pathway inducing the cell death. / Fucana ? um termo utilizado para denominar polissacar?deos sulfatados ricos em L-Fucose. As fucanas t?m sido estudadas devido suas atividades farmacol?gicas: antitromb?tica, antiproliferativa e antioxidante. N?s extra?mos tr?s fra??es de fucanas da alga Spatoglossum schr?ederi. Essas fucanas, denominadas de Fuc B 1, Fuc B 1.5 e Fuc B 2, apresentam uma composi??o muito similar como demonstrado pela eletroforese em gel de agarose, e conte?do de a??car e sulfato. O efeito antiproliferativo foi determinado pelas metodologias de MTT e BrdU em c?lulas CHO. O efeito na inibi??o da prolifera??o das tr?s fra??es foi de cerca de 40%. Assim, procedemos somente com a Fuc B 2 devido seu maior rendimento. N?o houve indica??o de apoptose usando a marca??o com anexina V-FITC/ Iodeto de Prop?deo. Identificamos uma parada na fase G1 do ciclo celular. Os ensaios de western blotting mostraram que PKC, pFAK e pERK 1/2 s?o ativadas quando as c?lulas s?o tratadas com Fuc B. O tratamento com o inibidor de MAPK PD98059 aboliu o efeito da fucana. Esses efeitos indicam que a fucana age via ERK para inibir a prolifera??o das c?lulas.

Polissacar?deos Sulfatados

Fucoidan

C?ncer

Efeito Citost?tico

ERK

Sulfated Polysaccharides

Fucoidan

Cancer

Cytostatic effect

ERK

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Deplece Treg buněk pro potenciaci nádorové léčby konjugáty léčiv vázaných na HPMA kopolymer" / Depletion of Treg cells for potentiation of cancer treatment with HPMA copolymer-bound cytostatic drug conjugates"

Dvořáková, Barbora

January 2013

Tumor diseases are severe problem worldwide with increasing number of patients suffering from various types of malignancies. Many of approved therapeutics cause serious side toxicities. Therefore, there are intensive efforts to improve cancer treatment protocols. The aim of this study was to deplete regulatory T (Treg) cells without affecting other immunocompetent cells playing a positive role in tumor eradication. Treg cells were reported to hamper anti-tumor immunity and promote tumor growth and survival. Thus, their selective elimination could lead to induction of anti-tumor responses and tumor rejection if combined with chemotherapy with selected N-(2- hydroxypropyl)methacrylamide (HPMA) copolymer-bound drug conjugates. Original approach was to deplete of Treg cells without the use of anti-CD25 mAb that has been widely exploited for Treg cell elimination; however, its long-term persistence in circulation together with inhibitory effect on activated effector cells (CD25+ ) are its main disadvantages. Thus, Treg cells were sensitized to cell cycle-specific cytostatic drugs via application of IL-2/anti-IL-2 JES6.1 mAb immunocomplexes that induce vigorous selective proliferation of this cell population. Subsequent application of cell cycle-specific cytostatics showed steep decrease of Treg cell...

Planejamento molecular, atividade tripanossomicida e anticancerígena de inibidores covalentes reversíveis de cisteíno proteases / Molecular design, trypanosomicidal and anticancer activity of reversible covalent inhibitors of cysteine proteases

Quilles Junior, José Carlos

20 March 2019

A atividade de cisteíno proteases (CP) tem sido relacionada a diferentes patologias, como no caso da leishmaniose, doença de Chagas de alguns tipos de câncer. Devido a homologia entre as cisteíno proteases presentes em altos níveis nesses sistemas celulares, foi investigada aqui a importância dessas enzimas para o desenvolvimento e estabelecimento dessas doenças a partir da atividade biológica in vitro de novos inibidores reversíveis de cisteíno proteases. De maneira geral, as substâncias apresentaram relevante atividade inibitória de cisteíno proteases expressas pelos diferentes sistemas celulares, com máximo de inibição de 42% para o Neq0554 em relação à atividade de CP expressas por Leishmania spp. e 76% em relação a atividade de CP expressas por células de câncer de pâncreas. Diferentes níveis de atividade biológica foram observados entre os sistemas celulares, porém todos apresentaram supressão em relação aos parâmetros citostáticos após a inibição da atividade de CP. Quando testados em Leishmania spp. o crescimento celular foi suprimido em pelo menos 67%, com máximo de inibição de 95% para o Neq0551 a 10 &mu;M. Da mesma maneira, em células de câncer de pâncreas, alterações no ciclo celular e supressão dos processos de migração e formação de colônias foram os resultados mais evidentes, comretenção de 50% da capacidade de formação de colônias das células Mia-Paca2 pelo Neq0554 a 10 &mu;M. Já em relação aos protozoários da capa Y de Trypanosoma cruzi os inibidores testados apresentaram interessante seletividade contra os parasitos, em relação à célula hospedeira LLC-MK2, além de promoverem a supressão de cerca de 80% do processo de invasão celular in vitro quando a célula hospedeira foi previamente tratada com 10 &mu;M do inibidor Neq0662 por 2 h antes do processo de infecção. Por fim, a encapsulação do Neq0554 em apoferritina promoveu um incremento na atividade anticancerígena para células de câncer de pâncreas, com IC50 de 79 &mu;M contra &gt; 200 &mu;M em relação às células de fibroblasto, aumentando sua seletividade. De maneira geral, os resultados corroboram a hipótese de a inibição de cisteíno proteases nos sistemas celulares é eficiente para promover efeitos citostáticos, podendo ser utilizada com controle e supressão do desenvolvimento das patologias. Além disso, a atividade de CP nas células de protozoários e câncer de pâncreas apresentou perfil semelhante de ação, no qual inibidores de CP não promoveram a morte em nível significativo das células, mas ressaltaram os efeitos citostáticos em relação ao crescimento celular. / Cysteine proteases (CP) activity has been related to different pathologies, such as leishmaniasis, Chagas disease and some types of cancer. Due to the homology between cysteine proteases expressed by these cellular systems, it was investigated here the importance of these enzymes for the development and establishment of these diseases based on the in vitro biological activity of novel reversible cysteine protease inhibitors. In general, the inhibitor showed a significant inhibitory activity of cysteine proteases expressed by the different cellular systems, with a maximum inhibition of 42% for Neq0554 concerning the CP activity expressed by Leishmania spp. and 76% to CP activity expressed by pancreatic cancer cells. Different profiles of biological activity were observed between the cellular systems, but all substances had significant CP activity suppression, in cytostatic levels after the inhibition of CPA. When the inhibitors were tested against Leishmania spp., the cell growth was suppressed by at least 67%, with maximum inhibition of 95% for Neq0551 at 10 &mu;M. Similarly in pancreatic cancer cells, changes in the cell cycle profile were the most evident results, as well as the suppression of migration and colony formation ability, with 50% retention of the colony development of Mia-Paca2 cells by Neq0554 at 10 &mu;M. In contrast, to protozoa from Trypanosoma cruzi Y strain, the inhibitors tested showed an interesting selectivity against the parasites concerning the host cell LLC-MK2, also promoting the in vitro cell invasion suppression in about 80% when the host cell was pre-treated with Neq0662 10 &mu;M for 2 h. Finally, the encapsulation of Neq0554 promoted an increase in its anticancer activity against pancreatic cancer cells, with IC50 of 79 &mu;M alongside &gt; 200 &mu;M to fibroblast cells, besides increasing its selectivity. In general, the results corroborate the hypothesis that the inhibition of cysteine proteases in the cellular systems is efficient to promote cytostatic effects, being an interesting tool to be used as control and development suppression of some pathologies. Also, CP activity in protozoa cells and pancreatic cancer showed a similar profile of action, in which cysteine protease inhibitors did not promote death at a significant level for the cells, but emphasized cytostatic effects about cell growth.

"drug delivery"

anticancer activity

anticancerígena

atividade citostática

atividade tripanossomicida

câncer de pâncreas

Chagas disease

cisteíno proteases

covalent inhibitors

cysteine protease

cytostatic activity

doença de chagas

drug delivery

encapsulação

encapsulation

inibidores covalentes

leishmaniose

leishmaniosis

pancreatic cancer

trypanosomicidal activity

Modern Computational Physical Chemistry : An Introduction to Biomolecular Radiation Damage and Phototoxicity / Modern fysikalisk-kemisk beräkningsmetodik : En introduktion till biomolekylära strålningsskador och fototoxicitet

Llano, Jorge

January 2004

<p>The realm of molecular physical chemistry ranges from the structure of matter and the fundamental atomic and molecular interactions to the macroscopic properties and processes arising from the average microscopic behaviour.</p><p>Herein, the conventional electrodic problem is recast into the simpler molecular problem of finding the electrochemical, real chemical, and chemical potentials of the species involved in redox half-reactions. This molecular approach is followed to define the three types of absolute chemical potentials of species in solution and to estimate their standard values. This is achieved by applying the scaling laws of statistical mechanics to the collective behaviour of atoms and molecules, whose motion, interactions, and properties are described by first principles quantum chemistry. For atomic and molecular species, calculation of these quantities is within the computational implementations of wave function, density functional, and self-consistent reaction field theories. Since electrons and nuclei are the elementary particles in the realm of chemistry, an internally consistent set of absolute standard values within chemical accuracy is supplied for all three chemical potentials of electrons and protons in aqueous solution. As a result, problems in referencing chemical data are circumvented, and a uniform thermochemical treatment of electron, proton, and proton-coupled electron transfer reactions in solution is enabled.</p><p>The formalism is applied to the primary and secondary radiation damage to DNA bases, e.g., absorption of UV light to yield electronically excited states, formation of radical ions, and transformation of nucleobases into mutagenic lesions as OH radical adducts and 8-oxoguanine. Based on serine phosphate as a model compound, some insight into the direct DNA strand break mechanism is given.</p><p>Psoralens, also called furocoumarins, are a family of sensitizers exhibiting cytostatic and photodynamic actions, and hence, they are used in photochemotherapy. Molecular design of more efficient photosensitizers can contribute to enhance the photophysical and photochemical properties of psoralens and to reduce the phototoxic reactions. The mechanisms of photosensitization of furocoumarins connected to their dark toxicity are examined quantum chemically.</p>

Biology

statistical mechanics

biophysical chemistry

interface

surface thermodynamics

bioelectrochemistry

ionizing radiation

radiation therapy

condensed matter

computational chemistry

nucleic acids

radiation damage

electrode potential

electronic transport

photochemistry

strand break

photodynamic action

cytostatic

solvation

solvated electron

absolute potential

chemical potential

Biologi

Biology

Biologi

Modern Computational Physical Chemistry : An Introduction to Biomolecular Radiation Damage and Phototoxicity / Modern fysikalisk-kemisk beräkningsmetodik : En introduktion till biomolekylära strålningsskador och fototoxicitet

Llano, Jorge

January 2004

The realm of molecular physical chemistry ranges from the structure of matter and the fundamental atomic and molecular interactions to the macroscopic properties and processes arising from the average microscopic behaviour. Herein, the conventional electrodic problem is recast into the simpler molecular problem of finding the electrochemical, real chemical, and chemical potentials of the species involved in redox half-reactions. This molecular approach is followed to define the three types of absolute chemical potentials of species in solution and to estimate their standard values. This is achieved by applying the scaling laws of statistical mechanics to the collective behaviour of atoms and molecules, whose motion, interactions, and properties are described by first principles quantum chemistry. For atomic and molecular species, calculation of these quantities is within the computational implementations of wave function, density functional, and self-consistent reaction field theories. Since electrons and nuclei are the elementary particles in the realm of chemistry, an internally consistent set of absolute standard values within chemical accuracy is supplied for all three chemical potentials of electrons and protons in aqueous solution. As a result, problems in referencing chemical data are circumvented, and a uniform thermochemical treatment of electron, proton, and proton-coupled electron transfer reactions in solution is enabled. The formalism is applied to the primary and secondary radiation damage to DNA bases, e.g., absorption of UV light to yield electronically excited states, formation of radical ions, and transformation of nucleobases into mutagenic lesions as OH radical adducts and 8-oxoguanine. Based on serine phosphate as a model compound, some insight into the direct DNA strand break mechanism is given. Psoralens, also called furocoumarins, are a family of sensitizers exhibiting cytostatic and photodynamic actions, and hence, they are used in photochemotherapy. Molecular design of more efficient photosensitizers can contribute to enhance the photophysical and photochemical properties of psoralens and to reduce the phototoxic reactions. The mechanisms of photosensitization of furocoumarins connected to their dark toxicity are examined quantum chemically.

Biology

statistical mechanics

biophysical chemistry

interface

surface thermodynamics

bioelectrochemistry

ionizing radiation

radiation therapy

condensed matter

computational chemistry

nucleic acids

radiation damage

electrode potential

electronic transport

photochemistry

strand break

photodynamic action

cytostatic

solvation

solvated electron

absolute potential

chemical potential

Biologi

Biology

Biologi