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Averrhoa carambola L. presents in its composition diversity of nutrients and vitamins. The present study aimed to extract water and fat-soluble compounds from this fruit at different stages of maturation (green and mature), perform the physical-chemical characterization as well as evaluate its cytotoxicity against hepatoma cells of Rattus norvegicus (HTC). The physicochemical results showed that the pH and molar acidity is influenced by the fruit maturation state. The fruit presented high percentage of moisture, while the percentage of total minerals (ash) increased according to its maturation stage. The results of the phytochemical screening showed that star fruits present phenolic compounds. The antioxidant activity showed greater potential for the ethanolic extracts of the green and mature star fruit. For HTC cells treated with ethanolic extract of green and mature star fruit the data show absence of cytotoxic effect. The tests with the aqueous extract showed cytotoxic/antiproliferative effect of green and mature star fruit extract, in 24, 48 and 72 hours. The presence of nutraceutical compounds and the cytotoxic/antiproliferative activity were more expressive in the aqueous extract, being an option of easily accessible solvent economic and not harmful to organisms.

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Capsaicin (CAP) is the main compound responsible for the spicy flavor of Capsicum plants. However, its application can be inhibited due to its pungency and toxicity. This study aimed to evaluate and compare the cytotoxic effect of CAP and its analogs N-benzylbutanamide (AN1), N-(3-methoxybenzyl) butanamide (AN2), N-(4-hydroxy-3-methoxybenzyl) butanamide (AN3), N-(4-hydroxy-3-methoxybenzyl) hexanamide (AN4) and N-(4-hydroxy-3-methoxybenzyl) tetradecanamide (AN5) on the hepatoma cells of Rattus norvegicus using the MTT test. The results showed cytotoxicity of CAP at concentrations of 100, 150, 175, and 200 µM (24 hours), AN1 at 150 and 175 µM (48 hours), AN2 at 50 µM (24 hours) and 10, 25, 50, and 75 µM (48 hours), AN4 at 175 µM (24 hours), and AN5 at 50 µM (48 hours). Removing the hydroxyl radical from the vanillyl group of capsaicin, together with reducing the acyl chain to 3 carbons, which is the case of AN2, resulted in the best biological activity. Increasing the carbon chain in the acyl group of the capsaicin molecule, which is the case of AN5, also showed evident cytotoxic effects. The present study proves that the chemical modifications of capsaicin changed its biological activity.

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RESUMO

Capsaicin (CAP) is the main compound responsible for the spicy flavor of Capsicum plants. However, its application can be inhibited due to its pungency and toxicity. This study aimed to evaluate and compare the cytotoxic effect of CAP and its analogs N-benzylbutanamide (AN1), N-(3-methoxybenzyl) butanamide (AN2), N-(4-hydroxy-3-methoxybenzyl) butanamide (AN3), N-(4-hydroxy-3-methoxybenzyl) hexanamide (AN4) and N-(4-hydroxy-3-methoxybenzyl) tetradecanamide (AN5) on the hepatoma cells of Rattus norvegicus using the MTT test. The results showed cytotoxicity of CAP at concentrations of 100, 150, 175, and 200 µM (24 hours), AN1 at 150 and 175 µM (48 hours), AN2 at 50 µM (24 hours) and 10, 25, 50, and 75 µM (48 hours), AN4 at 175 µM (24 hours), and AN5 at 50 µM (48 hours). Removing the hydroxyl radical from the vanillyl group of capsaicin, together with reducing the acyl chain to 3 carbons, which is the case of AN2, resulted in the best biological activity. Increasing the carbon chain in the acyl group of the capsaicin molecule, which is the case of AN5, also showed evident cytotoxic effects. The present study proves that the chemical modifications of capsaicin changed its biological activity.

A capsaicina (CAP) é o principal composto responsável pelo sabor picante das plantas de Capsicum. No entanto sua aplicação pode ser inibida devido à sua pungência e toxicidade. O objetivo do presente estudo foi avaliar e comparar o efeito citotóxico do CAP e seus análogos N-benzilbutanamida (AN1), N-(3-metoxibenzil)butanamida (AN2), N -(4-hidroxi-3-metoxibenzil)butanamida (AN3), N-(4-hidroxi-3-metoxibenzil) hexanamida (AN4) e N-(4-hidroxi-3-metoxibenzil) tetradecanamida (AN5) em células do hepatoma de Rattus norvegicus pelo teste do MTT. Os resultados mostraram citotoxicidade da CAP em concentrações de 100, 150, 175 e 200 µM (24 horas), AN1 em 150 e 175 µM (48 horas), AN2 em 50 µM (24 horas) e 10, 25, 50 e 75 µM (48 horas), AN4 em 175 µM (24 horas) e AN5 em 50 µM (48 horas). A remoção do radical hidroxila do grupo vanilil da capsaicina, juntamente com a redução da cadeia acila para 3 carbonos, caso do AN2, foi o que resultou na melhor atividade biológica. O aumento da cadeia carbônica no grupo acil da molécula de capsaicina, caso da AN5, também demonstrou efeitos citotóxicos evidentes. O presente estudo comprova que as modificações químicas da capsaicina alteraram sua atividade biológica.

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The search for compounds with anticancer effects is of paramount importance today due to the high incidence of the disease. The Euphorbiaceae family is known for having compounds with therapeutic properties, one of its genera being Croton. It has several species, which contain compounds already known for their biological activities, presenting anti-inflammatory, antimicrobial and anticancer properties. Thus, the cytotoxicity/antiproliferative activity of semi-purified fractions and compounds isolated from Croton echioides in liver tumor cells of Rattus norvegicus (HTC) was evaluated by the MTT test. The semi-purified fractions showed cytotoxicity at concentrations above 200 µg/mL, at 24, 48 and 72 hours, reaching cell viability of 24.78% [400 µg/mL] at 24 hours, 12.79% [500 µg/mL] at 48 hours and 10.57% [300 µg/mL] at 72 hours. For the isolated compounds, lupeol had a cytotoxic effect in all concentrations (1, 5, 10, 15, 20, 40, 60, 80 and 100 µg/mL) and tested times (24, 48 and 72 hours), reaching minimum viability of 4.37% [100 µg/mL], within 72 hours. The clerodan diterpenes CEH-1 and CEH-4 also showed antiproliferative activity, with minimum viability of 36.19% [100 µg/mL] over 72 hours and 21.33% [100 µg/mL] over 48 hours, respectively. However, the clerodan diterpenes CEH-2 and CEH-3 did not shows a cytotoxic effect for HTC cells. Thus, there is a cytotoxic/antiproliferative potential of C. echioides against tumor cells, with targeted to mitochondrial enzymes, associated with cell proliferation, indicating that this species deserves prominence in the search for new molecules for the treatment of cancer.

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RESUMO

The search for compounds with anticancer effects is of paramount importance today due to the high incidence of the disease. The Euphorbiaceae family is known for having compounds with therapeutic properties, one of its genera being Croton. It has several species, which contain compounds already known for their biological activities, presenting anti-inflammatory, antimicrobial and anticancer properties. Thus, the cytotoxicity/antiproliferative activity of semi-purified fractions and compounds isolated from Croton echioides in liver tumor cells of Rattus norvegicus (HTC) was evaluated by the MTT test. The semi-purified fractions showed cytotoxicity at concentrations above 200 µg/mL, at 24, 48 and 72 hours, reaching cell viability of 24.78% [400 µg/mL] at 24 hours, 12.79% [500 µg/mL] at 48 hours and 10.57% [300 µg/mL] at 72 hours. For the isolated compounds, lupeol had a cytotoxic effect in all concentrations (1, 5, 10, 15, 20, 40, 60, 80 and 100 µg/mL) and tested times (24, 48 and 72 hours), reaching minimum viability of 4.37% [100 µg/mL], within 72 hours. The clerodan diterpenes CEH-1 and CEH-4 also showed antiproliferative activity, with minimum viability of 36.19% [100 µg/mL] over 72 hours and 21.33% [100 µg/mL] over 48 hours, respectively. However, the clerodan diterpenes CEH-2 and CEH-3 did not shows a cytotoxic effect for HTC cells. Thus, there is a cytotoxic/antiproliferative potential of C. echioides against tumor cells, with targeted to mitochondrial enzymes, associated with cell proliferation, indicating that this species deserves prominence in the search for new molecules for the treatment of cancer.

A busca por compostos com efeitos anticâncer é de suma importância nos dias atuais devido à alta incidência desta doença. A família Euphorbiaceae é conhecida por possuir compostos com propriedades terapêuticas, sendo um de seus gêneros o Croton. Este possui diversas espécies, que contêm compostos já conhecidos por suas atividades biológicas, apresentando propriedades anti-inflamatórias, antimicrobianas e anticancerígenas. Assim, a citotoxicidade/atividade antiproliferativa de frações semipurificadas e compostos isolados de Croton echioides em células tumorais hepáticas de Rattus norvegicus (HTC) foi avaliada pelo teste MTT. As frações semipurificadas apresentaram citotoxicidade em concentrações acima de 200 µg/mL, em 24, 48 e 72 horas, atingindo viabilidade celular de 24,78% [400 µg/mL] em 24 horas, 12,79% [500 µg/mL] em 48 horas e 10,57% [300 µg/mL] às 72 horas. Para os compostos isolados, o lupeol teve efeito citotóxico em todas as concentrações (1, 5, 10, 15, 20, 40, 60, 80 e 100 µg/mL) e tempos testados (24, 48 e 72 horas), atingindo a viabilidade mínima de 4,37% [100 µg/mL], em 72 horas. Os diterpenos clerodan CEH-1 e CEH-4 também apresentaram atividade antiproliferativa, com viabilidade mínima de 36,19% [100 µg/mL] em 72 horas e 21,33% [100 µg/mL] em 48 horas, respectivamente. No entanto, os diterpenos clerodanos CEH-2 e CEH-3 não apresentaram efeito citotóxico para células HTC. Assim, existe um potencial citotóxico/antiproliferativo de C. echioides contra células tumorais, com enzimas direcionadas a enzimas mitocondriais, associadas à proliferação celular, indicando que esta espécie merece destaque na busca de novas moléculas para o tratamento do câncer.

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