Discovery and Development of Natural Product-Derived Chemotherapeutic Agents Based on a Medicinal Chemistry Approach

Lee, Kuo Hsiung̀

doi:10.1021/np900821e

Cited by 252 publications

(189 citation statements)

References 105 publications

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“…In the continuing search for agents that may treat or ameliorate the affiliation of cancer, natural products have provided an endless supply of active compounds that are increasingly being exploited. In many cases, this quest has already resulted in leads and scaffolds for drugs [1][2][3] and many reports highlight the use of plant-derived compounds as anticancer drugs 4,5 that contribute to new leads in clinical trials. 6 Anisomelic acid (AA) (Fig.…”

Section: Introductionmentioning

confidence: 99%

Targeted delivery of a novel anticancer compound anisomelic acid using chitosan-coated porous silica nanorods for enhancing the apoptotic effect

et al. 2015

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Targeted delivery of a novel anticancer compound anisomelic acid using chitosan-coated porous silica nanorods for enhancing the apoptotic effect, 2015, BIOMATERIALS SCIENCE, (3) Targeted cancer therapies are currently a strong focus in biomedical research. The most common approach is to use nanocarrier-based targeting to specifically deliver conventional anticancer drugs to enhance their therapeutic efficacy, increase bioavailabil ity, and decrease the side-effects on normal cells. A step further towards higher specificity and efficacy would be to employ specific novel drugs along with specific nanocarrier -based targeting. Our recent studies have demonstrated that a plant-derived diterpenoid compound, anisomelic acid (AA), induces apoptosis in cervical cancer cells. In this work, we describe the development of a folic acid (FA)-targeted AA delivery system using chitosan-coated rod-shaped mesoporous silica particles (Chitosan-NR-MSP). The cellular internalization and and uptake enhancement of the FA-Chitosan-NR-MSP towards cancerous folate receptor (FR) -positive (SiHa and HeLa) and/or normal FR-negative (HEK 293) cells were assessed, which indicated that the intracellular uptake of FA-conjugated Chitosan-NR-MSP was more target-specific. Furthermore, the induction of apoptosis by AA-loaded chitosan-coated rod-shaped particles on SiHa cells was studied. By employing caspase activation and PARP cleavage as measure of apoptosis, the FA-particle mediated AA treatment was clearly more effective, significantly enhancing apoptosis in comparison to non-targeted Chitosan-NR-MSP or free AA in SiHa cells, suggesting that the FA-Chitosan-NR-MSPs can be potentially utilized as a drug delivery system for cervical cancer treatment.

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Section: Introductionmentioning

confidence: 99%

Targeted delivery of a novel anticancer compound anisomelic acid using chitosan-coated porous silica nanorods for enhancing the apoptotic effect

et al. 2015

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“…[7][8][9] A major challenge for the transformations using biocatalytic methods is to determine the appropriate microorganism and conditions, so, we proceeded with the screening using different fungal strains and media, with sclareolide (1, Figure 1) as substrate and then the processes were scaled up. In addition and in the search of new bioactive agents from natural products, 10,11 the cytotoxic evaluation against several human tumor cell lines of 1 and the obtained products (2, 4, 16-19) were carried up. Here we report our results.…”

Section: Introductionmentioning

confidence: 99%

Biotransformation of sclareolide by filamentous fungi: cytotoxic evaluations of the derivatives

Cano

Ramírez‐Apán

Delgado

2011

J. Braz. Chem. Soc.

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O esclareolido (1) foi incubado com oito diferentes espécies de fungos filamentosos usados convencionalmente para bio-oxidações. O composto 1 metabolizado pelo fungo Aspergilus niger em um meio de cultura A forneceu o 3-cetoesclareolido (2) e 3b-hidroxiesclareolido (4). Quando em um meio de cultura B (mais rico em nutrientes em relação ao meio de cultura A), foram obtidos os compostos 2, 4, e ainda 3a,6b-diidroxiesclareolido (16), 1-cetoesclareolido (17), 3-ceto-15-hidroxiesclareolido (18) e 3b, 15-diidroxiesclareolido (19). Os produtos 16-19 resultantes da biotransformação de 1 são relatados como substâncias inéditas. A fermentação de 1 com Cunninghamella blackesleeana usando o meio de cultura A forneceu os compostos 2 e 4, enquanto que empregando o meio de cultura B, forneceu os compostos 2, 4, 16 e 17. Os compostos 2, 4 e 17 foram obtidos também com Curvularia lunata. A biotransformação de 1 com Beauveria bassiana forneceu o composto 4 com rendimento satisfatório; com Rhizopus oligosporus e com Mucor miehei forneceu os compostos 2 e 4, enquanto que com R. nigricans and Fusarium moliniforme os compostos 2, 4 e 16 foram obtidos. A avaliação dos efeitos citotóxicos do composto 1 e dos produtos obtidos frente as linhagens de células cancerosas humanas selecionadas (U251, PC-3, K562, HCT-15, MCF-7 e SKUL-1) indicaram que o composto 16 (3a,6b-diidroxiesclareolido) apresenta um efeito citotóxico moderado (IC 50 < 100 mM) contra a U251, a PC-3, a HCT-15 e a MCF-7.Sclareolide (1) was incubated with eight different species of filamentous fungi conventionally used for bio-oxidations. Compound 1 was metabolized with Aspergillus niger in medium A to yield 3-ketosclareolide (2) and 3b-hydroxysclareolide (4), while in medium B (containing major number of nutrients with respect to medium A), compounds 2, 4, 3a,6b-dihydroxysclareolide (16), 1-ketosclareolide (17), 3-keto-15-hydroxysclareolide (18) and 3b,15-dihydroxysclareolide (19) were obtained. The biotransformation products 16-19 were found to be new substances. Fermentation of 1 with Cunninghamella blackesleeana using medium A afforded 2 and 4, while using medium B yielded 2, 4, 16 and 17. Compounds 2, 4 and 17 were also obtained with Curvularia lunata. Biotransformation of 1 with Beauveria bassiana yielded 4 in satisfactory yield, with Rhizopus oligosporus and Mucor miehei afforded 2 and 4, while with R. nigricans and Fusarium moliniforme yielded 2, 4 and 16. Cytotoxic evaluation of 1 and the obtained products against selected human cancer cell lines (U251, PC-3, K562, HCT-15, MCF-7 and SKUL-1) indicated that 16 (3a,6b-dihydroxysclareolide) displayed moderate cytotoxic (IC 50 < 100 mM) against U251, PC-3, HCT-15 and MCF-7.

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“…Reagents with natural origin continue to be of preferred priority in the drug screening programs (Lee, 2004). Today, the plants are well documented as a good source of biologically active compounds (Iranshahi et al, 2007;.…”

Section: Introductionmentioning

confidence: 99%

Bracken-fern Extracts Induce Cell Cycle Arrest and Apoptosis in Certain Cancer Cell Lines

Roudsari

Bahrami²,

Dehghani³

et al. 2012

Asian Pacific Journal of Cancer Prevention

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Bracken fern [Pteridium aquilinem (L.) kuhn (Dennstaedtiaceae)] is one of the most common species on the planet. It has been consumed by humans and animals for centuries. Use by some human groups is because they believe bracken fern is good for health as plant medicine. However, it is also one of the few known plants that can cause tumors in farm animals. Many interested groups have focused their attention on bracken fern because of these interesting features. In order to evaluate the biological effects of exposure to this plant in cellular level, human cancer cell lines were treated with the fern dichloromethane extracts and the genotoxic and cytotoxic effects were studied. Anti-proliferative/cytotoxic effects were evaluated by cell count, MTT assay and flow cytometry methods with three different cancer cell lines, TCC, NTERA2, and MCF-7, and two normal cells, HDF1 and HFF3. Pro-apoptotic effects of the extracts were determined by DAPI staining and comet assay, on TCC cancer cells compared to the normal control cell lines. Cellular morphology was examined by light microscopy. Our present study showed that the extract caused DNA damage and apoptosis at high concentrations (200 µg/mL) and also it may induce cell cycle arrest (G2/M phase) at mild concentrations (50 and 30 µg/mL) depending on the cell type and tumor origin. These results indicate that bracken fern extract is a potent source of anticancer compounds that could be utilized pharmaceutically.

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Discovery and Development of Natural Product-Derived Chemotherapeutic Agents Based on a Medicinal Chemistry Approach

Cited by 252 publications

References 105 publications

Targeted delivery of a novel anticancer compound anisomelic acid using chitosan-coated porous silica nanorods for enhancing the apoptotic effect

Targeted delivery of a novel anticancer compound anisomelic acid using chitosan-coated porous silica nanorods for enhancing the apoptotic effect

Biotransformation of sclareolide by filamentous fungi: cytotoxic evaluations of the derivatives

Bracken-fern Extracts Induce Cell Cycle Arrest and Apoptosis in Certain Cancer Cell Lines

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