Pak Thaichana scite author profile

A new aristolactam, named enterocarpam-III (10-amino-2,3,4,6-tetramethoxy phenanthrene-1-carboxylic acid lactam, 1) together with the known alkaloid stigmalactam (2), were isolated from Orophea enterocarpa. Their structures were elucidated on the basis of interpretation of their spectroscopic data. Compounds 1 and 2 exhibited significant cytotoxicities against human colon adenocarcinoma (HCT15) cell line with IC50 values of 1.68 and 1.32 μM, respectively.

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Superiority of an Asymmetric Perylene Diimide in Terms of Hydrosolubility, G-Quadruplex Binding, Cellular Uptake, and Telomerase Inhibition in Prostate Cancer Cells

Summart

Thaichana

Supan

et al. 2020

ACS Omega

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Perylene diimide (PDI) derivatives have been studied as G-quadruplex ligands that suppress telomerase activity by facilitating G-quadruplex formation of telomeric DNA and the hTERT promoter. PIPER, the prototypical PDI, reduces telomerase activity in lung and prostate cancer cells, leading to telomere shortening and cellular senescence of these cells. However, PIPER suffers from poor hydrosolubility and the propensity to aggregate at neutral pH. In this report, we synthesized a new asymmetric PDI, aPDI-PHis, which maintains one N-ethyl piperidine side chain of PIPER and has histidine as another side chain. The results show that aPDI-PHis is superior to its symmetric counterparts, PIPER and PDI-His, in terms of hydrosolubility, G-quadruplex binding, cellular uptake, and telomerase inhibition in prostate cancer cells. These results suggest that one N-ethyl piperidine side chain of PDI is sufficient for G-quadruplex binding, while another side chain can be tuned to elicit desirable properties. These findings might lead to better PDIs for use as anticancer drugs.

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Curcuminoid derivatives enhance telomerase activity in an in vitro TRAP assay

Taka

Changtam

Thaichana

et al. 2014

Bioorganic & Medicinal Chemistry Letters

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Hydrosoluble Perylene Monoimide-Based Telomerase Inhibitors with Diminished Cytotoxicity

et al. 2022

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Telomerase is essential for the immortality characteristics of most cancers. Telomerase-specific inhibitors should render cancer cells to replicative senescence without acute cytotoxicity. Perylene-based G-quadruplex (G4) ligands are widely studied as telomerase inhibitors. Most reported perylene-based G4 ligands are perylene diimides (PDIs), which often suffer from self-aggregation in aqueous solutions. Previously, we found that PM2, a perylene monoimide (PMI), exhibited better solubility, G4 binding affinity, and telomerase inhibition than PIPER, the prototypic PDI. However, the acute cytotoxicity of PM2 was about 20–30 times more than PIPER in cancer cells. In this report, we replaced the piperazine side chain of PM2 with ethylenediamine to yield PM3 and replaced the N , N -diethylethylenediamine side chain of PM2 with the 1-(2-aminoethyl) piperidine to yield PM5. We found that asymmetric PMIs with two basic side chains (PM2, PM3, and PM5) performed better than PIPER (the prototypic PDI), in terms of hydrosolubility, G4 binding, in vitro telomerase inhibition, and suppression of human telomerase reverse transcriptase ( hTERT ) expression and telomerase activity in A549 cells. However, PM5 was 7–10 times less toxic than PM2 and PM3 in three cancer cell lines. We conclude that replacing the N , N -diethylethylenediamine side chain with the 2-aminoethylpiperidine on PMIs reduces the cytotoxicity in cancer cells without impacting G4 binding and telomerase inhibition. This study paves the way for synthesizing new PMIs with drug-like properties for selective telomerase inhibition.

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Pak Thaichana

Aristolactam-Type Alkaloids from Orophea enterocarpa and Their Cytotoxicities

Superiority of an Asymmetric Perylene Diimide in Terms of Hydrosolubility, G-Quadruplex Binding, Cellular Uptake, and Telomerase Inhibition in Prostate Cancer Cells

Curcuminoid derivatives enhance telomerase activity in an in vitro TRAP assay

Hydrosoluble Perylene Monoimide-Based Telomerase Inhibitors with Diminished Cytotoxicity

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