23 research outputs found
Design, synthesis and in Vitro activity of anticancer styrylquinolines. The p53 Independent Mechanism of Action
A group of styrylquinolines were synthesized and tested for their anti-proliferative activity.
Anti-proliferative activity was evaluated against the human colon carcinoma cell lines that
had a normal expression of the p53 protein (HCT116 p53+/+) and mutants with a disabled
TP53 gene (HCT116 p53-/-) and against the GM 07492 normal human fibroblast cell line. A
SAR study revealed the importance of Cl and OH as substituents in the styryl moiety. Several
of the compounds that were tested were found to have a marked anti-proliferative activity
that was similar to or better than doxorubicin and were more active against the p53 null
than the wild type cells. The cellular localization tests and caspase activity assays suggest
a mechanism of action through the mitochondrial pathway of apoptosis in a p53-independent
manner. The activity of the styrylquinoline compounds may be associated with their
DNA intercalating ability
Simple rules for complex near-glass-transition phenomena in medium-sized Schiff bases
Glass-forming ability is one of the most desired properties of organic compounds dedicated to optoelectronic applications. Therefore, finding general structure–property relationships and other rules governing vitrification and related near-glass-transition phenomena is a burning issue for numerous compound families, such as Schiff bases. Hence, we employ differential scanning calorimetry, broadband dielectric spectroscopy, X-ray diffraction and quantum density functional theory calculations to investigate near-glass-transition phenomena, as well as ambient-and high-pressure molecular dynamics for two structurally related Schiff bases belonging to the family of glycine imino esters. Firstly, the surprising great stability of the supercooled liquid phase is shown for these compounds, also under high-pressure conditions. Secondly, atypical self-organization via bifurcated hydrogen bonds into lasting centrosymmetric dimers is proven. Finally, by comparing the obtained results with the previous report, some general rules that govern ambient-and high-pressure molecular dynamics and near-glass transition phenomena are derived for the family of glycine imino esters. Particularly, we derive a mathematical formula to predict and tune their glass transition temperature (Tg) and its pressure coefficient (dTg / dp). We also show that, surprisingly, despite the presence of intra-and intermolecular hydrogen bonds, van der Waals and dipole–dipole interactions are the main forces governing molecular dynamics and dielectric properties of glycine imino ester
Synthesis of the compounds that were studied.
<p>Synthesis of the compounds that were studied.</p
Tubulin level (a) and PARP cleavage (b) in HCT-116 cells for 6b (0, 10, 20, 40 μM) and 17b (0, 10, 20, 40, μM).
<p>Tubulin level (a) and PARP cleavage (b) in HCT-116 cells for 6b (0, 10, 20, 40 μM) and 17b (0, 10, 20, 40, μM).</p
Selective hydrolysis of styrylquinolines.
<p>For example, compare <b>2b</b>, <b>3b</b> and <b>18b</b>.</p
Anti-cancer activity of the studied compounds (ND—not determined).
<p>Results are expressed as mean ± SD of at least three independent experiments. IC<sub>50</sub> values below 10 μM are bolded.</p><p>Anti-cancer activity of the studied compounds (ND—not determined).</p
Absorption spectra of 2c, 3c, 5b, 6b, CP-31398 and doxorubicin without CT-DNA (solid line) and with CT-DNA (dotted line).
<p>Absorption spectra of 2c, 3c, 5b, 6b, CP-31398 and doxorubicin without CT-DNA (solid line) and with CT-DNA (dotted line).</p
Activity (as—logIC<sub>50</sub>) vs logP of the compounds that were tested.
<p>Activity (as—logIC<sub>50</sub>) vs logP of the compounds that were tested.</p
Quinolines and analogs with a marked anticancer activity.
<p>Quinolines and analogs with a marked anticancer activity.</p
Caspase-3/7 activities on the HCT116 cell lines.
<p>Caspase-3/7 activities on the HCT116 cell lines.</p