Biological profile of new apoptotic agents based on 2,4-pyrido[2,3-d]pyrimidine derivatives.

In order to obtain less toxic antitumoral compounds we have looked for novel compounds with anticancer activity based on proapoptotic mechanisms. The compounds studied in this work are derivatives of bicyclic aromatic systems like pyrido[2,3-d]pyrimidines. The potential antitumoral activity of the compounds was evaluated in vitro by examining their cytotoxic effects against human breast, colon, and bladder cancer lines (MD-MBA-231, HT-29, and T-24). The data indicate that HC-6 is a potent anticancer drug showing dose-dependent cytostatic and proapoptotic effects through activation of two different signaling pathways namely a pathway leading to cell cycle arrest and a transcription-independent route leading to rapid apoptosis.

Synthesis and biological evaluation of heteroaryldiamides and heteroaryldiamines as cytotoxic agents, apoptosis inducers and caspase-3 activators.

The work described here involved the synthesis and biological evaluation of new heteroaryldiamides and heteroaryldiamines. A new general model in which the structures can be adjusted has been applied in this study. Three different structural units can be distinguished: a central nucleus and two symmetric terminal units. The central element is either an aliphatic chain of varying length and flexibility, piperazine, or a polyamine nucleus. However, the terminal units are pyridine, quinoline, indole, benzene or pyrido[2,3-d]pyrimidine with different substituents. The antitumoural activities of the compounds were evaluated in vitro by examining their cytotoxic effects against human breast, colon, and bladder cancer cell lines. Compounds that showed cytotoxic activity were subjected to both apoptosis and caspase-3 assays. With regard to selectivity, the cytotoxicity was also determined in cell cultures of two nontumoural lines. The most promising compounds are 4c, 5c and 7, which are amino-pyridinium, quinolyl-N-oxide, and pyridyl derivatives, respectively, and these reveal a significant in vitro cytotoxicity in at least two of the three cell lines tested. These compounds induced apoptosis and also produced a rapid dose-dependent increase in the caspase-3 level in HT-29 cells. Other encouraging profiles were found, such as those presented by 1k and 8d, which are cytotoxic and apoptotic but do not provoke an increase in the level of caspase-3, or those presented by 2f, 3c and 4a, which are slightly cytotoxic but do not show any other significant activity. The different types of behaviour of each compound are not necessarily parallel in the three cell lines tested.

Synthesis and biological evaluation of new symmetrical derivatives as cytotoxic agents and apoptosis inducers.

Based on the research of less toxic anticancer therapies, we have looked for novel compounds with anticancer activity based on a proapoptotic mechanism. The described compounds are derivatives of ether, carbamate, urea, amide, or amine. Some of the prepared compounds decreased cell viability of various tumor cell lines in a time- and dose-dependent manner, and also induced DNA fragmentation, which indicated cell apoptosis. The potential antitumoral activity of the compounds was evaluated in vitro by examining their cytotoxic effects against human mama, colon, and bladder cancer cell lines (MD-MBA-231, HT-29, and T-24). Compounds showing cytotoxic activity were subjected to an apoptosis assay. In addition, some of the synthesized compounds provoked a rapid and dose-dependent increase in the level of caspase-3, an enzyme, which is considered to be one of the principal executing caspases in which all of the biochemical routes involved in the apoptosis response converge. The most promising compounds, with respect to cytotoxicity and apoptosis induction capability, were the 4-nitrophenylcarbamate derivative of 2,2'-methylenebis(4-chlorophenyl) 3c, the naphthylurea derivative 4d, and the n-propylurea derivative 4c, from 4,4'-methylenebisphenyl, all of which displayed cytotoxic activity and showed very interesting levels of apoptosis. Furthermore, good levels of apoptosis induction were achieved for 3a and 4b in the T-24 cell line. Therefore, compounds such as 7b, a pyrido[2,3-d]pyrimidine derivative, show a significant in vitro cytotoxicity, with IC(50) values between 3 and 8 microm in the three cell lines tested. This compound also produced a rapid and dose-dependent increase of the caspase-3 level and induced apoptosis in HT-29 cells. Other profiles have been found, such as those presented by 5c and 7c, which are cytotoxic and apoptotic but do not provoke an increase in the level of caspase-3, or those presented by 1c, 1d, and 2a, which are cytotoxic, without showing any other activity. The different types of behavior of each compound are not necessarily parallel in the three cell lines tested. A great number of these compounds of interest show no cytotoxicity in nontumoral human cells such as CRL-8799, a nontumoral line of mama. Subsequent modulation of these lead structures permits advances in the design of potent cytotoxic and proapoptotic anticancer drugs.