A large series of 3-carboxamido-7-substituted coumarins have been synthesized and tested in vitro for their human monoamine oxidase A and B (hMAO-A and hMAO-B) inhibitory activity. Taking into account all the relevant structural information on MAOs reported in the literature, we made some changes in the coumarin nucleus and examined with particular attention the effect on activity and selectivity of substituting at position 3 with N-aryl or N-alkyl carboxamide and at position 7 with a benzyloxy or a 4'-F-benzyloxy group. Some of the assayed compounds proved to be potent, selective inhibitors of hMAO-B with IC(50) values in the micromolar range. To better understand the enzyme-inhibitor interaction and to explain the selectivity of the most active compounds toward hMAOs, molecular modeling studies were carried out on new, high resolution, hMAO-A and hMAO-B crystallographic structures.
Acetylation is a key modulator of genome accessibility through decondensation of the chromatin structure. The balance between acetylation and opposite deacetylation is, in fact, a prerequisite for several cell functions and differentiation. To find modulators of the histone acetyltransferase Gcn5p, we performed a phenotypic screening on a set of newly synthesized molecules derived from thiazole in budding yeast Saccharomyces cerevisiae. We selected compounds that induce growth inhibition in yeast strains deleted in genes encoding known histone acetyltransferases. A novel molecule CPTH2, cyclopentylidene-[4-(4'-chlorophenyl)thiazol-2-yl)hydrazone, was selected based on its inhibitory effect on the growth of a gcn5Delta strain. We demonstrated a specific chemical-genetic interaction between CPTH2 and HAT Gcn5p, indicating that CPTH2 inhibits the Gcn5p dependent functional network. CPTH2 inhibited an in vitro HAT reaction, which is reverted by increasing concentration of histone H3. In vivo, it decreased acetylation of bulk histone H3 at the specific H3-AcK14 site. On the whole, our results demonstrate that CPTH2 is a novel HAT inhibitor modulating Gcn5p network in vitro and in vivo.
Pyrazole derivatives
Pyrazole derivatives R 0180Inhibition of Amine Oxidases Activity by 1-Acetyl-3,5-diphenyl-4,5-dihydro-(1H)-pyrazole Derivatives. -The novel title derivatives (V) are synthesized and evaluated for their ability to inhibit selectively monoamine oxidases, swine kidney oxidase, and bovine serum amine oxidase. Compounds (V) are reversible and non-competitive inhibitors of all types of amine oxidases. Pyrazoles (V) inhibit monoamine oxidases potently, especially pyrazole (Vf), which exhibits activity in the nanomolar range accompanied by a selectivity factor of 4000 for monoamine oxidases. In addition, possible interactions between the pyrazoles and monoamine oxidase B are investigated by a computational approach. -(MANNA*, F.; CHIMENTI, F.; BOLASCO, A.; SECCI, D.; BIZZARRI, B.; BEFANI, O.; TURINI, P.; MONDOVI, B.; ALCARO, S.; TAFI, A.; Bioorg. Med. Chem. Lett. 12 (2002) 24, 3629-3633; Dip. Stud. Chim.
Purpose: We previously identified novel thiazole derivatives able to reduce histone acetylation and histone acetyltransferase (HAT) activity in yeast. Among these compounds, 3-methylcyclopentylidene-[4-(4 0 -chlorophenyl)thiazol-2-yl]hydrazone (CPTH6) has been selected and used throughout this study.Experimental Design: The effect of CPTH6 on histone acetylation, cell viability and differentiation, cellcycle distribution, and apoptosis in a panel of acute myeloid leukemia and solid tumor cell lines has been evaluated.Results: Here, we showed that CPTH6 leads to an inhibition of Gcn5 and pCAF HAT activity. Moreover, it inhibits H3/H4 histones and a-tubulin acetylation of a panel of leukemia cell lines. Concentration-and time-dependent inhibition of cell viability, paralleled by accumulation of cells in the G 0 /G 1 phase and depletion from the S/G 2 M phases, was observed. The role of mitochondrial pathway on CPTH6-induced apoptosis was shown, being a decrease of mitochondrial membrane potential and the release of cytochrome c, from mitochondria to cytosol, induced by CPTH6. Also the involvement of Bcl-2 and Bcl-xL on CPTH6-induced apoptosis was found after overexpression of the two proteins in leukemia cells. Solid tumor cell lines from several origins were shown to be differently sensitive to CPTH6 treatment in terms of cell viability, and a correlation between the inhibitory efficacy on H3/H4 histones acetylation and cytotoxicity was found. Differentiating effect on leukemia and neuroblastoma cell lines was also induced by CPTH6.Conclusions: These results make CPTH6 a suitable tool for discovery of molecular targets of HAT and, potentially, for the development of new anticancer therapies, which warrants further investigations.
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