Istvan Enyedy scite author profile

Bcl-2 belongs to a growing family of proteins which regulates programmed cell death (apoptosis). Overexpression of Bcl-2 has been observed in 70% of breast cancer, 30-60% of prostate cancer, 80% of B-cell lymphomas, 90% of colorectal adenocarcinomas, and many other forms of cancer. Thereby, Bcl-2 is an attractive new anti-cancer target. Herein, we describe the discovery of novel classes of small-molecule inhibitors targeted at the BH3 binding pocket in Bcl-2. The three-dimensional (3D) structure of Bcl-2 has been modeled on the basis of a high-resolution NMR solution structure of Bcl-X(L), which shares a high sequence homology with Bcl-2. A structure-based computer screening approach has been employed to search the National Cancer Institute 3D database of 206 876 organic compounds to identify potential Bcl-2 small-molecule inhibitors that bind to the BH3 binding site of Bcl-2. These potential Bcl-2 small-molecule inhibitors were first tested in an in vitro binding assay for their potency in inhibition of the binding of a Bak BH3 peptide to Bcl-2. Thirty-five potential inhibitors were tested in this binding assay, and seven of them were found to have a binding affinity (IC(50) value) from 1.6 to 14.0 microM. The anti-proliferative activity of these seven active compounds has been tested using a human myeloid leukemia cell line, HL-60, which expresses the highest level of Bcl-2 protein among all the cancer cell lines examined. Compound 6 was the most potent compound and had an IC(50) value of 4 microM in inhibition of cell growth using the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. Five other compounds had moderate activity in inhibition of cell growth. Compound 6 was further evaluated for its ability to induce apoptosis in cancer cells. It was found that 6 induces apoptosis in cancer cells with high Bcl-2 expression and its potency correlates with the Bcl-2 expression level in cancer cells. Furthermore, using NMR methods, we conclusively demonstrated that 6 binds to the BH3 binding site in Bcl-X(L). Our results showed that small-molecule inhibitors of Bcl-2 such as 6 modulate the biological function of Bcl-2, and induce apoptosis in cancer cells with high Bcl-2 expression, while they have little effect on cancer cells with low or undetectable levels of Bcl-2 expression. Therefore, compound 6 can be used as a valuable pharmacological tool to elucidate the function of Bcl-2 and also serves as a novel lead compound for further design and optimization. Our results suggest that the structure-based computer screening strategy employed in the study is effective for identifying novel, structurally diverse, nonpeptide small-molecule inhibitors that target the BH3 binding site of Bcl-2.

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Identification and Biochemical Characterization of Small-Molecule Inhibitors of Clostridium botulinum Neurotoxin Serotype A

Roxas-Duncan

Enyedy

Montgomery

et al. 2009

Antimicrob Agents Chemother

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An integrated strategy that combined in silico screening and tiered biochemical assays (enzymatic, in vitro, and ex vivo) was used to identify and characterize effective small-molecule inhibitors of Clostridium botulinum neurotoxin serotype A (BoNT/A). Virtual screening was initially performed by computationally docking compounds of the National Cancer Institute (NCI) database into the active site of BoNT/A light chain (LC). A total of 100 high-scoring compounds were evaluated in a high-performance liquid chromatography (HPLC)-based protease assay using recombinant full-length BoNT/A LC. Seven compounds that significantly inhibited the BoNT/A protease activity were selected. Database search queries of the best candidate hit [7-((4-nitroanilino)(phenyl)methyl)-8-quinolinol (NSC 1010)] were performed to mine its nontoxic analogs. Fifty-five analogs of NSC 1010 were synthesized and examined by the HPLC-based assay. Of these, five quinolinol derivatives that potently inhibited both full-length BoNT/A LC and truncated BoNT/A LC (residues 1 to 425) were selected for further inhibition studies in neuroblastoma (N2a) cell-based and tissue-based mouse phrenic nerve hemidiaphragm assays. Consistent with enzymatic assays, in vitro and ex vivo studies revealed that these five quinolinol-based analogs effectively neutralized BoNT/A toxicity, with CB 7969312 exhibiting ex vivo protection at 0.5 M. To date, this is the most potent BoNT/A small-molecule inhibitor that showed activity in an ex vivo assay. The reduced toxicity and high potency demonstrated by these five compounds at the biochemical, cellular, and tissue levels are distinctive among the BoNT/A small-molecule inhibitors reported thus far. This study demonstrates the utility of a multidisciplinary approach (in silico screening coupled with biochemical testing) for identifying promising small-molecule BoNT/A inhibitors.

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Origins and Diversity of the Aging Reaction in Phosphonate Adducts of Serine Hydrolase Enzymes: What Characteristics of the Active Site do They Probe?

Bencsura¹,

Enyedy²,

Kovach³

1995

Biochemistry

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Molecular mechanics and dynamics combined with semiempirical calculations were carried out for purposes of comparison of the active site characteristics of AChE, trypsin, and chymotrypsin as probed by their diastereomeric adducts with 2-(3,3-dimethylbutyl) methylphosphonofluoridate (soman), methylphosphonate monoester anions, and tetravalent carbonyl intermediates of the reactions of the natural substrates in each case. Glu199 is a key residue in the electrostatic catalytic mechanism of AChE, in removal of the leaving group, and possibly by acting as an alternate general base catalyst. "Pushing" of an alkoxy ligand by Glu199 and the numerous small van der Waals interactions promote dealkylation in phosphonate adducts of AChE much more effectively than any other enzyme. A high concentration of negative charge created by the phosphonate ester monoanion and Glu199 adjacent to it fully accounts for the resistance to the attack of even the strongest nucleophile applied for enzyme reactivation. Stabilization of the developing negative charge on the phosphonates in the soman-inhibited PSCS adducts of serine hydrolases is by electrophilic residues in the oxyanion hole (AChE) and the protonated catalytic His. PR diastereomers of soman-inhibited AChE can be accommodated in an orientation in which the oxyanion hole interactions are lost and for which the stabilizing interactions are 17-26 kcal/mol smaller than in the PS diastereomer. The dealkylation reaction is almost equally likely in all diastereomers of soman-inhibited AChE. The stabilizing interaction energies are approximately 4 kcal/mol greater in the PR than in the PS adducts of the soman-inhibited serine proteases. There is 0.60 unit greater partial negative charge on the phosphonyl fragment in the anion of phosphonate monoesters of Ser than at the oxygens of tetravalent carbonyl transients resulting in approximately 12-22 kcal/mol greater stabilization of the former than the latter.

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Istvan Enyedy

Small molecules inhibit the interaction of Nrf2 and the Keap1 Kelch domain through a non-covalent mechanism

Discovery of Small-Molecule Inhibitors of Bcl-2 through Structure-Based Computer Screening

Identification and Biochemical Characterization of Small-Molecule Inhibitors of Clostridium botulinum Neurotoxin Serotype A

Origins and Diversity of the Aging Reaction in Phosphonate Adducts of Serine Hydrolase Enzymes: What Characteristics of the Active Site do They Probe?

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