Jubrail Rahil scite author profile

The crystal structure of a complex formed on reaction of the Enterobacter cloacae P99 cephalosporinase (beta-lactamase) with a phosphonate monoester inhibitor, m-carboxyphenyl [[N-[(p-iodophenyl)acetyl]amino]methyl]phosphonate, has been obtained at 2.3-A resolution. The structure shows that the inhibitor has phosphonylated the active site serine (Ser64) with loss of the m-carboxyphenol leaving group. The inhibitor is positioned in the active site in a way that can be interpreted in terms of a transition-state analog. The arylacetamido side chain is placed as anticipated from analogous beta-lactamoyl complexes of penicillin-recognizing enzymes, with the amino group hydrogen-bonded to the backbone carbonyl of Ser318 (of the B3 beta-strand) and to the amides of Gln120 and Asn152. There is support in the asymmetry of the hydrogen bonding of this side chain to the protein and in the 2-fold disorder of the benzyl group for the considerable breadth in substrate specificity exhibited by class C beta-lactamases. One phosphonyl oxygen atom is in the oxyanion hole, hydrogen-bonded to main-chain NH groups of Ser318 and Ser64, while the other oxygen is solvated, not within hydrogen-bonding distance of any amino acid side chain. The closest active site functional group to the solvated oxygen atom is the Tyr150 hydroxyl group (3.4A); Lys67 and Lys315 are quite distant (4.3 and 5.7 A, respectively). Rather, Tyr150 and Lys67 are more closely associated with Ser64O gamma (2.9 and 3.3 A). This arrangement is interpreted in terms of the transition state for breakdown of the tetrahedral intermediate in the deacylation step of catalysis, where the Tyr150 phenol seems the most likely general acid. Thus, Tyr150, as the phenoxide anion, would be the general base catalyst in acylation, as proposed by Oefner et al. [Nature (1990) 343, 284-288]. The structure is compared with that of a similar phosphonate derivative of a class A beta-lactamase [Chen et al. (1993) J. Mol. Biol. 234, 165-178], and mechanistic comparisons are made. The sensitivity of serine beta-lactamases, as opposed to serine proteinases, toward inhibition by phosphonate monoanions is supported by electrostatic calculations showing a net positive potential only in the catalytic sites of the beta-lactamases.

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MGCD0103, a novel isotype-selective histone deacetylase inhibitor, has broad spectrum antitumor activity in vitro and in vivo

Fournel¹,

Bonfils²,

Hou³

et al. 2008

312

241

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Nonselective inhibitors of human histone deacetylases (HDAC) are known to have antitumor activity in mice in vivo, and several of them are under clinical investigation. The first of these, Vorinostat (SAHA), has been approved for treatment of cutaneous T-cell lymphoma. Questions remain concerning which HDAC isotype(s) are the best to target for anticancer activity and whether increased efficacy and safety will result with an isotypeselective HDAC inhibitor. We have developed an isotypeselective HDAC inhibitor, MGCD0103, which potently targets human HDAC1 but also has inhibitory activity against HDAC2, HDAC3, and HDAC11 in vitro. In intact cells, MGCD0103 inhibited only a fraction of the total HDAC activity and showed long-lasting inhibitory activity even upon drug removal. MGCD0103 induced hyperacetylation of histones, selectively induced apoptosis, and caused cell cycle blockade in various human cancer cell lines in a dose-dependent manner. MGCD0103 exhibited potent and selective antiproliferative activities against a broad spectrum of human cancer cell lines in vitro, and HDAC inhibitory activity was required for these effects. In vivo, MGCD0103 significantly inhibited growth of human tumor xenografts in nude mice in a dose-dependent manner and the antitumor activity correlated with induction of histone acetylation in tumors. Our findings suggest that the isotype-selective HDAC inhibition by MGCD0103 is sufficient for antitumor activity in vivo and that further clinical investigation is warranted. [Mol Cancer Ther 2008;7(4):759 -68]

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Novel Aminophenyl Benzamide-Type Histone Deacetylase Inhibitors with Enhanced Potency and Selectivity

et al. 2007

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Significant effort is being made to understand the role of HDAC isotypes in human cancer and to develop antitumor agents with better therapeutic windows. A part of this endeavor was the exploration of the 14 A internal cavity adjacent to the enzyme catalytic site, which led to the design and synthesis of compound 4 with the unusual bis(aryl)-type pharmacophore. SAR studies around this lead resulted in optimization to potent, selective, nonhydroxamic acid HDAC inhibitors.

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Mechanism of inhibition of the class C .beta.-lactamase of Enterobacter cloacae P99 by phosphonate monoesters

Rahil

Pratt²

1992

Biochemistry

119

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The class C serine beta-lactamase of Enterobacter cloacae P99 was inhibited by a series of aryl methylphosphonate monoester monoanions. The effectiveness of these inhibitors was promoted by an acylamido substituent on the methyl group and a good leaving group at phosphorus. The former preference suggests that noncovalent interaction of these inhibitors with the enzyme resembles that of substrates, while the latter suggests that nucleophilic displacement at phosphorus occurs as part of the inhibition mechanism. The truth of the latter proposition was confirmed by observation of release of 1 equiv of phenol concomitant with inhibition and of the presence of an equivalent amount of 14C-label on the enzyme after inhibition by a 14C-labeled phosphonate. The hydrolytically inert nature of the enzyme-inhibitor adduct, and its 31P chemical shift, suggested that O-phosphonylation of the enzyme had occurred. Although, by analogy with substrates, one might expect that the hydroxyl of the active site serine residue would be covalently modified by these inhibitors, successive alkali and acid treatment of the enzyme-inhibitor adduct generated no pyruvate. Instead, 1 equiv of lysinoalanine was found. This product was rationalized to arise through intramolecular capture by an adjacent lysine amine group of the dehydroalanine residue produced by alkali treatment of an O-phosphonylated serine residue. One equivalent of lysinoalanine was also produced by alkali treatment of the enzyme that had been inhibited by 6 beta-bromopenicillanic acid, a mechanism-based inhibitor known to acylate the hydroxyl group of the active site serine residue. It is therefore likely that the aryl phosphonates phosphonylate this residue. These compounds should be useful as beta-lactamase active site titrants and as sources of fresh insight into the chemical properties of the active site. The significant mechanistic features of the inhibition, in particular its strong leaving group dependence and the distinctive ability of the beta-lactamase active site to stabilize a dianionic transition state containing a pentacoordinated phosphorus, are discussed with respect to the active site structure. The comparison with phosph(or/on)yl inhibitors of serine proteinases is made, and the mechanism-based features of inhibition of serine hydrolases by phosph(on)ates are noted.

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Structure of a Phosphonate-inhibited β-Lactamase

Chen

Rahil

Pratt

et al. 1993

Journal of Molecular Biology

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Jubrail Rahil

Crystallographic Structure of a Phosphonate Derivative of the Enterobacter cloacae P99 Cephalosporinase: Mechanistic Interpretation of a .beta.-Lactamase Transition-State Analog

MGCD0103, a novel isotype-selective histone deacetylase inhibitor, has broad spectrum antitumor activity in vitro and in vivo

Novel Aminophenyl Benzamide-Type Histone Deacetylase Inhibitors with Enhanced Potency and Selectivity

Mechanism of inhibition of the class C .beta.-lactamase of Enterobacter cloacae P99 by phosphonate monoesters

Structure of a Phosphonate-inhibited β-Lactamase

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