Federica Ferrigno scite author profile

Histone deacetylases (HDACs) regulate chromatin status and gene expression, and their inhibition is of significant therapeutic interest. To date, no biological substrate for class IIa HDACs has been identified, and only low activity on acetylated lysines has been demonstrated. Here, we describe inhibitor-bound and inhibitor-free structures of the histone deacetylase-4 catalytic domain (HDAC4cd) and of an HDAC4cd active site mutant with enhanced enzymatic activity toward acetylated lysines. The structures presented, coupled with activity data, provide the molecular basis for the intrinsically low enzymatic activity of class IIa HDACs toward acetylated lysines and reveal active site features that may guide the design of class-specific inhibitors. In addition, these structures reveal a conformationally flexible structural zinc-binding domain conserved in all class IIa enzymes. Importantly, either the mutation of residues coordinating the structural zinc ion or the binding of a class IIa selective inhibitor prevented the association of HDAC4 with the N-CoR⅐HDAC3 repressor complex. Together, these data suggest a key role of the structural zinc-binding domain in the regulation of class IIa HDAC functions.

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Discovery of 2-{4-[(3S)-Piperidin-3-yl]phenyl}-2H-indazole-7-carboxamide (MK-4827): A Novel Oral Poly(ADP-ribose)polymerase (PARP) Inhibitor Efficacious in BRCA-1 and -2 Mutant Tumors

Jones

et al. 2009

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We disclose the development of a novel series of 2-phenyl-2H-indazole-7-carboxamides as poly(ADP-ribose)polymerase (PARP) 1 and 2 inhibitors. This series was optimized to improve enzyme and cellular activity, and the resulting PARP inhibitors display antiproliferation activities against BRCA-1 and BRCA-2 deficient cancer cells, with high selectivity over BRCA proficient cells. Extrahepatic oxidation by CYP450 1A1 and 1A2 was identified as a metabolic concern, and strategies to improve pharmacokinetic properties are reported. These efforts culminated in the identification of 2-{4-[(3S)-piperidin-3-yl]phenyl}-2H-indazole-7-carboxamide 56 (MK-4827), which displays good pharmacokinetic properties and is currently in phase I clinical trials. This compound displays excellent PARP 1 and 2 inhibition with IC(50) = 3.8 and 2.1 nM, respectively, and in a whole cell assay, it inhibited PARP activity with EC(50) = 4 nM and inhibited proliferation of cancer cells with mutant BRCA-1 and BRCA-2 with CC(50) in the 10-100 nM range. Compound 56 was well tolerated in vivo and demonstrated efficacy as a single agent in a xenograft model of BRCA-1 deficient cancer.

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2-Trifluoroacetylthiophenes, a novel series of potent and selective class II histone deacetylase inhibitors

Jones

Bottomley

Carfı́

et al. 2008

Bioorganic & Medicinal Chemistry Letters

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Discovery of a Selective Series of Inhibitors of Plasmodium falciparum HDACs

Ontoria

Paonessa

Ponzi

et al. 2016

ACS Med. Chem. Lett.

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The identification of a new series of P. falciparum growth inhibitors is described. Starting from a series of known human class I HDAC inhibitors a SAR exploration based on growth inhibitory activity in parasite and human cells-based assays led to the identification of compounds with submicromolar inhibition of P. falciparum growth (EC 50 < 500 nM) and good selectivity over the activity of human HDAC in cells (up to >50-fold). Inhibition of parasital HDACs as the mechanism of action of this new class of selective growth inhibitors is supported by hyperacetylation studies.KEYWORDS: Malaria, Plasmodium falciparum, PfHDAC1, 4-arylimidazoles I nfection with malaria parasites such as Plasmodium falciparum remains a devastating cause of death in tropical geographies with 40% of the world population at risk of acquiring the disease. There are approximately 200 million clinical cases of malaria every year leading to an estimated 600,000 deaths.1 The requirement for improved therapies to treat and to cure malaria is an evident medical and humanitarian need that is exacerbated by an alarming rise in parasite resistance to the current standard of care.2,3 Drugs that operate via novel mechanisms of action for which no innately resistant parasites are expected are therefore especially desirable.DNA is tightly packed around histone proteins in the nucleus of eukaryotic cells with its transcription being regulated by chemical modifications to the nucleosomal histone proteins themselves. Histone deacetylases (HDACs) are zinc-dependent enzymes that play crucial roles in modulating mammalian cell chromatin structure, transcription, and gene expression. 4−6HDACs have also been identified as important regulators of transcription in P. falciparum, 7−10 and inhibition of P. falciparum histone deacetylases (Pf HDACs) has been reported to both effectively kill the parasites (Vorinostat, Figure 1) 11−16 and lead to efficacy in animal models of malaria (compound 2).17 Such findings underscore the potential for Pf HDAC inhibitors to be used for malaria therapy. 18−20 Of the five HDAC encoding genes known in P. falciparum one has homology to mammalian class I isoforms (Pf HDAC1), two are similar class II (Pf HDAC2 and 3) mammalian HDACs, while the remaining two are class III HDACs, or silent information regulator 2 (SIR2) proteins. 19 In light of the close sequence homology between Pf HDAC1 and human class I HDACs 21 an

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Identification of Novel, Selective, and Stable Inhibitors of Class II Histone Deacetylases. Validation Studies of the Inhibition of the Enzymatic Activity of HDAC4 by Small Molecules as a Novel Approach for Cancer Therapy

Ontoria¹,

Altamura²,

Marco³

et al. 2009

J. Med. Chem.

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5-Aryl-2-(trifluoroacetyl)thiophenes were identified as a new series of class II HDAC inhibitors (HDACi). Further development of this new series led to compounds such as 6h, a potent inhibitor of HDAC4 and HDAC6 (HDAC4 WT IC(50) = 310 nM, HDAC6 IC(50) = 70 nM) that displays 40-fold selectivity over HDAC1 and improved stability in HCT116 cancer cells (t(1/2) = 11 h). Compounds 6h and 2 show inhibition of alpha-tubulin deacetylation in HCT116 cells at 1 microM concentration and antiproliferation effects only at concentrations where inhibition of histone H3 deacetylation is observed.

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