Emanuela Nizi scite author profile

Human immunodeficiency virus type-1 (HIV-1) integrase is one of the three virally encoded enzymes required for replication and therefore a rational target for chemotherapeutic intervention in the treatment of HIV-1 infection. We report here the discovery of Raltegravir, the first HIV-integrase inhibitor approved by FDA for the treatment of HIV infection. It derives from the evolution of 5,6-dihydroxypyrimidine-4-carboxamides and N-methyl-4-hydroxypyrimidinone-carboxamides, which exhibited potent inhibition of the HIV-integrase catalyzed strand transfer process. Structural modifications on these molecules were made in order to maximize potency as HIV-integrase inhibitors against the wild type virus, a selection of mutants, and optimize the selectivity, pharmacokinetic, and metabolic profiles in preclinical species. The good profile of Raltegravir has enabled its progression toward the end of phase III clinical trials for the treatment of HIV-1 infection and culminated with the FDA approval as the first HIV-integrase inhibitor for the treatment of HIV-1 infection.

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Discovery of MK-5172, a Macrocyclic Hepatitis C Virus NS3/4a Protease Inhibitor

Harper

McCauley

Rudd

et al. 2012

ACS Med. Chem. Lett.

185

140

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A new class of HCV NS3/4a protease inhibitors containing a P2 to P4 macrocyclic constraint was designed using a molecular modeling-derived strategy. Building on the profile of previous clinical compounds and exploring the P2 and linker regions of the series allowed for optimization of broad genotype and mutant enzyme potency, cellular activity, and rat liver exposure following oral dosing. These studies led to the identification of clinical candidate 15 (MK-5172), which is active against genotype 1−3 NS3/4a and clinically relevant mutant enzymes and has good plasma exposure and excellent liver exposure in multiple species.KEYWORDS: hepatitis C, HCV, MK-5172, macrocycle, genotype 3a, mutant enzymes H epatitis C virus (HCV) is a chronic liver infection that affects an estimated 130−170 million people worldwide. 1,2 HCV displays a high degree of genetic heterogeneity and can be classified into six major genotypes with different geographic distributions: genotypes 1, 2, and 3 account for more than 90% of the infections in the developed world. Treatment for HCV is based on combination therapy with pegylated interferon-α and ribavirin. 3 Sustained viral response is seen in ∼45% of HCV genotype 1-infected patients treated for 48 weeks and in ∼80% of genotype 2-and 3-infected patients treated for 24 weeks. Interferon and ribavirin therapy is also associated with a number of serious side effects, limiting the number of patients who may be treated. 4 There is a compelling medical need for new oral therapeutic agents with improved efficacy and tolerability. Several promising antiviral targets for HCV have emerged, 5 with NS3/4a protease inhibitors showing perhaps the most dramatic antiviral effects. 6 Clinical proof of concept for this mechanism was first achieved with BILN-2061. 7 Other compounds have entered clinical trials, including telaprevir 8 and boceprevir, 9 both of which are now marketed treatments for use in combination with a standard of care. Compounds currently in development include TMC-435 10 and We have disclosed a molecular modeling-derived strategy that led us to design HCV NS3/4a protease inhibitors that contain the P2 to P4 macrocyclic constraint. 12 This design arose from an analysis of the crystal structure of full-length NS3/4A with and without inhibitors docked in the active site. 13 Our strategy coupled with a modular synthetic approach, which relies on a key ring-closing metathesis (RCM) reaction, 14 allowed for the rapid exploration of these molecules and the identification of clinical candidates, vaniprevir (1) 15,16 and MK-1220 (2). 17 Herein, we describe the discovery of a clinical candidate with broad activity across genotypes (gt) and resistant HCV variants. 18,19 With the development of vaniprevir progressing, we set a goal for the ongoing discovery program to be the identification of a second generation NS3/4a protease inhibitor. We wanted to maintain or improve the PK profile seen with our previous compounds and make significant improvements in activity against the gt 3a enz...

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Development of Peptidomimetics with a Vinyl Sulfone Warhead as Irreversible Falcipain-2 Inhibitors

et al. 2008

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This paper describes the synthesis of a new class of peptidomimetic cysteine protease inhibitors based on a 1,4-benzodiazepine scaffold and on an electrophilic vinyl sulfone moiety. The former was introduced internally to a peptide sequence that mimics the fragment D-Ser-Gly; the latter was built on the P1-P1' site and reacts as a classical "Michael acceptor", leading to an alkylated enzyme by irreversible addition of the thiol group of the active site cysteine. The introduction of the vinyl sulfone moiety has been accomplished by olefin cross-metathesis, a powerful tool for the formation of carbon-carbon double bonds. New compounds 2-3 have been proven to be potent and selective inhibitors of falcipain-2, a cysteine protease isolated from Plasmodium falciparum, displaying antiplasmodial activity.

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Dihydroxypyrimidine-4-carboxamides as Novel Potent and Selective HIV Integrase Inhibitors

et al. 2007

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Human immunodeficiency virus type-1 (HIV-1) integrase, one of the three constitutive viral enzymes required for replication, is a rational target for chemotherapeutic intervention in the treatment of AIDS that has also recently been confirmed in the clinical setting. We report here on the design and synthesis of N-benzyl-5,6-dihydroxypyrimidine-4-carboxamides as a class of agents which exhibits potent inhibition of the HIV-integrase-catalyzed strand transfer process. In the current study, structural modifications on these molecules were made in order to examine effects on HIV-integrase inhibitory potencies. One of the most interesting compounds for this series is 2-[1-(dimethylamino)-1-methylethyl]-N-(4-fluorobenzyl)-5,6-dihydroxypyrimidine-4-carboxamide 38, with a CIC95 of 78 nM in the cell-based assay in the presence of serum proteins. The compound has favorable pharmacokinetic properties in preclinical species (rats, dogs, and monkeys) and shows no liabilities in several counterscreening assays, highlighting its potential as a clinically useful antiviral agent.

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Discovery and Synthesis of HIV Integrase Inhibitors: Development of Potent and Orally Bioavailable N-Methyl Pyrimidones

et al. 2007

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The human immunodeficiency virus type-1 (HIV-1) encodes three enzymes essential for viral replication: a reverse transcriptase, a protease, and an integrase. The latter is responsible for the integration of the viral genome into the human genome and, therefore, represents an attractive target for chemotherapeutic intervention against AIDS. A drug based on this mechanism has not yet been approved. Benzyl-dihydroxypyrimidine-carboxamides were discovered in our laboratories as a novel and metabolically stable class of agents that exhibits potent inhibition of the HIV integrase strand transfer step. Further efforts led to very potent compounds based on the structurally related N-Me pyrimidone scaffold. One of the more interesting compounds in this series is the 2-N-Me-morpholino derivative 27a, which shows a CIC95 of 65 nM in the cell in the presence of serum. The compound has favorable pharmacokinetic properties in three preclinical species and shows no liabilities in several counterscreening assays.

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Novel Peptidomimetics Containing a Vinyl Ester Moiety as Highly Potent and Selective Falcipain-2 Inhibitors

et al. 2009

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This paper describes the synthesis and biological evaluation of a new class of peptidomimetic falcipain-2 inhibitors based on a 1,4-benzodiazepine scaffold combined with various alpha,beta-unsaturated electrophilic functions such as vinyl-ketone, -amide, -ester, and -nitrile. The profile of reactivity of this class of derivatives has been evaluated and 4c, containing a vinyl ester warhead, proved to be a highly potent and selective falcipain-2 inhibitor.

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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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The monoethyl ester of meconic acid is an active site inhibitor of HCV NS5B RNA-dependent RNA polymerase

Pace

Nizi

Pacini

et al. 2004

Bioorganic & Medicinal Chemistry Letters

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12 3

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Emanuela Nizi

Discovery of Raltegravir, a Potent, Selective Orally Bioavailable HIV-Integrase Inhibitor for the Treatment of HIV-AIDS Infection

Discovery of MK-5172, a Macrocyclic Hepatitis C Virus NS3/4a Protease Inhibitor

Development of Peptidomimetics with a Vinyl Sulfone Warhead as Irreversible Falcipain-2 Inhibitors

Dihydroxypyrimidine-4-carboxamides as Novel Potent and Selective HIV Integrase Inhibitors

Discovery and Synthesis of HIV Integrase Inhibitors: Development of Potent and Orally Bioavailable N-Methyl Pyrimidones

Novel Peptidomimetics Containing a Vinyl Ester Moiety as Highly Potent and Selective Falcipain-2 Inhibitors

Discovery of a Selective Series of Inhibitors of Plasmodium falciparum HDACs

The monoethyl ester of meconic acid is an active site inhibitor of HCV NS5B RNA-dependent RNA polymerase

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