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1.
Proc Natl Acad Sci U S A ; 120(18): e2216342120, 2023 05 02.
Artigo em Inglês | MEDLINE | ID: mdl-37098070

RESUMO

NKG2D (natural-killer group 2, member D) is a homodimeric transmembrane receptor that plays an important role in NK, γδ+, and CD8+ T cell-mediated immune responses to environmental stressors such as viral or bacterial infections and oxidative stress. However, aberrant NKG2D signaling has also been associated with chronic inflammatory and autoimmune diseases, and as such NKG2D is thought to be an attractive target for immune intervention. Here, we describe a comprehensive small-molecule hit identification strategy and two distinct series of protein-protein interaction inhibitors of NKG2D. Although the hits are chemically distinct, they share a unique allosteric mechanism of disrupting ligand binding by accessing a cryptic pocket and causing the two monomers of the NKG2D dimer to open apart and twist relative to one another. Leveraging a suite of biochemical and cell-based assays coupled with structure-based drug design, we established tractable structure-activity relationships with one of the chemical series and successfully improved both the potency and physicochemical properties. Together, we demonstrate that it is possible, albeit challenging, to disrupt the interaction between NKG2D and multiple protein ligands with a single molecule through allosteric modulation of the NKG2D receptor dimer/ligand interface.


Assuntos
Células Matadoras Naturais , Subfamília K de Receptores Semelhantes a Lectina de Células NK , Ligantes , Linfócitos T CD8-Positivos , Ligação Proteica
2.
Proc Natl Acad Sci U S A ; 112(14): 4453-8, 2015 Apr 07.
Artigo em Inglês | MEDLINE | ID: mdl-25831516

RESUMO

Infections caused by antibiotic-resistant bacteria are a rising public health threat and make the identification of new antibiotics a priority. From a cell-based screen for bactericidal compounds against Mycobacterium tuberculosis under nutrient-deprivation conditions we identified auranofin, an orally bioavailable FDA-approved antirheumatic drug, as having potent bactericidal activities against both replicating and nonreplicating M. tuberculosis. We also found that auranofin is active against other Gram-positive bacteria, including Bacillus subtilis and Enterococcus faecalis, and drug-sensitive and drug-resistant strains of Enterococcus faecium and Staphylococcus aureus. Our biochemical studies showed that auranofin inhibits the bacterial thioredoxin reductase, a protein essential in many Gram-positive bacteria for maintaining the thiol-redox balance and protecting against reactive oxidative species. Auranofin decreases the reducing capacity of target bacteria, thereby sensitizing them to oxidative stress. Finally, auranofin was efficacious in a murine model of methicillin-resistant S. aureus infection. These results suggest that the thioredoxin-mediated redox cascade of Gram-positive pathogens is a valid target for the development of antibacterial drugs, and that the existing clinical agent auranofin may be repurposed to aid in the treatment of several important antibiotic-resistant pathogens.


Assuntos
Antibacterianos/química , Auranofina/química , Compostos de Sulfidrila/química , Animais , Bacillus subtilis/efeitos dos fármacos , Proteínas de Bactérias/química , Relação Dose-Resposta a Droga , Enterococcus faecium/efeitos dos fármacos , Feminino , Deleção de Genes , Glutationa/química , Homeostase , Camundongos , Testes de Sensibilidade Microbiana , Mycobacterium tuberculosis/efeitos dos fármacos , Oxirredução , Estresse Oxidativo , Staphylococcus aureus/efeitos dos fármacos , Células-Tronco , Tiorredoxina Dissulfeto Redutase/química
3.
Angew Chem Int Ed Engl ; 57(13): 3478-3482, 2018 03 19.
Artigo em Inglês | MEDLINE | ID: mdl-29388301

RESUMO

The generation of ATP through oxidative phosphorylation is an essential metabolic function for Mycobaterium tuberculosis (Mtb), regardless of the growth environment. The type II NADH dehydrogenase (Ndh-2) is the conduit for electrons into the pathway, and is absent in the mammalian genome, thus making it a potential drug target. Herein, we report the identification of two types of small molecules as selective inhibitors for Ndh-2 through a multicomponent high-throughput screen. Both compounds block ATP synthesis, lead to effects consistent with loss of NADH turnover, and importantly, exert bactericidal activity against Mtb. Extensive medicinal chemistry optimization afforded the best analogue with an MIC of 90 nm against Mtb. Moreover, the two scaffolds have differential inhibitory activities against the two homologous Ndh-2 enzymes in Mtb, which will allow precise control over Ndh-2 function in Mtb to facilitate the assessment of this anti-TB drug target.


Assuntos
Antibacterianos/farmacologia , Indazóis/farmacologia , Mycobacterium tuberculosis/enzimologia , NADH Desidrogenase/antagonistas & inibidores , Quinazolinas/farmacologia , Avaliação Pré-Clínica de Medicamentos , Viabilidade Microbiana/efeitos dos fármacos
4.
Angew Chem Int Ed Engl ; 56(42): 13011-13015, 2017 10 09.
Artigo em Inglês | MEDLINE | ID: mdl-28815830

RESUMO

Mycobacterium tuberculosis (Mtb) DprE1, an essential isomerase for the biosynthesis of the mycobacterial cell wall, is a validated target for tuberculosis (TB) drug development. Here we report the X-ray crystal structures of DprE1 and the DprE1 resistant mutant (Y314C) in complexes with TCA1 derivatives to elucidate the molecular basis of their inhibitory activities and an unconventional resistance mechanism, which enabled us to optimize the potency of the analogs. The selected lead compound showed excellent in vitro and in vivo activities, and low risk of toxicity profile except for the inhibition of CYP2C9. A crystal structure of CYP2C9 in complex with a TCA1 analog revealed the similar interaction patterns to the DprE1-TCA1 complex. Guided by the structures, an optimized molecule was generated with differential inhibitory activities against DprE1 and CYP2C9, which provides insights for development of a clinical candidate to treat TB.


Assuntos
Antituberculosos/química , Proteínas de Bactérias/metabolismo , Citocromo P-450 CYP2C9/metabolismo , Mycobacterium tuberculosis/metabolismo , Tiofenos/química , Animais , Antituberculosos/farmacologia , Antituberculosos/uso terapêutico , Proteínas de Bactérias/antagonistas & inibidores , Sítios de Ligação , Domínio Catalítico , Cristalografia por Raios X , Citocromo P-450 CYP2C9/química , Farmacorresistência Bacteriana/efeitos dos fármacos , Camundongos , Testes de Sensibilidade Microbiana , Simulação de Dinâmica Molecular , Mycobacterium tuberculosis/efeitos dos fármacos , Relação Estrutura-Atividade , Tiofenos/farmacologia , Tiofenos/uso terapêutico , Tuberculose/tratamento farmacológico , Tuberculose/veterinária
5.
Proc Natl Acad Sci U S A ; 109(52): 21486-91, 2012 Dec 26.
Artigo em Inglês | MEDLINE | ID: mdl-23236186

RESUMO

Early secretory and endoplasmic reticulum (ER)-localized proteins that are terminally misfolded or misassembled are degraded by a ubiquitin- and proteasome-mediated process known as ER-associated degradation (ERAD). Protozoan pathogens, including the causative agents of malaria, toxoplasmosis, trypanosomiasis, and leishmaniasis, contain a minimal ERAD network relative to higher eukaryotic cells, and, because of this, we observe that the malaria parasite Plasmodium falciparum is highly sensitive to the inhibition of components of this protein quality control system. Inhibitors that specifically target a putative protease component of ERAD, signal peptide peptidase (SPP), have high selectivity and potency for P. falciparum. By using a variety of methodologies, we validate that SPP inhibitors target P. falciparum SPP in parasites, disrupt the protein's ability to facilitate degradation of unstable proteins, and inhibit its proteolytic activity. These compounds also show low nanomolar activity against liver-stage malaria parasites and are also equipotent against a panel of pathogenic protozoan parasites. Collectively, these data suggest ER quality control as a vulnerability of protozoan parasites, and that SPP inhibition may represent a suitable transmission blocking antimalarial strategy and potential pan-protozoan drug target.


Assuntos
Antiparasitários/farmacologia , Ácido Aspártico Endopeptidases/antagonistas & inibidores , Desenho de Fármacos , Degradação Associada com o Retículo Endoplasmático/efeitos dos fármacos , Inibidores de Proteases/farmacologia , Animais , Antiparasitários/química , Ácido Aspártico Endopeptidases/genética , Ácido Aspártico Endopeptidases/metabolismo , Sequência de Bases , Biologia Computacional , Resistência a Medicamentos/efeitos dos fármacos , Estresse do Retículo Endoplasmático/efeitos dos fármacos , Células Hep G2 , Humanos , Estágios do Ciclo de Vida/efeitos dos fármacos , Fígado/efeitos dos fármacos , Fígado/parasitologia , Dados de Sequência Molecular , Parasitos/efeitos dos fármacos , Parasitos/enzimologia , Parasitos/crescimento & desenvolvimento , Plasmodium falciparum/efeitos dos fármacos , Plasmodium falciparum/enzimologia , Plasmodium falciparum/crescimento & desenvolvimento , Inibidores de Proteases/química , Inibidores de Proteassoma/farmacologia , Proteólise/efeitos dos fármacos , Proteoma/metabolismo , Bibliotecas de Moléculas Pequenas/farmacologia , Toxoplasma/efeitos dos fármacos , Toxoplasma/enzimologia , Toxoplasma/crescimento & desenvolvimento , Trypanosoma cruzi/efeitos dos fármacos , Trypanosoma cruzi/enzimologia , Trypanosoma cruzi/crescimento & desenvolvimento
6.
Proc Natl Acad Sci U S A ; 108(34): E526-34, 2011 Aug 23.
Artigo em Inglês | MEDLINE | ID: mdl-21844374

RESUMO

Malaria causes worldwide morbidity and mortality, and while chemotherapy remains an excellent means of malaria control, drug-resistant parasites necessitate the discovery of new antimalarials. Peptidases are a promising class of drug targets and perform several important roles during the Plasmodium falciparum erythrocytic life cycle. Herein, we report a multidisciplinary effort combining activity-based protein profiling, biochemical, and peptidomic approaches to functionally analyze two genetically essential P. falciparum metallo-aminopeptidases (MAPs), PfA-M1 and Pf-LAP. Through the synthesis of a suite of activity-based probes (ABPs) based on the general MAP inhibitor scaffold, bestatin, we generated specific ABPs for these two enzymes. Specific inhibition of PfA-M1 caused swelling of the parasite digestive vacuole and prevented proteolysis of hemoglobin (Hb)-derived oligopeptides, likely starving the parasite resulting in death. In contrast, inhibition of Pf-LAP was lethal to parasites early in the life cycle, prior to the onset of Hb degradation suggesting that Pf-LAP has an essential role outside of Hb digestion.


Assuntos
Aminopeptidases/antagonistas & inibidores , Leucina/análogos & derivados , Malária/parasitologia , Técnicas de Sonda Molecular , Sondas Moleculares/metabolismo , Família Multigênica , Sequência de Aminoácidos , Aminopeptidases/metabolismo , Inibidores Enzimáticos/química , Inibidores Enzimáticos/farmacologia , Hemoglobinas/metabolismo , Leucina/química , Leucina/farmacologia , Leucil Aminopeptidase/antagonistas & inibidores , Modelos Moleculares , Dados de Sequência Molecular , Biblioteca de Peptídeos , Peptídeos/química , Peptídeos/metabolismo , Plasmodium falciparum/efeitos dos fármacos , Plasmodium falciparum/enzimologia , Análise Serial de Proteínas , Processamento de Proteína Pós-Traducional/efeitos dos fármacos , Especificidade por Substrato/efeitos dos fármacos
7.
Chem Res Toxicol ; 25(3): 755-62, 2012 Mar 19.
Artigo em Inglês | MEDLINE | ID: mdl-22332732

RESUMO

DNA-interstrand cross-links (ICLs) can be repaired by biochemical pathways requiring DNA polymerases that are capable of translesion DNA synthesis (TLS). The anticipated function of TLS polymerases in these pathways is to insert nucleotides opposite and beyond the linkage site. The outcome of these reactions can be either error-free or mutagenic. TLS-dependent repair of ICLs formed between the exocyclic nitrogens of deoxyguanosines (N(2)-dG) can result in low-frequency base substitutions, predominantly G to T transversions. Previously, we demonstrated in vitro that error-free bypass of a model acrolein-mediated N(2)-dG ICL can be accomplished by human polymerase (pol) κ, while Rev1 can contribute to this bypass by inserting dC opposite the cross-linked dG. The current study characterized two additional human DNA polymerases, pol η and pol ι, with respect to their potential contributions to either error-free or mutagenic bypass of these lesions. In the presence of individual dNTPs, pol η could insert dA, dG, and dT opposite the cross-linked dG, but incorporation of dC was not apparent. Further primer extension was observed only from the dC and dG 3' termini, and the amounts of products were low relative to the matched undamaged substrate. Analyses of bypass products beyond the adducted site revealed that dG was present opposite the cross-linked dG in the majority of extended primers, and short deletions were frequently detected. When pol ι was tested for its ability to replicate past this ICL, the correct dC was preferentially incorporated, but no further extension was observed. Under the steady-state conditions, the efficiency of dC incorporation was reduced ~500-fold relative to the undamaged dG. Thus, in addition to pol κ-catalyzed error-free bypass of N(2)-dG ICLs, an alternative, albeit low-efficiency, mechanism may exist. In this pathway, either Rev1 or pol ι could insert dC opposite the lesion, while pol η could perform the subsequent extension.


Assuntos
DNA Polimerase beta/metabolismo , Replicação do DNA , DNA Polimerase Dirigida por DNA/metabolismo , Desoxiguanosina/metabolismo , Dano ao DNA , Humanos
8.
Bioorg Med Chem Lett ; 18(22): 5932-6, 2008 Nov 15.
Artigo em Inglês | MEDLINE | ID: mdl-18823778

RESUMO

A novel set of activity-based probes (ABPs) for functionally profiling metallo-aminopeptidases was synthesized based on the bestatin inhibitor scaffold, the first synthesis of bestatin analogues using solid-phase techniques. These ABPs were shown to label metallo-aminopeptidases, using both a biotin and a fluorophore reporter, in an activity-dependent manner. This probe class was also shown to be amenable to 'click' chemistry labeling for possible use in live cells. Finally, we demonstrate that the ABPs are able to label an aminopeptidase in a complex proteome. Thus, these bestatin-based probes should have wide utility to functionally profile aminopeptidases in many biological systems.


Assuntos
Aminopeptidases/metabolismo , Leucina/análogos & derivados , Modelos Moleculares , Domínio Catalítico , Corantes Fluorescentes , Leucina/farmacologia , Estrutura Molecular , Relação Estrutura-Atividade
9.
J Med Chem ; 54(6): 1655-66, 2011 Mar 24.
Artigo em Inglês | MEDLINE | ID: mdl-21366301

RESUMO

The malarial PfA-M1 metallo-aminopeptidase is considered a putative drug target. The natural product dipeptide mimetic, bestatin, is a potent inhibitor of PfA-M1. Herein we present a new, efficient, and high-yielding protocol for the synthesis of bestatin derivatives from natural and unnatural N-Boc-d-amino acids. A diverse library of bestatin derivatives was synthesized with variants at the side chain of either the α-hydroxy-ß-amino acid (P1) or the adjacent natural α-amino acid (P1'). Surprisingly, we found that extended aromatic side chains at the P1 position resulted in potent inhibition against PfA-M1. To understand these data, we determined the X-ray cocrystal structures of PfA-M1 with two derivatives having either a Tyr(OMe) 15 or Tyr(OBzl) 16 at the P1 position and observed substantial inhibitor-induced rearrangement of the primary loop within the PfA-M1 pocket that interacts with the P1 side chain. Our data provide important insights for the rational design of more potent and selective inhibitors of this enzyme that may eventually lead to new therapies for malaria.


Assuntos
Antimaláricos/síntese química , Antígenos CD13/antagonistas & inibidores , Leucina/análogos & derivados , Plasmodium falciparum/efeitos dos fármacos , Antimaláricos/química , Antimaláricos/farmacologia , Sítios de Ligação , Antígenos CD13/química , Cristalografia por Raios X , Leucina/síntese química , Leucina/química , Leucina/farmacologia , Modelos Moleculares , Estrutura Molecular , Plasmodium falciparum/enzimologia , Ligação Proteica , Bibliotecas de Moléculas Pequenas , Estereoisomerismo , Relação Estrutura-Atividade
10.
Science ; 324(5928): 794-7, 2009 May 08.
Artigo em Inglês | MEDLINE | ID: mdl-19342550

RESUMO

Apicomplexan parasites, including Plasmodium falciparum and Toxoplasma gondii (the causative agents of malaria and toxoplasmosis, respectively), are responsible for considerable morbidity and mortality worldwide. These pathogenic protozoa replicate within an intracellular vacuole inside of infected host cells, from which they must escape to initiate a new lytic cycle. By integrating cell biological, pharmacological, and genetic approaches, we provide evidence that both Plasmodium and Toxoplasma hijack host cell calpain proteases to facilitate parasite egress. Immunodepletion or inhibition of calpain-1 in hypotonically lysed and resealed erythrocytes prevented the escape of P. falciparum parasites, which was restored by adding purified calpain-1. Similarly, efficient egress of T. gondii from mammalian fibroblasts was blocked by either small interfering RNA-mediated suppression or genetic deletion of calpain activity and could be restored by genetic complementation.


Assuntos
Calpaína/metabolismo , Eritrócitos/parasitologia , Plasmodium falciparum/patogenicidade , Toxoplasma/patogenicidade , Animais , Calpaína/sangue , Calpaína/genética , Linhagem Celular , Linhagem Celular Tumoral , Fibroblastos/parasitologia , Humanos , Leucina/análogos & derivados , Leucina/farmacologia , Estágios do Ciclo de Vida , Merozoítos/fisiologia , Camundongos , Camundongos Knockout , Plasmodium falciparum/crescimento & desenvolvimento , Plasmodium falciparum/metabolismo , Plasmodium falciparum/fisiologia , RNA Interferente Pequeno , Esquizontes/fisiologia , Toxoplasma/crescimento & desenvolvimento , Toxoplasma/metabolismo , Toxoplasma/fisiologia
11.
J Biol Chem ; 283(41): 27433-27437, 2008 Oct 10.
Artigo em Inglês | MEDLINE | ID: mdl-18697749

RESUMO

Repair of interstrand DNA cross-links (ICLs) in Escherichia coli can occur through a combination of nucleotide excision repair (NER) and homologous recombination. However, an alternative mechanism has been proposed in which repair is initiated by NER followed by translesion DNA synthesis (TLS) and completed through another round of NER. Using site-specifically modified oligodeoxynucleotides that serve as a model for potential repair intermediates following incision by E. coli NER proteins, the ability of E. coli DNA polymerases (pol) II and IV to catalyze TLS past N(2)-N(2)-guanine ICLs was determined. No biochemical evidence was found suggesting that pol II could bypass these lesions. In contrast, pol IV could catalyze TLS when the nucleotides that are 5' to the cross-link were removed. The efficiency of TLS was further increased when the nucleotides 3' to the cross-linked site were also removed. The correct nucleotide, C, was preferentially incorporated opposite the lesion. When E. coli cells were transformed with a vector carrying a site-specific N(2)-N(2)-guanine ICL, the transformation efficiency of a pol II-deficient strain was indistinguishable from that of the wild type. However, the ability to replicate the modified vector DNA was nearly abolished in a pol IV-deficient strain. These data strongly suggest that pol IV is responsible for TLS past N(2)-N(2)-guanine ICLs.


Assuntos
Reparo do DNA/fisiologia , Replicação do DNA/fisiologia , DNA Bacteriano/biossíntese , DNA Polimerase Dirigida por DNA/metabolismo , Proteínas de Escherichia coli/metabolismo , Escherichia coli/enzimologia , Recombinação Genética/fisiologia , Catálise , DNA Polimerase II/genética , DNA Polimerase II/metabolismo , DNA Polimerase beta/genética , DNA Polimerase beta/metabolismo , DNA Bacteriano/genética , DNA Polimerase Dirigida por DNA/genética , Escherichia coli/genética , Proteínas de Escherichia coli/genética
12.
J Biol Chem ; 283(25): 17075-82, 2008 Jun 20.
Artigo em Inglês | MEDLINE | ID: mdl-18434313

RESUMO

Although there exists compelling genetic evidence for a homologous recombination-independent pathway for repair of interstrand cross-links (ICLs) involving translesion synthesis (TLS), biochemical support for this model is lacking. To identify DNA polymerases that may function in TLS past ICLs, oligodeoxynucleotides were synthesized containing site-specific ICLs in which the linkage was between N(2)-guanines, similar to cross-links formed by mitomycin C and enals. Here, data are presented that mammalian cell replication of DNAs containing these lesions was approximately 97% accurate. Using a series of oligodeoxynucleotides that mimic potential intermediates in ICL repair, we demonstrate that human polymerase (pol) kappa not only catalyzed accurate incorporation opposite the cross-linked guanine but also replicated beyond the lesion, thus providing the first biochemical evidence for TLS past an ICL. The efficiency of TLS was greatly enhanced by truncation of both the 5 ' and 3 ' ends of the nontemplating strand. Further analyses showed that although yeast Rev1 could incorporate a dCTP opposite the cross-linked guanine, no evidence was found for TLS by pol zeta or a pol zeta/Rev1 combination. Because pol kappa was able to bypass these ICLs, biological evidence for a role for pol kappa in tolerating the N(2)-N(2)-guanine ICLs was sought; both cell survival and chromosomal stability were adversely affected in pol kappa-depleted cells following mitomycin C exposure. Thus, biochemical data and cellular studies both suggest a role for pol kappa in the processing of N(2)-N(2)-guanine ICLs.


Assuntos
DNA Polimerase Dirigida por DNA/fisiologia , Guanina/química , Animais , Sequência de Bases , Células COS , Sobrevivência Celular , Chlorocebus aethiops , Cromossomos/ultraestrutura , Reagentes de Ligações Cruzadas/química , Reparo do DNA , DNA Polimerase Dirigida por DNA/química , Dados de Sequência Molecular , Mutagênicos , Oligonucleotídeos/química , Reprodutibilidade dos Testes
13.
Biochemistry ; 45(23): 7341-6, 2006 Jun 13.
Artigo em Inglês | MEDLINE | ID: mdl-16752923

RESUMO

In recent years, significant progress has been made in determining the catalytic mechanisms by which base excision repair (BER) DNA glycosylases and glycosylase-abasic site (AP) lyases cleave the glycosyl bond. While these investigations have identified active site residues and active site architectures, few investigations have analyzed postincision turnover events. Previously, we identified a critical residue (His16) in the T4-pyrimidine dimer glycosylase (T4-Pdg) that, when mutated, interferes with enzyme turnover [Meador et al. (2004) J. Biol. Chem. 279, 3348-3353]. To test whether comparable residues and mechanisms might be operative for other BER glycosylase:AP-lyases, molecular modeling studies were conducted comparing the active site regions of T4-Pdg and the Escherichia coli formamidopyrimidine DNA glycosylase (Fpg). These analyses revealed that His71 in Fpg might perform a similar function to His16 in T4-Pdg. Site-directed mutagenesis of the Fpg gene and analyses of the reaction mechanism of the mutant enzyme revealed that the H71A enzyme retained activity on a DNA substrate containing an 8-oxo-7,8-dihydroguanine (8-oxoG) opposite cytosine and DNA containing an AP site. The H71A Fpg mutant was severely compromised in enzyme turnover on the 8-oxoG-C substrate but had turnover rates comparable to that of wild-type Fpg on AP-containing DNA. The similar mutant phenotypes for these two enzymes, despite a complete lack of structural or sequence homology between them, suggest a common mechanism for the rate-limiting step catalyzed by BER glycosylase:AP-lyases.


Assuntos
DNA-Formamidopirimidina Glicosilase/metabolismo , Sequência de Bases , Sítios de Ligação , Primers do DNA , DNA-Formamidopirimidina Glicosilase/química , Cinética , Modelos Moleculares , Especificidade por Substrato
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