Chi-Hung Nguyen scite author profile

In mammals, nonsense-mediated mRNA decay (NMD) is a quality-control mechanism that degrades mRNA harboring a premature termination codon to prevent the synthesis of truncated proteins. To gain insight into the NMD mechanism, we identified NMD inhibitor 1 (NMDI 1) as a small molecule inhibitor of the NMD pathway. We characterized the mode of action of this compound and demonstrated that it acts upstream of hUPF1. NMDI 1 induced the loss of interactions between hSMG5 and hUPF1 and the stabilization of hyperphosphorylated isoforms of hUPF1. Incubation of cells with NMDI 1 allowed us to demonstrate that NMD factors and mRNAs subject to NMD transit through processing bodies (P-bodies), as is the case in yeast. The results suggest a model in which mRNA and NMD factors are sequentially recruited to P-bodies.

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An Acyclic Oligoheteroaryle That Discriminates Strongly between Diverse G‐Quadruplex Topologies

Hamon

et al. 2011

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Ligand binding mode to duplex and triplex dna assessed by combining electrospray tandem mass spectrometry and molecular modeling

Rosu

Nguyen

Pauw

et al. 2007

J. Am. Soc. Mass Spectrom.

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In this paper, we report the analysis of seven benzopyridoindole and benzopyridoquinoxaline drugs binding to different duplex DNA and triple helical DNA, using an approach combining electrospray ionization mass spectrometry (ESI-MS), tandem mass spectrometry (MS/MS), and molecular modeling. The ligands were ranked according to the collision energy (CE(50)) necessary to dissociate 50% of the complex with the duplex or the triplex in tandem MS. To determine the probable ligand binding site and binding mode, molecular modeling was used to calculate relative ligand binding energies in different binding sites and binding modes. For duplex DNA binding, the ligand-DNA interaction energies are roughly correlated with the experimental CE(50), with the two benzopyridoindole ligands more tightly bound than the benzopyridoquinoxaline ligands. There is, however, no marked AT versus GC base preference in binding, as supported both by the ESI-MS and the calculated ligand binding energies. Product ion spectra of the complexes with triplex DNA show only loss of neutral ligand for the benzopyridoquinoxalines, and loss of the third strand for the benzopyridoindoles, the ligand remaining on the duplex part. This indicates a higher binding energy of the benzopyridoindoles, and also shows that the ligands interact with the triplex via the duplex. The ranking of the ligand interaction energies compared with the CE(50) values obtained by MS/MS on the complexes with the triplex clearly indicates that the ligands intercalate via the minor groove of the Watson-Crick duplex. Regarding triplex versus duplex selectivity, our experiments have demonstrated that the most selective drugs for triplex share the same heteroaromatic core.

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Antitumor Activity of Pyridocarbazole and Benzopyridoindole Derivatives that Inhibit Protein Kinase CK2

Prudent

Moucadel

Nguyen

et al. 2010

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The alkyloid compound ellipticine derived from the berrywood tree is a topoisomerase II poison that is used in ovarian and breast cancer treatment. In this study, we report the identification of ellipticine derivatives and their tetracyclic angular benzopyridoindole analogues as novel ATP-competitive inhibitors of the protein kinase CK2. In vitro and in vivo assays showed that these compounds have a good pharmacologic profile, causing a marked inhibition of CK2 activity associated with cell cycle arrest and apoptosis in human cancer cells. Further, in vivo assays demonstrate antitumor activity in a mouse xenograft model of human glioblastoma. Finally, crystal structures of CK2-inhibitor complex provide structural insights on the molecular basis of CK2 inhibition. Our work lays the foundation for development of clinically useful CK2 inhibitors derived from a well-studied scaffold with suitable pharmacokinetics parameters. Cancer Res; 70(23); 9865-74. Ó2010 AACR.

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HAP4, the glucose‐repressed regulated subunit of the HAP transcriptional complex involved in the fermentation–respiration shift, has a functional homologue in the respiratory yeast Kluyveromyces lactis

Bourgarel

Nguyen

Bolotin‐Fukuhara

1999

Molecular Microbiology

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SummaryIn Saccharomyces cerevisiae, the heteromeric HAP transcription factor is necessary for optimal growth on respiratory carbon sources. One of its components, the Hap4p protein, is necessary for transcriptional activation. The same protein is also the regulatory part of the complex in response to carbon sources, as HAP4 is strongly induced during the shift from fermentative to respiratory metabolism in S. cerevisiae. We report here the characterization of a new gene from the respiratory yeast Kluyveromyces lactis, obtained by heterologous complementation of a ⌬hap4 S. cerevisiae mutant strain. The deduced sequence of the protein (643 amino acids) exhibits two small domains (11 and 16 amino acids respectively) highly homologous to corresponding domains of ScHap4p, while the overall similarity is rather weak. Additional experiments were performed to confirm the functional homology of this new gene with ScHAP4, which we named KlHAP4. The importance of the small highly conserved N-terminal sequence was confirmed by in vitro mutagenesis. All the mutations that interfere with the Hap4p-Hap2/3/5 interaction were localized in it. The discovery of the same regulatory protein in two metabolically distinct yeast species raises the question of its functional significance during evolution.

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A Distinct Triplex DNA Unwinding Activity of ChlR1 Helicase

Guo

Hundseth

Ding

et al. 2015

Journal of Biological Chemistry

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Background: DNA triplex helix structures are alternate DNA structures that can be a source of genomic instability. Results: ChlR1 helicase has a novel and distinct triplex DNA unwinding activity. Conclusion: ChlR1 defends genome integrity by resolving triplex DNA structures. Significance: The processing of triplex DNA substrates by proteins such as ChlR1 plays critical roles in genome maintenance.

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LNA effects on DNA binding and conformation: from single strand to duplex and triplex structures

Pabón-Martínez

Villa

et al. 2017

Sci Rep

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The anti-gene strategy is based on sequence-specific recognition of double-strand DNA by triplex forming (TFOs) or DNA strand invading oligonucleotides to modulate gene expression. To be efficient, the oligonucleotides (ONs) should target DNA selectively, with high affinity. Here we combined hybridization analysis and electrophoretic mobility shift assay with molecular dynamics (MD) simulations to better understand the underlying structural features of modified ONs in stabilizing duplex- and triplex structures. Particularly, we investigated the role played by the position and number of locked nucleic acid (LNA) substitutions in the ON when targeting a c-MYC or FXN (Frataxin) sequence. We found that LNA-containing single strand TFOs are conformationally pre-organized for major groove binding. Reduced content of LNA at consecutive positions at the 3′-end of a TFO destabilizes the triplex structure, whereas the presence of Twisted Intercalating Nucleic Acid (TINA) at the 3′-end of the TFO increases the rate and extent of triplex formation. A triplex-specific intercalating benzoquinoquinoxaline (BQQ) compound highly stabilizes LNA-containing triplex structures. Moreover, LNA-substitution in the duplex pyrimidine strand alters the double helix structure, affecting x-displacement, slide and twist favoring triplex formation through enhanced TFO major groove accommodation. Collectively, these findings should facilitate the design of potent anti-gene ONs.

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Characterization of a Triple Helix-specific Ligand

Pilch

Waring

Sun

et al. 1993

Journal of Molecular Biology

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Chi-Hung Nguyen

Inhibition of nonsense-mediated mRNA decay (NMD) by a new chemical molecule reveals the dynamic of NMD factors in P-bodies

An Acyclic Oligoheteroaryle That Discriminates Strongly between Diverse G‐Quadruplex Topologies

Ligand binding mode to duplex and triplex dna assessed by combining electrospray tandem mass spectrometry and molecular modeling

Antitumor Activity of Pyridocarbazole and Benzopyridoindole Derivatives that Inhibit Protein Kinase CK2

HAP4, the glucose‐repressed regulated subunit of the HAP transcriptional complex involved in the fermentation–respiration shift, has a functional homologue in the respiratory yeast Kluyveromyces lactis

A Distinct Triplex DNA Unwinding Activity of ChlR1 Helicase

LNA effects on DNA binding and conformation: from single strand to duplex and triplex structures

Characterization of a Triple Helix-specific Ligand

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