M.M. He scite author profile

We have identified a small-molecule inhibitor of tumor necrosis factor alpha (TNF-alpha) that promotes subunit disassembly of this trimeric cytokine family member. The compound inhibits TNF-alpha activity in biochemical and cell-based assays with median inhibitory concentrations of 22 and 4.6 micromolar, respectively. Formation of an intermediate complex between the compound and the intact trimer results in a 600-fold accelerated subunit dissociation rate that leads to trimer dissociation. A structure solved by x-ray crystallography reveals that a single compound molecule displaces a subunit of the trimer to form a complex with a dimer of TNF-alpha subunits.

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Determination of the Structure of Escherichia coli Glyoxalase I Suggests a Structural Basis for Differential Metal Activation

Clugston

et al. 2000

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The metalloenzyme glyoxalase I (GlxI) converts the nonenzymatically produced hemimercaptal of cytotoxic methylglyoxal and glutathione to nontoxic S-D-lactoylglutathione. Human GlxI, for which the structure is known, is active in the presence of Zn(2+). Unexpectedly, the Escherichia coli enzyme is inactive in the presence of Zn(2+) and is maximally active with Ni(2+). To understand this difference in metal activation and also to obtain a representative of the bacterial enzymes, the structure of E. coli Ni(2+)-GlxI has been determined. Structures have also been determined for the apo enzyme as well as complexes with Co(2+), Cd(2+), and Zn(2+). It is found that each of the protein-metal complexes that is catalytically active has octahedral geometry. This includes the complexes of the E. coli enzyme with Ni(2+), Co(2+), and Cd(2+), as well as the structures reported for the human Zn(2+) enzyme. Conversely, the complex of the E. coli enzyme with Zn(2+) has trigonal bipyramidal coordination and is inactive. This mode of coordination includes four protein ligands plus a single water molecule. In contrast, the coordination in the active forms of the enzyme includes two water molecules bound to the metal ion, suggesting that this may be a key feature of the catalytic mechanism. A comparison of the human and E. coli enzymes suggests that there are differences between the active sites that might be exploited for therapeutic use.

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Design, Structure−Activity Relationships and in Vivo Characterization of 4-Amino-3-benzimidazol-2-ylhydroquinolin-2-ones: A Novel Class of Receptor Tyrosine Kinase Inhibitors

Renhowe¹,

Pecchi²,

Shafer³

et al. 2008

J. Med. Chem.

126

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The inhibition of key receptor tyrosine kinases (RTKs) that are implicated in tumor vasculature formation and maintenance, as well as tumor progression and metastasis, has been a major focus in oncology research over the last several years. Many potent small molecule inhibitors of vascular endothelial growth factor receptor (VEGFR) and platelet-derived growth factor receptor (PDGFR) kinases have been evaluated. More recently, compounds that act through the complex inhibition of multiple kinase targets have been reported and may exhibit improved clinical efficacy. We report herein a series of potent, orally efficacious 4-amino-3-benzimidazol-2-ylhydroquinolin-2-one analogues as inhibitors of VEGF, PDGF, and fibroblast growth factor (FGF) receptor tyrosine kinases. Compounds in this class, such as 5 (TKI258), are reversible ATP-competitive inhibitors of VEGFR-2, FGFR-1, and PDGFRbeta with IC(50) values <0.1 microM. On the basis of its favorable in vitro and in vivo properties, compound 5 was selected for clinical evaluation and is currently in phase I clinical trials.

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Engineering a Metal Binding Site within a Polytopic Membrane Protein, the Lactose Permease of Escherichia coli

Jung

Voss²,

et al. 1995

Biochemistry

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Site-directed excimer fluorescence indicates that Glu269 (helix VIII) and His322 (helix X) in the lactose permease of Escherichia coli lie in close proximity [Jung, K., Jung, H., Wu, J., Privé, G.G., & Kaback, H.R. (1993) Biochemistry 32, 12273]. In this study, Glu269 was replaced with His in wild-type permease, leading to the presence of bis-His residues between helices VIII and X. Wild-type and Glu269-->His permease containing a biotin acceptor domain were purified by monomeric avidin affinity chromatography, and binding of Mn2+ was studied by electron paramagnetic resonance (EPR) spectroscopy. The amplitude of the Mn2+ EPR spectrum is reduced by the Glu269-->His mutant, while no change is observed in the presence of wild-type permease. The Glu269-->His mutant contains a single binding site for Mn2+ with a KD of about 43 microM, and Mn2+ binding is pH dependent with no binding at pH 5.0, stoichiometric binding at pH 7.5, and a midpoint at about pH 6.3. The results confirm the conclusion that helices VIII and X are closely opposed in the tertiary structure of lac permease and provide a novel approach for studying helix proximity, as well as solvent accessibility, in polytopic membrane proteins.

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Sequencing and Analysis of Strobilanthes cusia (Nees) Kuntze Chloroplast Genome Revealed the Rare Simultaneous Contraction and Expansion of the Inverted Repeat Region in Angiosperm

et al. 2018

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Ban-Lan-Gen, the root tissues derived from several morphologically indistinguishable plant species, have been used widely in traditional Chinese medicines for numerous years. The identification of reliable markers to distinguish various source plant species is critical for the effective and safe use of products containing Ban-Lan-Gen. Here, we analyzed and characterized the complete chloroplast (cp) genome sequence of Strobilanthes cusia (Nees) Kuntze to identify high-resolution markers for the species determination of Southern Ban-Lan-Gen. Total DNA was extracted and subjected to next-generation sequencing. The cp genome was then assembled, and the gaps were filled using PCR amplification and Sanger sequencing. Genome annotation was conducted using CpGAVAS web server. The genome was 144,133 bp in length, presenting a typical quadripartite structure of large (LSC; 91,666 bp) and small (SSC; 17,328 bp) single-copy regions separated by a pair of inverted repeats (IRs; 17,811 bp). The genome encodes 113 unique genes, including 79 protein-coding, 30 transfer RNA, and 4 ribosomal RNA genes. A total of 20 tandem, 2 forward, and 6 palindromic repeats were detected in the genome. A phylogenetic analysis based on 65 protein-coding genes showed that S. cusia was closely related to Andrographis paniculata and Ruellia breedlovei, which belong to the same family, Acanthaceae. One interesting feature is that the IR regions apparently undergo simultaneous contraction and expansion, resulting in the presence of single copies of rps19, rpl2, rpl23, and ycf2 in the LSC region and the duplication of psbA and trnH genes in the IRs. This study provides the first complete cp genome in the genus Strobilanthes, containing critical information for the classification of various Strobilanthes species in the future. This study also provides the foundation for precisely determining the plant sources of Ban-Lan-Gen.

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Characterization of chromatin accessibility with a transposome hypersensitive sites sequencing (THS-seq) assay

et al. 2016

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Chromatin accessibility captures in vivo protein-chromosome binding status, and is considered an informative proxy for protein-DNA interactions. DNase I and Tn5 transposase assays require thousands to millions of fresh cells for comprehensive chromatin mapping. Applying Tn5 tagmentation to hundreds of cells results in sparse chromatin maps. We present a transposome hypersensitive sites sequencing assay for highly sensitive characterization of chromatin accessibility. Linear amplification of accessible DNA ends with in vitro transcription, coupled with an engineered Tn5 super-mutant, demonstrates improved sensitivity on limited input materials, and accessibility of small regions near distal enhancers, compared with ATAC-seq.Electronic supplementary materialThe online version of this article (doi:10.1186/s13059-016-0882-7) contains supplementary material, which is available to authorized users.

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Interaction between Residues Glu269 (Helix VIII) and His322 (Helix X) of the Lactose Permease of Escherichia coli Is Essential for Substrate Binding

Kaback

1997

Biochemistry

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Site-directed and Cys-scanning mutagenesis of the lactose permease of Escherichia coli reveals that as few as four residues--Glu269 (helix VIII), Arg302 (helix IV), His322 (helix X), and Glu325 (helix X)--are irreplaceable for coupling substrate and H+ translocation. Interestingly, the four residues are in close physical proximity, Glu269 interacting with His322 and Arg302 with Glu325. In addition, the substrate translocation pathway is located close to the four residues at the interface between helices V and VIII. To investigate the importance of the four residues and their interactions for substrate binding, mutation Glu269-->Asp, Glu269-->Gln, Arg302-->Ala, Arg302-->Lys, His322-->Ala, His322-->Phe, Glu325-->Asp, or Glu325-->Gln was introduced into single-Cys148 permease, where the reactivity of Cys with 2-(4-maleimidoanilino)naphthalene-6-sulfonic acid (MIANS) is blocked by binding of substrate. The double mutants were purified, and the rates of MIANS labeling were measured in the absence or presence of beta-D-galactopyranosyl 1-thio-beta-D-galactopyranoside (TDG), lactose, or galactose at various concentrations. Remarkably, substrate binding by the Glu269 or His322 mutants is abolished or decreased dramatically, while binding by the Arg302 or Glu325 mutants is not altered. The observations are consistent with the notion that the interaction between Glu269 and His322 stabilizes the interface between helices V and VIII and thereby leads to binding of substrate.

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Discovery of an Aurora kinase inhibitor through site-specific dynamic combinatorial chemistry

Cancilla

Viswanathan

et al. 2008

Bioorganic & Medicinal Chemistry Letters

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M.M. He

Small-Molecule Inhibition of TNF-α

Determination of the Structure of Escherichia coli Glyoxalase I Suggests a Structural Basis for Differential Metal Activation

Design, Structure−Activity Relationships and in Vivo Characterization of 4-Amino-3-benzimidazol-2-ylhydroquinolin-2-ones: A Novel Class of Receptor Tyrosine Kinase Inhibitors

Engineering a Metal Binding Site within a Polytopic Membrane Protein, the Lactose Permease of Escherichia coli

Sequencing and Analysis of Strobilanthes cusia (Nees) Kuntze Chloroplast Genome Revealed the Rare Simultaneous Contraction and Expansion of the Inverted Repeat Region in Angiosperm

Characterization of chromatin accessibility with a transposome hypersensitive sites sequencing (THS-seq) assay

Interaction between Residues Glu269 (Helix VIII) and His322 (Helix X) of the Lactose Permease of Escherichia coli Is Essential for Substrate Binding

Discovery of an Aurora kinase inhibitor through site-specific dynamic combinatorial chemistry

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