Design, synthesis, and anticancer evaluation of novel andrographolide derivatives bearing an α,β-unsaturated ketone moiety

AbstractTriblock copolymers have traditionally been synthesized with conventional organic components. However, triblock copolymers could be synthesized by the incorporation of two incompatible protein-based polymers. The polypeptides would differ in their hydrophobicity and confer unique physiochemical properties to the resultant materials. One protein-based polymer, based on a sequence of native elastin, that has been utilized in the synthesis of biomaterials is poly (Valine-Proline-Glycine-ValineGlycine) or poly(VPGVG) [1]. This polypeptide has been shown to have an inverse temperature transition that can be adjusted by non-conservative amino acid substitutions in the fourth position [2]. By combining polypeptide blocks with different inverse temperature transition values due to hydrophobicity differences, we expect to produce amphiphilic polypeptides capable of self-assembly into hydrogels. Our research examines the design, synthesis and characterization of elastin-mimetic block copolymers as functional biomaterials. The methods that are used for the characterization include variable temperature 1D and 2D High-Resolution-NMR, cryo-High Resolutions Scanning Electron Microscopy and Differential Scanning Calorimetry.

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Synthesis of Some New Tetracyclic Pyrimidine Derivatives Using Exocyclic α,β-Unsaturated Ketone and Evaluation of Their Antitumor Activities

JOURNAL OF ADVANCES IN CHEMISTRY ◽

10.24297/jac.v12i8.2840 ◽

2016 ◽

Vol 12 (8) ◽

pp. 311-317

Author(s):

Kamelia El-Mahdy

Keyword(s):

Antitumor Activity ◽

Spectroscopic Data ◽

Acid Hydrazide ◽

Chloroacetic Acid ◽

Equimolar Amount ◽

Unsaturated Ketone ◽

Cyanoacetic Acid ◽

Antitumor Activities ◽

Pyrimidine Derivatives ◽

Cyanoacetic Acid Hydrazide

Thiazolopyrimidine 2 was obtained from the reaction of dihydropyrimidinone with chloroacetic acid and benzaldehyde. Thiazolopyrimidine 2 containing an α,β-unsaturated ketonic function [-CH=CH-CO-] has been used as a component of Michael addition with an equimolar amount of dinucleophiles to give a series of novel tetracyclic pyrimidine derivatives. Treatment of thiazolopyrimidine 2 with uracil, aminotriazole, cyanoacetic acid hydrazide, o-phenylenediamine or diaminopyridine afforded the corresponding pyridopyrimidine, triazolopyrimidine, pyrazolone, benzodiazepine and triazepine derivative, respectively. The detailed synthesis, spectroscopic data, and antitumor activity for synthesized compounds were reported.

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New Potential Synthetic Antigenic Determinants for a-Amino-Cephalosporins: design, synthesis and immunological evaluation

10.26226/morressier.5acdc661d462b8029238e137 ◽

2018 ◽

Author(s):

Ángela Martín-Serrano Ortiz

Keyword(s):

Antigenic Determinants ◽

Design Synthesis ◽

Immunological Evaluation

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Discovery of Antibacterial Agents Inhibiting the Energy-Coupling Factor (ECF) Transporters by Structure-Based Virtual Screening

10.26434/chemrxiv.11728710 ◽

2020 ◽

Author(s):

Eleonora Diamanti ◽

Inda Setyawati ◽

Spyridon Bousis ◽

leticia mojas ◽

lotteke Swier ◽

...

Keyword(s):

Virtual Screening ◽

Antibacterial Agents ◽

Antimicrobial Agents ◽

Energy Coupling ◽

Coupling Factor ◽

Design Synthesis ◽

Screening Design ◽

Starting Point ◽

Wide Range ◽

Vitamin Uptake

Here, we report on the virtual screening, design, synthesis and structure–activity relationships (SARs) of the first class of selective, antibacterial agents against the energy-coupling factor (ECF) transporters. The ECF transporters are a family of transmembrane proteins involved in the uptake of vitamins in a wide range of bacteria. Inhibition of the activity of these proteins could reduce the viability of pathogens that depend on vitamin uptake. Because of their central role in the metabolism of bacteria and their absence in humans, ECF transporters are novel potential antimicrobial targets to tackle infection. The hit compound’s metabolic and plasma stability, the potency (20, MIC Streptococcus pneumoniae = 2 µg/mL), the absence of cytotoxicity and a lack of resistance development under the conditions tested here suggest that this scaffold may represent a promising starting point for the development of novel antimicrobial agents with an unprecedented mechanism of action.<br>

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Cupin Variants as Macromolecular Ligand Library for Stereoselective Michael Addition of Nitroalkanes

10.26434/chemrxiv.11481834.v1 ◽

2019 ◽

Author(s):

Nobutaka Fujieda ◽

Miho Yuasa ◽

Yosuke Nishikawa ◽

Genji Kurisu ◽

Shinobu Itoh ◽

...

Keyword(s):

Michael Addition ◽

In Silico ◽

Addition Reaction ◽

Single Point ◽

Point Mutations ◽

Unsaturated Ketone ◽

Michael Addition Reaction ◽

Beta Barrel ◽

Cupin Superfamily ◽

Single Point Mutations

Cupin superfamily proteins (TM1459) work as a macromolecular ligand framework with a double-stranded beta-barrel structure ligating to a Cu ion through histidine side chains. Variegating the first coordination sphere of TM1459 revealed that H52A and H54A/H58A mutants effectively catalyzed the diastereo- and enantio-selective Michael addition reaction of nitroalkanes to an α,β-unsaturated ketone. Moreover, in silico substrate docking signified C106N and F104W single-point mutations, which inverted the diastereoselectivity of H52A and further improved the stereoselectivity of H54A/H58A, respectively.

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New Molecular Scaffolds for Fluorescent Voltage Indicators

10.26434/chemrxiv.7338683.v1 ◽

2018 ◽

Author(s):

Steven Boggess ◽

Shivaani Gandhi ◽

Brian Siemons ◽

Nathaniel Huebsch ◽

Kevin Healy ◽

...

Keyword(s):

Membrane Potential ◽

Action Potentials ◽

Induced Pluripotent Stem Cell ◽

Molecular Wire ◽

Voltage Sensing ◽

Design Synthesis ◽

Cardiac Action ◽

Action Potential Waveform ◽

Induced Pluripotent ◽

Voltage Sensing Domain

<div> <p>The ability to non-invasively monitor membrane potential dynamics in excitable cells like neurons and cardiomyocytes promises to revolutionize our understanding of the physiology and pathology of the brain and heart. Here, we report the design, synthesis, and application of a new class of fluorescent voltage indicator that makes use of a fluorene-based molecular wire as a voltage sensing domain to provide fast and sensitive measurements of membrane potential in both mammalian neurons and human-derived cardiomyocytes. We show that the best of the new probes, fluorene VoltageFluor 2 (fVF 2) readily reports on action potentials in mammalian neurons, detects perturbations to cardiac action potential waveform in human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes, shows a substantial decrease in phototoxicity compared to existing molecular wire-based indicators, and can monitor cardiac action potentials for extended periods of time. Together, our results demonstrate the generalizability of a molecular wire approach to voltage sensing and highlights the utility of fVF 2 for interrogating membrane potential dynamics.</p> </div>

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