Binding of the mGlu2/3 antagonist HYDIA in the closed conformation model of mGlu2 causes repulsive interactions with Y216 in lobe II of the binding pocket, preventing closure of the VFT.
Prodigiosin : Amido‐functionalised prodigiosin‐derived compounds were synthesised via a robust and efficient synthetic route. These compounds were then evaluated against 60 human cell lines consisting of nine diverse tumour cell types and their anticancer activities were assessed.
The role of β‐aminovinyl ketones as synthetic intermediates has been well categorised, but recent developments have shown an interesting array of applications and new chemotherapeutic potential, both in the preparation of biologically active heterocycles and as pharmacophores in their own right.
Bivalent modulators of P‐glycoprotein : A small library of flavonoid homodimers and heterodimers was synthesized, and their in vitro activity in reversing paclitaxel resistance was evaluated along with structure–activity relationships. SAR trends indicate that flavonoid dimers with nonpolar, hydrophobic, less bulky substituents generally show more potent reversing activity. This will help guide future efforts in the search for more potent compounds.
Powerful pyrene probes : Two kinds of pyrene‐labeled oligonucleotides (HNA‐ and RNA‐skeleton probes) were explored. The enhanced fluorescence intensity in the monomer region and the disappearance of aggregate/excimer emission in duplexes has been successfully used to detect the hybridization of oligonucleotides.
Combretastatin A‐4 derivatives : A series of combretastatin A‐4‐derived 1‐benzyl‐4,5,6‐trimethoxyindoles was designed and prepared as a novel class of potent antimitotic agents acting through the colchicine binding site on the microtubule.
A protein TRAP : The in vivo photocrosslinking of TRAP after its intracellular targeting to a binding sequence on the bait protein stabilizes protein interactions. Because the crosslinker is releasable, simple mass spectrometry can be used to identify the protein binding sites after purification.
Learning from nature : In nature, riboflavin binding proteins are responsible for the transport and release of riboflavin. Here, the development of a molecular photorelease system based on the riboflavin binding protein dodecin is presented. Any drug or active chemical linked to a flavin can be captured by dodecin and transported to a location of interest. Irradiation with blue light results in the release of the ligands.
Proteins with a high propensity to aggregate can be largely prevented from doing so with surprisingly small changes to their primary structure. By using a combination of rational design and quantitative measurements of aggregation rates, we show that adding a single charge in specific “gatekeeper” regions is sufficient to change the timescale for amyloid fibril growth from minutes to weeks, thereby dramatically reducing the efficiency of this process.
Molecular requirements and determinants for efficient binding to CCR5 were interpreted by computational techniques based on comparative receptor structure modeling, advanced 3D‐QSAR, docking, and shape‐based virtual screening of commercially available entry blockers. Results of this study may be valuable for predicting new HIV entry‐blocking leads.
Antifolate labels : Molecules that bind specifically and with high affinity to proteins can be developed into powerful tools for chemical biology. The interaction between substituted 5‐benzyl pyrimidines and dihydrofolate reductase can be exploited for chemically labeling fusion proteins in mammalian cells.
The cover picture shows three views of a vitamin B12–insulin conjugate bound to transcobalamin II, docked in the insulin receptor (IR). This study reveals how the structure of an orally deliverable insulin changes in solution after vitamin B12 conjugation and its effect on IR binding capacity. The results demonstrate that chemical modification of insulin by linking relatively large pendant groups does not interfere with IR recognition. For more details, see the Full Paper by T. J. Fairchild, R. P. Doyle, et al. on p. 421 ff.
A series of DNA methyltransferase 1 (DNMT1) inhibitors were modeled by docking and molecular dynamics studies to rationalize their activity. Our findings will be valuable in guiding research efforts toward the rational design and virtual screening of novel DNMT inhibitors.
Ancillary oxygenase : OxyE is identified as a likely ancillary C‐4 hydroxylase used during oxytetracycline biosynthesis in Streptomyces rimosus. The synergistic actions of oxygenases OxyE and OxyL ensure complete oxidative tailoring and prevent irreversible shunt modifications of the biosynthetic intermediate.
Two series of dimeric ligands for a G‐protein‐coupled receptor were prepared that differ by the interconnecting spacer system. Biological evaluation revealed that both dimeric series exhibit unique biological properties relative to their monomeric counterparts.
Molecules that inhibit store‐operated calcium entry (SOCE) are potentially useful immunomodulating agents. The identification of proteins involved in this pathway may further enable the identification of selective inhibitors. Herein we document some examples of the small‐molecule inhibitors of SOCE that have been reported to date. We also describe methods that were used to characterize the mechanism of action of these inhibitors.
Reducing virulence : RhlI catalyzes the synthesis of N‐butanoyl homoserine lactone (BHL), with a minor product N‐hexanoyl homoserine lactone (HHL). By using directed evolution and a genetic screen, RhlI has been engineered for enhanced production of both BHL and HHL at a similar level.
An iterative analogue library synthesis strategy rapidly developed comprehensive SAR for the mGluR5 ago‐potentiator ADX‐47273. This effort identified key substituents in the 3‐position of oxadiazole that engendered either mGluR5 ago‐potentiation or pure mGluR5 positive allosteric modulation. The mGluR5 positive allosteric modulators identified possessed the largest fold shifts (up to 27.9‐fold) of the glutamate CRC reported to date as well as providing improved physiochemical properties.
Site‐specific immobilization of peptides and proteins is crucial to ensure their functionality in surface‐based assays. We report the use of aniline‐catalyzed oxime ligations as a very efficient and broadly applicable method to covalently attach the N terminus of proteins and peptides to a surface functionalized with alkoxy‐amine groups.
Form defines function : The effects of β‐hairpin structure on the binding affinity and selectivity for ssDNA versus dsDNA were investigated; this provided insights into the factors that contribute to the selective recognition of both ss‐ and dsDNA and suggested new approaches for designing biomimetic receptors. Binding studies showed that 1) folding is crucial for binding to both ss‐ and dsDNA, and 2) chirality affects binding for duplex but not for ssDNA.
