Fluorescent polymer solutions can easily be electrospun into micrometer‐sized fibers and subsequently encoded with long lasting digital codes by a photobleaching process. Such encoded fibers may find various applications; as illustrated in this report, placing encoded fibers in drug tablets may become a strategy to protect them from counterfeiting.
An efficient protocol for the construction of C-6-(hetero)aryl-substituted uridine phosphonate analogues utilizing an aerobic, ligand-free Suzuki-Miyaura cross-coupling reaction of a 6-iodo-precursor in aqueous media has been established. The method presents a modular approach toward the target compounds as demonstrated by the synthesis of a small library comprising 14 novel nucleoside phosphonates.
We report on the design of a polymeric prodrug of the anticancer agent paclitaxel (PTX) by a grafting-from-drug approach. A chain transfer agent for reversible addition fragmentation chain transfer (RAFT) polymerization was efficiently and regioselectively linked to the C2' position of paclitaxel, which is crucial for its bioactivity. Subsequent RAFT polymerization of a hydrophilic monomer yielded well-defined paclitaxel-polymer conjugates with high drug loading, water solubility, and stability. The versatility of this approach was further demonstrated by ω-end post-functionalization with a fluorescent tracer. In vitro experiments showed that these conjugates are readily taken up into endosomes where native PTX is efficiently cleaved off and then reaches its subcellular target. This was confirmed by the cytotoxicity profile of the conjugate, which matches those of commercial PTX formulations based on mere physical encapsulation.
International audienceWe report the design and synthesis of a series of non-nucleoside MtbTMPK inhibitors (1-14) based on the gram-positive bacterial TMPK inhibitor hit compound 1. A practical synthesis was developed to access these analogues. Several compounds show promising MtbTMPK inhibitory potency and allow the establishment of a structure-activity relationship, which is helpful for further optimization
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