Benzoboroxoles are known to bind 1,2‐diol motifs in carbohydrates in an aqueous environment. Their binding properties have been shown to be dependent on additional recognition sites such as peptides and the number of binding epitopes. In this paper we describe the synthesis of trimeric benzoboroxoles based on a rigid adamantyl core structure. The conjugates are assembled using copper‐catalyzed click reactions of azide scaffolds with alkynyl‐functionalized benzoboroxoles. The design of our trimeric benzoboroxoles followed a biomimetic principle and imitates the trimeric structure of some natural carbohydrate binding proteins (lectins). With an assortment of appropriately functionalized (3 + 1) adamantane scaffolds, trimeric benzoboroxoles have been generated which were combined with additional functional molecules such as dyes and peptides. In summary, we report a highly effective synthetic approach to modular trimeric boronolectines for the assembly of carbohydrate sensors.
Most studies about the interaction of nanoparticles (NPs) with cells have focused on how the physicochemical properties of NPs will influence their uptake by cells. However, much less is known about their potential excretion from cells. However, to control and manipulate the number of NPs in a cell, both cellular uptake and excretion must be studied quantitatively. Monitoring the intracellular and extracellular amount of NPs over time (after residual noninternalized NPs have been removed) enables one to disentangle the influences of cell proliferation and exocytosis, the major pathways for the reduction of NPs per cell. Proliferation depends on the type of cells, while exocytosis depends in addition on properties of the NPs, such as their size. Examples are given herein on the role of these two different processes for different cells and NPs.
Herein, we present the synthesis and structural analysis of metal complexes of enantiomerically pure 1,4,7,10‐tetraazacyclododecane‐1,4,7,10‐tetraazidoethylacetic acid (DOTAZA). DOTAZA is a new tunable analog of DOTA, a clinically approved chelator for various pharmaceutically relevant metal ions. In this work, we investigate the complexation chemistry of DOTAZA and report the crystal structures of a number of complexes with pharmaceutically relevant metal ions such as Gd3+ [magnetic resonance imaging (MRI)], Eu3+ (luminescence spectroscopy), Y3+ [positron emission tomography (PET)], In3+ [single‐photon‐emission computed tomography (SPECT)], and Na+. These structures provide useful information for imaging applications and demonstrate the potential of DOTAZA to form stable complexes. Owing to its clickable azide functionalities, it may be used for the development of tailored imaging reagents that retain the positive complexation chemistry of the parent compound DOTA.
Carbohydrates are involved in a wide range of biological processes of pharmaceutical relevance. The selective recognition of carbohydrates is therefore of great interest in biology and medicine. In this study we present the synthesis of fluorescent multimeric benzoboroxoles and the analysis of multivalent binding processes to immobilized carbohydrate arrays by fluorescence spectroscopy. We observed high binding affinities of trimeric benzoboroxoles by determination of KDsurf values for their interaction with α-Gal on glass chips. The observed KDsurf values were in the mid-nM range (49 and 104 nM) and are comparable to the KDsurf values for binding of natural lectins, such as that of ConA to immobilized α-Man (79 nM). The array technology was found to be an excellent tool for studying the binding processes of multivalent lectin mimetics with respect to profiling and quantitation.
The development of novel prostate-specific membrane antigen
(PSMA)-targeted
radioactive theranostic agents is currently limited to facilities
capable of working with high-energy radioisotopes. Even preselection
of lead structures in vitro relies mostly on radioactive assays with
PSMA(+) LNCaP and PSMA(−) PC-3 cells. Assays utilizing radioisotopes
are time consuming, costly, and limit discovery to a small group of
scientists with special facilities. Nonradioactive alternatives are
therefore needed in the field. In this paper, we describe an inductively
coupled plasma mass spectrometry (ICP-MS)-based method for the evaluation
of PSMA-targeting ligands conjugated to DOTA-chelates of Europium.
This method is based on LNCaP and PC-3 cells and has been validated
with the well-established targeting ligand PSMA-617.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.