Thiourea-based spacers in potent divalent inhibitors of Pseudomonas aeruginosa virulence lectin LecA

A new divalent highly potent inhibitor of the Pseudomonas aeruginosa lectin and virulence factor LecA was prepared. It contains two thiourea linkages which were found to be in the Z,Z isomeric form. This brings the spacer into an elongated conformation required to bridge the two binding sites, which results in the chelating binding mode responsible for the high potency

Functional characterization of cholera toxin inhibitors using human intestinal organoids

Preclinical drug testing in primary human cell models that recapitulate disease can significantly reduce animal experimentation and time-to-the-clinic. We used intestinal organoids to quantitatively study the potency of multivalent cholera toxin inhibitors. The method enabled the determination of IC50 values over a wide range of potencies (15 pM to 9 mM). The results indicate for the first time that an organoid-based swelling assay is a useful preclinical method to evaluate inhibitor potencies of drugs that target pathogen-derived toxins

The influence of ligand valency on aggregation mechanisms for inhibiting bacterial toxins

Divalent and tetravalent analogues of ganglioside GM1 are potent inhibitors of cholera toxin and Escherichia coli heat-labile toxin. However, they show little increase in inherent affinity when compared to the corresponding monovalent carbohydrate ligand. Analytical ultracentrifugation and dynamic light scattering have been used to demonstrate that the multivalent inhibitors induce protein aggregation and the formation of space-filling networks. This aggregation process appears to arise when using ligands that do not match the valency of the protein receptor. While it is generally accepted that multivalency is an effective strategy for increasing the activity of inhibitors, here we show that the valency of the inhibitor also has a dramatic effect on the kinetics of aggregation and the stability of intermediate protein complexes. Structural studies employing atomic force microscopy have revealed that a divalent inhibitor induces head-to-head dimerization of the protein toxin en route to higher aggregates.Peer reviewed: YesNRC publication: Ye

Selective depletion of neuropathy-related antibodies from human serum by monolithic affinity columns containing ganglioside mimics

Monolithic columns containing ganglioside GM2 and GM3 mimics were prepared for selective removal of serum anti-ganglioside antibodies from patients with acute and chronic immune-mediated neuropathies. ELISA results demonstrated that anti-GM2 IgM antibodies in human sera and a mouse monoclonal anti-GM2 antibody were specifically and selectively adsorbed by monolithic GM2 mimic columns and not by blank monolithic columns or monolithic GM3 mimic columns. In control studies, serum antibodies against the ganglioside GQ1b from another neuropathy patient were not depleted by monolithic GM2 mimic columns. Fluorescence microscopy with FITC-conjugated anti-human immunoglobulin antibodies showed that the immobilized ganglioside mimics were evenly distributed along the column. The columns were able to capture 95% of the anti-GM2 antibodies of patients after only 2 min of incubation. A monolithic column of 4.4 \u3bcL can deplete 28.2 \u3bcL of undiluted serum. These columns are potential diagnostic and therapeutic tools for neuropathies related to anti-ganglioside antibodies.Peer reviewed: YesNRC publication: Ye

GM3, GM2 and GM1 mimics deigned for biosensing : Chemoenzymatic synthesis, target affinities and 900 MHz NMR analysis

In press: YesNRC publication: Ye