CellFy: A Cell-Based Fragment Screen against C-Type Lectins

Baukmann, Hannes; Wawrzinek, Robert; Fuchsberger, Felix F.; Specker, Edgar; Aretz, Jonas; Nazaré, Marc; Rademacher, Christoph

doi:10.1021/acschembio.8b00875

Cited by 22 publications

(25 citation statements)

References 41 publications

(76 reference statements)

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“…Weak affinity chromatography was developed as a tool to screen hits in FBDD ( Duong-Thi et al, 2011 ). Fragment-based screening was also carried out using cell-based assays ( Szõllõsi et al, 2015 ; Schulze et al, 2018 ). A study showed that fragments reacting with cysteine residues were able to identify proteins that formed interactions with these compounds ( Backus et al, 2016 ).…”

Section: Fragment Screening Methodsmentioning

confidence: 99%

Application of Fragment-Based Drug Discovery to Versatile Targets

2020

Front. Mol. Biosci.

123

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Fragment-based drug discovery (FBDD) is a powerful method to develop potent smallmolecule compounds starting from fragments binding weakly to targets. As FBDD exhibits several advantages over high-throughput screening campaigns, it becomes an attractive strategy in target-based drug discovery. Many potent compounds/inhibitors of diverse targets have been developed using this approach. Methods used in fragment screening and understanding fragment-binding modes are critical in FBDD. This review elucidates fragment libraries, methods utilized in fragment identification/confirmation, strategies applied in growing the identified fragments into drug-like lead compounds, and applications of FBDD to different targets. As FBDD can be readily carried out through different biophysical and computer-based methods, it will play more important roles in drug discovery.

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Section: Fragment Screening Methodsmentioning

confidence: 99%

Application of Fragment-Based Drug Discovery to Versatile Targets

2020

Front. Mol. Biosci.

123

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“…Although multivalence is in general the most employed strategy to overcome the poor intrinsic affinities of C-type lectins, computational and screening studies have gradually directed the attention to other novel DC-SIGN ligands. [147,148] Indeed, previous works have already found nonsugar fragments with remarkably low affinities compared to monosaccharides (μM; Figure 6A and B), [149] and some of them are able to efficiently trigger cell signaling when conjugated to a protein scaffold. [150] Fragment screening analyses have identified other potentially druggable sites in the CRD architecture, [151] which could be exploited for the design of more potent DC-SIGN modulators ( Figure 6C).…”

Section: Relevant Interacting Monosaccharides and Glycansmentioning

confidence: 99%

“…Recently, a promising screening method has been developed and simultaneously tested with DC-SIGN and langerin. [148] The method enables a better evaluation of the binding potencies under physiological conditions, directly on the CLR-containing cells ( Figure 10A). Detection of hits is achieved by direct competition between a reference fluorescent ligand (FITC-dextran) and the tested fragments.…”

Section: Langerinmentioning

confidence: 99%

Molecular Recognition in C‐Type Lectins: The Cases of DC‐SIGN, Langerin, MGL, and L‐Sectin

et al. 2020

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Carbohydrates play a pivotal role in intercellular communication processes. In particular, glycan antigens are key for sustaining homeostasis, helping leukocytes to distinguish damaged tissues and invading pathogens from healthy tissues. From a structural perspective, this cross-talk is fairly complex, and multiple membrane proteins guide these recognition processes, including lectins and Toll-like receptors. Since the beginning of this century, lectins have become potential targets for therapeutics for controlling and/or avoiding the progression of pathologies derived from an incorrect immune outcome, including infectious processes, cancer, or autoimmune diseases. Therefore, a detailed knowledge of these receptors is mandatory for the development of specific treatments. In this review, we summarize the current knowledge about four key C-type lectins whose importance has been steadily growing in recent years, focusing in particular on how glycan recognition takes place at the molecular level, but also looking at recent progresses in the quest for therapeutics.

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“…2 The development of functional carbohydrate mimics has been tackled either by structure-based design, 1,[3][4][5][6][7][8][9][10][11][12][13] or by discovery campaigns, often planned taking advantage of microarray technology. [14][15][16] The latter approach has been frustrated by the cumbersome synthesis of oligosaccharides, that severely limits the diversity and the number of compounds that can be rapidly generated.…”

Section: Introductionmentioning

confidence: 99%