Margaret Duich scite author profile

Receptor-ligand interactions play essential signaling roles within intercellular contact regions. This is particularly important within the context of the immune synapse where protein communication at the surface of physically interacting T cells and antigen-presenting cells regulate downstream immune signaling responses. To identify protein microenvironments within immunological synapses, we combined a flavin-dependent photocatalytic labeling strategy with quantitative mass spectrometry-based proteomics. Using α-PD-L1 or α-PD-1 single-domain antibody (VHH)-based photocatalyst targeting modalities, we profiled protein microenvironments within the intercellular region of an immune synapse-forming co-culture system. In addition to enrichment of both PD-L1 and PD-1 with either targeting modality, we also observed enrichment of both known immune synapse residing receptor-ligand pairs and surface proteins, as well as previously unknown synapse residing proteins.

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Near-Infrared Photoredox Catalyzed Tryptophan Functionalization for Peptide Stapling and Protein Labeling in Complex Tissue Environments

Ryu

Reyes‐Robles

Wyche

et al. 2022

Preprint

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The chemical transformation of aromatic amino acids has emerged as an attractive alternative to non-selective lysine or cysteine labeling for the modification of biomolecules. However, this strategy has largely been limited by the scope of functional groups and biocompatible reaction conditions available. Herein, we report the implementation of near-infrared-activatable photocatalysts, TTMAPP and n-Pr-DMQA+, capable of generating fluoroalkyl radicals for selective tryptophan functionalization within simple and complex biological systems. At the peptide level, a diverse set of iodo-perfluoroalkyl reagents were used to install bioorthogonal handles for downstream applications or link inter- or intramolecular tryptophan residues for peptide stapling. We also found this photoredox transformation amenable to biotinylation of intracellular proteins in live cells for downstream confocal imaging and mass spectrometry-based analysis. Given the inherent tissue penetrant nature of near-infrared light we further demonstrated the utility of this technology to achieve photocatalytic protein fluoroalkylation in physiologically relevant tissue and tumor environments.

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Margaret Duich

Proteomic mapping of intercellular synaptic environmentsviaflavin-dependent photoredox catalysis

A normative database of wide-field swept-source optical coherence tomography angiography quantitative metrics in a large cohort of healthy adults

Proteomic Mapping of Intercellular Synaptic Environments via Flavin-Dependent Photoredox Catalysis

Near-Infrared Photoredox Catalyzed Tryptophan Functionalization for Peptide Stapling and Protein Labeling in Complex Tissue Environments

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