Abstract

Characterization of cell surface proteome differences between cancer and healthy cells is a valuable approach for the identification of novel diagnostic and therapeutic targets. However, selective sampling of surface proteins for proteomics requires large samples (>10e6 cells) and long labeling times. These limitations preclude analysis of material-limited biological samples or the capture of rapid surface proteomic changes. Here, we present two labeling approaches to tether exogenous peroxidases (APEX2 and HRP) directly to cells, enabling rapid, small-scale cell surface biotinylation without the need to engineer cells. We used a novel lipidated DNA-tethered APEX2 (DNA-APEX2), which upon addition to cells promoted cell agnostic membrane-proximal labeling. Alternatively, we employed horseradish peroxidase (HRP) fused to the glycan-binding domain of wheat germ agglutinin (WGA-HRP). This approach yielded a rapid and commercially inexpensive means to directly label cells containing common N-Acetylglucosamine (GlcNAc) and sialic acid glycans on their surface. The facile WGA-HRP method permitted high surface coverage of cellular samples and enabled the first comparative surface proteome characterization of cells and cell-derived small extracellular vesicles (EVs), leading to the robust quantification of 953 cell and EV surface annotated proteins. We identified a newly recognized subset of EV-enriched markers, as well as proteins that are uniquely upregulated on Myc oncogene-transformed prostate cancer EVs. These two cell-tethered enzyme surface biotinylation approaches are highly advantageous for rapidly and directly labeling surface proteins across a range of material-limited sample types.

Highlights

  • The cell surface proteome, termed the surfaceome, serves as the main communication hub be35 tween a cell and the extracellular environment (Wollscheid et al, 2009)

  • horseradish peroxidase (HRP) was used as a soluble cell surface labeler to identify rapid cell surface proteome changes in response to insulin (Li et al, 2021)

  • A subset of proteins were highly upregulated in the small extracellular vesicles (EV) compared to parent cell, including ITIH4, MFGE8, TF, DSG1, TSPAN14, AZGP1, and immunoglobulin superfamily 8 (IGSF8), (Figure 5E) and a subset of the findings were validated by western blot (Figure 5F)

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Summary

Introduction

The cell surface proteome, termed the surfaceome, serves as the main communication hub be tween a cell and the extracellular environment (Wollscheid et al, 2009). This cellular com partment often reveals the first signs of cellular distress and disease, and is of substantial interest 37 to the medical community for diagnostic and therapeutic development (Leth-Larsen et al, 2010)

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Methods and Materials

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