Abstract
Cancer immunotherapy has made recent breakthrough, including immune checkpoint blockade (ICB) that inhibits immunosuppressive checkpoints such as programmed cell death protein 1 (PD-1) and programmed death-ligand 1 (PD-L1). However, most cancer patients do not durably respond to ICB. To predict ICB responses for patient stratification, conventional immunostaining has been used to analyze the PD-L1 expression level on biopsied tumor tissues but has limitations of invasiveness and tumor heterogeneity. Recently, PD-L1 levels on tumor cell exosomes showed the potential to predict ICB response. Here, we developed a non-invasive, sensitive, and fast assay, termed as exosome-hybridization chain reaction (ExoHCR), to analyze tumor cell exosomal PD-L1 levels. First, using αCD63-conjugated magnetic beads, we isolated exosomes from B16F10 melanoma and CT26 colorectal cancer cells that were immunostimulated to generate PD-L1-positive exosomes. Exosomes were then incubated with a conjugate of PD-L1 antibody with an HCR trigger DNA (T), in which one αPD-L1-T conjugate carried multiple copies of T. Next, a pair of metastable fluorophore-labeled hairpin DNA (H1 and H2) were added, allowing T on αPD-L1-T to initiate HCR in situ on bead-conjugated exosome surfaces. By flow cytometric analysis of the resulting beads, relative to αPD-L1-fluorophore conjugates, ExoHCR amplified the fluorescence signal intensities for exosome detection by 3–7 times in B16F10 cells and CT26 cells. Moreover, we validated the biostability of ExoHCR in culture medium supplemented with 50% FBS. These results suggest the potential of ExoHCR for non-invasive, sensitive, and fast PD-L1 exosomal profiling in patient stratification of cancer immunotherapy.
Highlights
Electronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.Cancer immunotherapy has made significant progress over the past decade (Dougan and Dranoff 2009; Khalil et al 2016)
This challenge is aggravated by the fact that the therapeutic responses of cancer patients to immune checkpoint blockade (ICB) cannot be determined until weeks later, by when the non-responding patients may have missed the best opportunities for other treatment
exosome-hybridization chain reaction (ExoHCR) significantly amplified the fluorescence signal intensities on exosomes in only 1.5 h. These results indicate the potential of ExoHCR as a non-invasive, isothermal, sensitive, and fast assay for programmed death-ligand 1 (PD-L1) level profiling on tumor cell exosomes, in order for ICB-related therapeutic response prediction and patient stratification
Summary
Overall, only a small subset of cancer patients can respond to current ICB agents (Farkona et al 2016) This challenge is aggravated by the fact that the therapeutic responses of cancer patients to ICB cannot be determined until weeks later, by when the non-responding patients may have missed the best opportunities for other treatment. These challenges call for rapid and sensitive prognostics that predict the therapeutic responses of patients to ICB in patient stratification. IHC-based assays have drawbacks such as invasiveness, and poor sensitivity (Shia 2008) To address these challenges, fast, sensitive, and noninvasive prognostics that profile PD-L1 expression levels would be highly desired to predict ICB therapeutic responses
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