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Signal amplification by cyclic extension enables high-sensitivity single-cell mass cytometry

Xiao‐Kang Lun, Kuanwei Sheng, Xueyang Yu, Ching Yeung Lam, Gokul Gowri, Matthew Serrata, Yunhao Zhai, Hanquan Su, Jingyi Luan, Youngeun Kim, Donald E. Ingber, Hartland W. Jackson, Michael B. Yaffe, Peng Yin

2024Nature Biotechnology29 citationsDOIOpen Access PDF

Abstract

Mass cytometry uses metal-isotope-tagged antibodies to label targets of interest, which enables simultaneous measurements of ~50 proteins or protein modifications in millions of single cells, but its sensitivity is limited. Here, we present a signal amplification technology, termed Amplification by Cyclic Extension (ACE), implementing thermal-cycling-based DNA in situ concatenation in combination with 3-cyanovinylcarbazole phosphoramidite-based DNA crosslinking to enable signal amplification simultaneously on >30 protein epitopes. We demonstrate the utility of ACE in low-abundance protein quantification with suspension mass cytometry to characterize molecular reprogramming during the epithelial-to-mesenchymal transition as well as the mesenchymal-to-epithelial transition. We show the capability of ACE to quantify the dynamics of signaling network responses in human T lymphocytes. We further present the application of ACE in imaging mass cytometry-based multiparametric tissue imaging to identify tissue compartments and profile spatial aspects related to pathological states in polycystic kidney tissues.

Topics & Concepts

Mass cytometryFlow cytometryCytometryImmunolabelingCell biologyBiologyMolecular biologyTransition (genetics)ChemistryComputational biologyBiochemistryImmunologyPhenotypeImmunohistochemistryGeneSingle-cell and spatial transcriptomicsCell Image Analysis TechniquesMicrofluidic and Bio-sensing Technologies