TY - JOUR T1 - IBEX – A versatile multi-plex optical imaging approach for deep phenotyping and spatial analysis of cells in complex tissues JF - bioRxiv DO - 10.1101/2020.11.20.390690 SP - 2020.11.20.390690 AU - Andrea J. Radtke AU - Evelyn Kandov AU - Bradley Lowekamp AU - Emily Speranza AU - Colin J. Chu AU - Anita Gola AU - Nishant Thakur AU - Rochelle Shih AU - Li Yao AU - Ziv Rafael Yaniv AU - Rebecca T. Beuschel AU - Juraj Kabat AU - Joshua Croteau AU - Jeremy Davis AU - Jonathan M. Hernandez AU - Ronald N. Germain Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/11/21/2020.11.20.390690.abstract N2 - The diverse composition of mammalian tissues poses challenges for understanding the cell-cell interactions required for organ homeostasis and how spatial relationships are perturbed during disease. Existing methods such as single-cell genomics, lacking a spatial context, and traditional immunofluorescence, capturing only 2-6 molecular features, cannot resolve these issues. Imaging technologies have been developed to address these problems, but each possesses limitations that constrain widespread use. Here we report a new method that overcomes major impediments to highly multi-plex tissue imaging. Iterative Bleaching Extends multi-pleXity (IBEX) uses an iterative staining and chemical bleaching method to enable high resolution imaging of >65 parameters in the same tissue section without physical degradation. IBEX can be employed with various types of conventional microscopes and permits use of both commercially available and user-generated antibodies in an ‘open’ system to allow easy adjustment of staining panels based on ongoing marker discovery efforts. We show how IBEX can also be used with amplified staining methods for imaging strongly fixed tissues with limited epitope retention and with oligonucleotide-based staining, allowing potential cross-referencing between flow cytometry, Cellular Indexing of Transcriptomes and Epitopes by Sequencing (CITE-Seq), and IBEX analysis of the same tissue. To facilitate data processing, we provide an open source platform for automated registration of iterative images. IBEX thus represents a technology that can be rapidly integrated into most current laboratory workflows to achieve high content imaging to reveal the complex cellular landscape of diverse organs and tissues.Significance Statement Single cell flow cytometry and genomic methods are rapidly increasing our knowledge of the diversity of cell types in metazoan tissues. However, suitably robust methods for placing these cells in a spatial context that reveal how their localization and putative interactions contribute to tissue physiology and pathology are still lacking. Here we provide a readily accessible pipeline (IBEX) for highly multi-plex immunofluorescent imaging that enables a fine-grained analysis of cells in their tissue context. Additionally, we describe extensions of the IBEX workflow to handle hard to image tissue preparations and a method to facilitate direct integration of the imaging data with flow cytometry and sequencing technologies.Competing Interest StatementJoshua Croteau: Employee of BioLegend ER -