Abstract
Spectral flow cytometry is an upcoming technique that allows for extensive multicolor panels, enabling simultaneous investigation of a large number of cellular parameters in a single experiment. To fully explore the resulting high-dimensional single cell datasets, high-dimensional analysis is needed, as opposed to the common practice of manual gating in conventional flow cytometry. However, preparing spectral flow cytometry data for high-dimensional analysis can be challenging, because of several technical aspects. In this article, we will give insight into the pitfalls of handling spectral flow cytometry datasets. Moreover, we will describe a workflow to properly prepare spectral flow cytometry data for high dimensional analysis and tools for integrating new data at later time points. Using healthy control data as example, we will go through the concepts of quality control, data cleaning, transformation, correcting for batch effects, subsampling, clustering and data integration. This methods article provides an R-based pipeline based on previously published packages, that are readily available to use. Application of our workflow will aid spectral flow cytometry users to obtain valid and reproducible results.
Highlights
Over the years, the number of variables measured in flow cytometry experiments has increased, especially with the recent development of spectral flow cytometry
Peripheral blood mononuclear cells (PBMCs) were extracted from heparinized blood using density gradient medium FicollPaque PLUS (GE Healthcare), frozen in Roswell Park Memorial Institute (RPMI) 1640 medium supplemented with 10% dimethyl sulfoxide (DMSO; Sigma-Aldrich) and 20% heat inactivated fetal calf serum (HI-FCS; Gibco, Thermofisher Scientific) and stored in liquid nitrogen until use
The first requirement for high-quality spectral flow cytometry data is a well-designed and titrated staining panel. This element is not covered in this article, since clear panel design guidelines already exist for spectral flow cytometry, as described in several flow cytometry guidelines [4, 14]
Summary
The number of variables measured in flow cytometry experiments has increased, especially with the recent development of spectral flow cytometry. Not being limited to the number of channels of the instrument, spectral flow cytometry enables multicolor panels with many more parameters than ever deemed possible in conventional flow cytometry. Even in conventional flow cytometry, technologies are used to increase the number of markers included in one panel [3]. With the current complexity of flow cytometry assays, reproducibility is a major concern. Adherence to established general guidelines for key practical aspects and data analysis will help to increase reproducibility [4]. Easy-to-use data analysis workflows for spectral flow cytometry, for the starting researcher in this field, are currently limited
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