Integrative, high-resolution analysis of single cells across experimental conditions with PARAFAC2

Author:

Ramirez Andrew,Orcutt-Jahns Brian T.ORCID,Pascoe Sean,Abraham Armaan,Remigio Breanna,Thomas Nathaniel,Meyer Aaron S.ORCID

Abstract

AbstractEffective tools for exploration and analysis are needed to extract insights from large-scale single-cell measurement data. However, current techniques for handling single-cell studies performed across experimental conditions (e.g., samples, perturbations, or patients) require restrictive assumptions, lack flexibility, or do not adequately deconvolute condition-to-condition variation from cell-to-cell variation. Here, we report that the tensor decomposition method PARAFAC2 (Pf2) enables the dimensionality reduction of single-cell data across conditions. We demonstrate these benefits across two distinct contexts of single-cell RNA-sequencing (scRNA-seq) experiments of peripheral immune cells: pharmacologic drug perturbations and systemic lupus erythematosus (SLE) patient samples. By isolating relevant gene modules across cells and conditions, Pf2 enables straightforward associations of gene variation patterns across specific patients or perturbations while connecting each coordinated change to certain cells without pre-defining cell types. The theoretical grounding of Pf2 suggests a unified framework for many modeling tasks associated with single-cell data. Thus, Pf2 provides an intuitive universal dimensionality reduction approach for multi-sample single-cell studies across diverse biological contexts.HighlightsPARAFAC2 enables tensor-based analysis of single-cell experiments across conditions.PARAFAC2 separates condition-specific effects from cell-to-cell variation.PARAFAC2 provides intuitive isolation of patterns into condition-, cell-, and gene-specific patterns.

Publisher

Cold Spring Harbor Laboratory

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