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In Cell systems

We present scTenifoldXct, a semi-supervised computational tool for detecting ligand-receptor (LR)-mediated cell-cell interactions and mapping cellular communication graphs. Our method is based on manifold alignment, using LR pairs as inter-data correspondences to embed ligand and receptor genes expressed in interacting cells into a unified latent space. Neural networks are employed to minimize the distance between corresponding genes while preserving the structure of gene regression networks. We apply scTenifoldXct to real datasets for testing and demonstrate that our method detects interactions with high consistency compared with other methods. More importantly, scTenifoldXct uncovers weak but biologically relevant interactions overlooked by other methods. We also demonstrate how scTenifoldXct can be used to compare different samples, such as healthy vs. diseased and wild type vs. knockout, to identify differential interactions, thereby revealing functional implications associated with changes in cellular communication status.

Yang Yongjian, Li Guanxun, Zhong Yan, Xu Qian, Lin Yu-Te, Roman-Vicharra Cristhian, Chapkin Robert S, Cai James J

2023-Feb-03

cell-cell interaction, cellular communication, gene regression network, machine learning, manifold alignment, neural networks, scRNA-seq, single-cell RNA sequencing