RT Journal
A1 Yan, Lulu
A1 Cheng, Jinyu
A1 Nie, Qing
A1 Sun, Xiaoqiang
T1 Dissecting multilayer cell–cell communications with signaling feedback loops from spatial transcriptomics data
JF Genome Research 
JO Genome Research 
YR 2025 
FD June 01 
VO 35 
IS 6 
SP 1400 
OP 1414 
DO 10.1101/gr.279857.124 
UL http://genome.cshlp.org/content/35/6/1400.abstract 
AB The emergence of spatial transcriptomics (ST) provides unprecedented opportunities to better decipher cell–cell communication (CCC). How to integrate spatial information and complex signaling mechanisms to infer functional CCC, however, remains a major challenge. Here, we present stMLnet, a method that takes into account spatial information and multilayer signaling regulation to identify signaling feedback loops within multilayer CCCs from ST data. To this end, stMLnet quantifies spatially dependent ligand–receptor signaling activity based on diffusion and mass action models, and maps it to intracellular targets. We benchmark stMLnet against seven representative methods and find that stMLnet performs better in both intercellular ligand–receptor inference and intracellular target gene prediction. We apply stMLnet to analyze data from diverse ST techniques like seqFISH+, Slide-seq v2, MERFISH, and Stereo-seq, verifying its robustness and scalability on ST data with varying spatial resolutions and gene coverages. Particularly, stMLnet reveals multilayer signaling feedback loops underlying the inflammatory response in ST data of COVID-19-infected lung tissue. Our study provides an effective tool for dissecting multilayer ligand/receptor-target regulation and multicellular signaling circuits from ST data, which can advance understanding of the mechanistic and functional roles of spatial CCC.