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A Counterfactual Framework for Directional Cell-Cell Interaction Analysis in Spatial Transcriptomics.

Humaira Anzum1, Veena Kochat2, Suresh Satpati2

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This study introduces a new counterfactual framework to reveal directional cell-cell communication in spatial transcriptomics. The method accurately identifies specific cellular interactions, like Tumor-EMT influencing macrophages.

Keywords:
Cell–cell communicationCounterfactual inferenceSpatial transcriptomicsTumor microenvironment

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Area of Science:

  • Spatial transcriptomics
  • Cell-cell communication analysis
  • Computational biology

Background:

  • Current spatial transcriptomics methods often lack explicit directionality testing for cell-cell interactions.
  • Reliance on correlation or predefined ligand-receptor pairs limits understanding of causal cellular influence.
  • Need for robust methods to infer directional cell-cell communication.

Purpose of the Study:

  • To develop a novel framework for inferring directional cell-cell influence in spatial transcriptomics.
  • To introduce a ligand-receptor-agnostic approach that tests sender specificity.
  • To quantify directional communication using a Counterfactual Directionality Score (CDS).

Main Methods:

  • Developed a neighborhood-conditioned graph model to predict receiver cell states.
  • Employed a counterfactual intervention strategy by replacing neighboring cells to measure state changes.
  • Calculated pair-level CDS by aggregating results across receiver cells and test cores.

Main Results:

  • Identified reproducible, asymmetric interactions in cholangiocarcinoma tissue microarrays.
  • Prominent directional influences include Tumor-EMT→Macrophage (CDS=0.0828) and Fibroblast→Macrophage (CDS=0.0582).
  • Results were statistically significant (p<0.001) and robust against null models and resampling, correlating well with ligand-receptor scores (r=0.758).

Conclusions:

  • Counterfactual testing provides a statistically rigorous and scalable method for directional cell-cell communication analysis.
  • The framework successfully infers specific, directional interactions in complex tissue microenvironments.
  • This approach enhances the understanding of cellular crosstalk in spatial transcriptomics.