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FastCCC: a permutation-free framework for scalable, robust, and reference-based cell-cell communication analysis in

Siyu Hou1, Wenjing Ma2, Xiang Zhou3

  • 1Department of Statistics and Data Science, Yale University, New Haven, CT, USA.

Nature Communications
|December 13, 2025
PubMed
Summary
This summary is machine-generated.

FastCCC is a new framework for analyzing cell-cell communications (CCCs) in single-cell studies. It offers scalable and robust analysis, identifying key CCCs and biological insights efficiently.

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Area of Science:

  • Computational Biology
  • Single-cell Transcriptomics
  • Systems Biology

Background:

  • Understanding cell-cell communications (CCCs) is crucial for deciphering multicellular organism function.
  • Existing methods for CCC detection in single-cell transcriptomics can be computationally intensive and lack scalability.

Purpose of the Study:

  • To introduce FastCCC, a novel permutation-free framework for scalable, robust, and reference-based CCC analysis.
  • To enhance the identification of critical CCCs and uncover biological insights from single-cell data.

Main Methods:

  • FastCCC utilizes fast Fourier transformation-based convolution for analytical p-value computation, eliminating the need for permutations.
  • Employs a modular algebraic operation framework to capture diverse CCC patterns.
  • Integrates atlas-scale single-cell references for enhanced analysis of user-collected datasets.

Main Results:

  • FastCCC demonstrates superior analytical capabilities compared to existing methods across multiple datasets.
  • Successfully identifies biologically meaningful CCCs in complex tissue environments, including COVID-19 severity-linked interactions.
  • Reveals dynamic communications during T-cell development and distinct interactions in reference-based analyses.

Conclusions:

  • FastCCC provides a scalable, robust, and efficient solution for reference-based CCC analysis in single-cell transcriptomics.
  • The framework and the human CCC reference panel facilitate deeper biological insights into complex cellular interactions.
  • Enables reliable detection of critical cell-cell communications in diverse biological contexts.