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Cell Type-specific Gene Expression Profiling in the Mouse Liver
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Harmonizing heterogeneous transcriptomics datasets for machine learning-based analysis to identify spaceflown murine

Hari Ilangovan1, Prachi Kothiyal2, Katherine A Hoadley3

  • 1Science Applications International Corporation (SAIC), Reston, VA, 20190, USA. ilangovan.hari@gmail.com.

NPJ Microgravity
|June 11, 2024
PubMed
Summary
This summary is machine-generated.

NASA uses machine learning (ML) to analyze spaceflight effects on mouse liver tissue. By integrating diverse datasets, ML accurately classified spaceflown versus control animals, overcoming small sample size limitations.

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Area of Science:

  • Space biology
  • Computational biology
  • Genomics

Background:

  • High-throughput molecular assays are used by NASA to detect physiological changes during spaceflight.
  • Machine learning (ML) offers potential for analyzing complex, high-dimensional molecular data.
  • Limited sample sizes in spaceflight studies hinder traditional ML applications.

Purpose of the Study:

  • To develop and validate a method for integrating heterogeneous transcriptomics datasets from multiple spaceflight missions.
  • To overcome sample size limitations for applying ML in spaceflight research.
  • To accurately classify spaceflown versus ground control samples using ML on harmonized data.

Main Methods:

  • Log transformation, scaling, and normalization of six heterogeneous mouse liver transcriptomics datasets (n=137).
  • Application of ML methods to the integrated dataset to classify spaceflown vs. ground control animals.
  • Comparison of ML-identified biological processes with classical omics analyses.

Main Results:

  • ML models successfully classified spaceflown vs. ground control mice with an Area Under the Curve (AUC) of ≥0.87.
  • The data harmonization approach effectively mitigated variability arising from different mission origins.
  • Harmonized ML analysis revealed liver-specific biological processes consistent with study-by-study analyses.

Conclusions:

  • Integrating heterogeneous, small-sample-size datasets is feasible for ML applications in spaceflight research.
  • Harmonization techniques enable robust ML analysis despite inter-study variability.
  • This approach enhances the utility of molecular data for understanding spaceflight's impact on physiology.