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Multi-ancestry transcriptome prediction with functionally informed variants in TOPMed MESA improves performance of

Xiaowei Hu1, Daniel S Araujo2, Chachrit Khunsriraksakul3

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Summary
This summary is machine-generated.

New transcriptome prediction models using functionally informed variants (FIVs) improve multi-ancestry transcriptome-wide association studies (TWASs). An omnibus approach further enhances power and accuracy, identifying key genes missed by standard methods.

Keywords:
PBMCsRNA-seqfunctional annotationmulti-ancestryomnibus approachperipheral blood mononuclear cellstranscriptome prediction modelstranscriptome-wide association study

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Area of Science:

  • Genetics
  • Computational Biology
  • Statistical Genomics

Background:

  • Accurate transcriptome prediction models are essential for multi-ancestry transcriptome-wide association studies (TWASs).
  • Existing methods may not fully leverage functional information for variant selection.
  • Multi-ancestry studies require robust models that perform well across diverse populations.

Purpose of the Study:

  • To develop and evaluate novel transcriptome prediction models using functionally informed variants (FIVs) to enhance multi-ancestry TWAS.
  • To compare the performance of FIV-based methods against the benchmark elastic net (EN) method.
  • To introduce an omnibus approach for aggregating results and further improving TWAS power and gene discovery.

Main Methods:

  • Trained transcriptome prediction models using RNA sequencing data from 1,287 multi-ancestry participants (TOPMed MESA) with a focus on FIVs.
  • Validated model prediction accuracy on independent datasets (Geuvadis, Jackson Heart Study).
  • Integrated models with multi-ancestry Genome-Wide Association Studies (GWASs) for blood cell, lipid, and pulmonary function traits; developed and tested an omnibus aggregation approach.

Main Results:

  • FIV-based methods achieved comparable prediction accuracy to EN but used a smaller variant set.
  • Proposed methods demonstrated improved TWAS power and accuracy (average 24% improvement over EN).
  • The omnibus approach identified the most Bonferroni-significant TWAS genes across all traits and enhanced performance for blood cell traits.

Conclusions:

  • Functionally informed variants significantly improve multi-ancestry transcriptome prediction models for TWAS.
  • The omnibus approach offers a powerful strategy for maximizing TWAS discovery and accuracy.
  • TWAS improvement is influenced by the relevance of the GWAS trait to the cell type used for transcriptome model training (PBMCs).