Frontiers in Endocrinology (Mar 2022)

Analysis of Half a Billion Datapoints Across Ten Machine-Learning Algorithms Identifies Key Elements Associated With Insulin Transcription in Human Pancreatic Islet Cells

  • Wilson K. M. Wong,
  • Vinod Thorat,
  • Mugdha V. Joglekar,
  • Charlotte X. Dong,
  • Hugo Lee,
  • Yi Vee Chew,
  • Adwait Bhave,
  • Wayne J. Hawthorne,
  • Feyza Engin,
  • Feyza Engin,
  • Aniruddha Pant,
  • Louise T. Dalgaard,
  • Sharda Bapat,
  • Anandwardhan A. Hardikar,
  • Anandwardhan A. Hardikar

DOI
https://doi.org/10.3389/fendo.2022.853863
Journal volume & issue
Vol. 13

Abstract

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Machine learning (ML)-workflows enable unprejudiced/robust evaluation of complex datasets. Here, we analyzed over 490,000,000 data points to compare 10 different ML-workflows in a large (N=11,652) training dataset of human pancreatic single-cell (sc-)transcriptomes to identify genes associated with the presence or absence of insulin transcript(s). Prediction accuracy/sensitivity of each ML-workflow was tested in a separate validation dataset (N=2,913). Ensemble ML-workflows, in particular Random Forest ML-algorithm delivered high predictive power (AUC=0.83) and sensitivity (0.98), compared to other algorithms. The transcripts identified through these analyses also demonstrated significant correlation with insulin in bulk RNA-seq data from human islets. The top-10 features, (including IAPP, ADCYAP1, LDHA and SST) common to the three Ensemble ML-workflows were significantly dysregulated in scRNA-seq datasets from Ire-1αβ-/- mice that demonstrate dedifferentiation of pancreatic β-cells in a model of type 1 diabetes (T1D) and in pancreatic single cells from individuals with type 2 Diabetes (T2D). Our findings provide direct comparison of ML-workflows in big data analyses, identify key elements associated with insulin transcription and provide workflows for future analyses.

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