Cell Reports (Aug 2021)

Actinin BioID reveals sarcomere crosstalk with oxidative metabolism through interactions with IGF2BP2

  • Feria A. Ladha,
  • Ketan Thakar,
  • Anthony M. Pettinato,
  • Nicholas Legere,
  • Shahnaz Ghahremani,
  • Rachel Cohn,
  • Robert Romano,
  • Emily Meredith,
  • Yu-Sheng Chen,
  • J. Travis Hinson

Journal volume & issue
Vol. 36, no. 6
p. 109512

Abstract

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Summary: Actinins are strain-sensing actin cross-linkers that are ubiquitously expressed and harbor mutations in human diseases. We utilize CRISPR, pluripotent stem cells, and BioID to study actinin interactomes in human cardiomyocytes. We identify 324 actinin proximity partners, including those that are dependent on sarcomere assembly. We confirm 19 known interactors and identify a network of RNA-binding proteins, including those with RNA localization functions. In vivo and biochemical interaction studies support that IGF2BP2 localizes electron transport chain transcripts to actinin neighborhoods through interactions between its K homology (KH) domain and actinin’s rod domain. We combine alanine scanning mutagenesis and metabolic assays to disrupt and functionally interrogate actinin-IGF2BP2 interactions, which reveal an essential role in metabolic responses to pathological sarcomere activation using a hypertrophic cardiomyopathy model. This study expands our functional knowledge of actinin, uncovers sarcomere interaction partners, and reveals sarcomere crosstalk with IGF2BP2 for metabolic adaptation relevant to human disease.

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