Tagged actin mRNA dysregulation in IGF2BP1−/− mice

Leti Núñez, Adina R. Buxbaum, Zachary B. Katz, Melissa Lopez-Jones, Chiso Nwokafor, Kevin Czaplinski, Feng Pan, Jason Rosenberg, Hannah R. Monday, Robert H. Singer

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

Gene expression is tightly regulated by RNA-binding proteins (RBPs) to facilitate cell survival, differentiation, and migration. Previous reports have shown the importance of the Insulin-like Growth Factor II mRNA-Binding Protein (IGF2BP1/IMP1/ZBP1) in regulating RNA fate, including localization, transport, and translation. Here, we generated and characterized a knockout mouse to study RBP regulation. We report that IGF2BP1 is essential for proper brain development and neonatal survival. Specifically, these mice display disorganization in the developing neocortex, and further investigation revealed a loss of cortical marginal cell density at E17.5. We also investigated migratory cell populations in the IGF2BP1/ mice, using BrdU labeling, and detected fewer mitotically active cells in the cortical plate. Since RNA localization is important for cellular migration and directionality, we investigated the regulation of β-actin messenger RNA (mRNA), a well-characterized target with established roles in cell motility and development. To aid in our understanding of RBP and target mRNA regulation, we generated mice with endogenously labeled β-actin mRNA (IGF2BP1/; β-actinMS2+/+). Using endogenously labeled β-actin transcripts, we report IGF2BP1/− neurons have increased transcription rates and total β-actin protein content. In addition, we found decreased transport and anchoring in knockout neurons. Overall, we present an important model for understanding RBP regulation of target mRNA.

Original languageEnglish (US)
Article numbere2208465119
JournalProceedings of the National Academy of Sciences of the United States of America
Volume119
Issue number37
DOIs
StatePublished - Sep 13 2022

Keywords

  • IGF2BP1
  • RNA binding
  • knockout mouse
  • mRNA localization

ASJC Scopus subject areas

  • General

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