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Multiplexed Single Cell mRNA Sequencing Analysis of Mouse Embryonic Cells
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Neighbor-specific gene expression revealed from physically interacting cells during mouse embryonic development.

Junil Kim1,2, Michaela Mrugala Rothová3, Esha Madan4

  • 1Biotech Research and Innovation Centre, University of Copenhagen, Copenhagen N 2200, Denmark.

Proceedings of the National Academy of Sciences of the United States of America
|January 3, 2023
PubMed
Summary
This summary is machine-generated.

Physically interacting cells (PIC-seq) reveal how cell-cell contact influences gene expression during mouse embryo development. This method uncovers specific gene changes in neural progenitor and definitive endoderm cells upon interaction.

Keywords:
PIC-seqcontact-specific expressionmouse embryonic developmentsingle-cell RNA sequencingspatial-tSNE

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Area of Science:

  • Developmental Biology
  • Genomics
  • Cell Biology

Background:

  • Multicellular organism development relies on cell-cell communication.
  • Single-cell RNA sequencing (scRNA-seq) lacks spatial information crucial for studying contact-dependent gene expression.
  • Understanding direct cell-cell interactions is key to lineage specification and cell fate decisions.

Purpose of the Study:

  • To develop and apply a novel method for analyzing gene expression in physically interacting cells during embryogenesis.
  • To identify gene expression signatures dependent on specific neighboring cell types.
  • To computationally predict and experimentally validate the impact of cell-cell contact on gene regulation.

Main Methods:

  • RNA sequencing of physically interacting cells (PIC-seq) was performed on mouse embryos (E7.5-E9.5).
  • PIC-seq data was analyzed alongside scRNA-seq data.
  • Computational predictions of cell-cell contact effects were experimentally validated.
  • A spatial-t-distributed stochastic neighboring embedding technique was developed for visualizing cell distribution.

Main Results:

  • PIC-seq identified gene expression signatures specific to cell-cell contact.
  • Neural progenitor (NP) cells upregulate Lhx5 and Nkx2-1 when interacting with definitive endoderm (DE) cells.
  • DE cells upregulate Rax and Gsc when interacting with NP cells.
  • A computational method was developed to predict the impact of neighboring cell types on gene expression.

Conclusions:

  • PIC-seq is an innovative approach to study contact-specific gene regulation during embryogenesis.
  • Direct cell-cell interactions significantly influence gene expression patterns in developing tissues.
  • This study provides new insights into the molecular mechanisms governing cell fate decisions in developing embryos.