Single-Cell Gene Expression Analysis of a Human ESC Model of Pancreatic Endocrine Development Reveals Different Paths to β-Cell Differentiation

Maja Borup Kjær Petersen, Ajuna Azad, Camilla Ingvorsen, Katja Hess, Mattias Hansson, Anne Grapin-Botton*, Christian Honoré

*Corresponding author for this work
52 Citations (Scopus)
65 Downloads (Pure)

Abstract

The production of insulin-producing β cells from human embryonic stem cells (hESCs) in vitro represents a promising strategy for a cell-based therapy for type 1 diabetes mellitus. To explore the cellular heterogeneity and temporal progression of endocrine progenitors and their progeny, we performed single-cell qPCR on more than 500 cells across several stages of in vitro differentiation of hESCs and compared them with human islets. We reveal distinct subpopulations along the endocrine differentiation path and an early lineage bifurcation toward either polyhormonal cells or β-like cells. We uncover several similarities and differences with mouse development and reveal that cells can take multiple paths to the same differentiation state, a principle that could be relevant to other systems. Notably, activation of the key β-cell transcription factor NKX6.1 can be initiated before or after endocrine commitment. The single-cell temporal resolution we provide can be used to improve the production of functional β cells. In this article, Honoré, Grapin-Botton, and colleagues use single-cell expression profiling to show a differentiation sequence from hESCs to pancreatic endocrine cells and early divergence of paths to different endocrine subtypes. Two paths lead to β-cell differentiation where NKX6.1 can be initiated before or after endocrine commitment.

Original languageEnglish
JournalStem Cell Reports
Volume9
Issue number4
Pages (from-to)1246-1261
Number of pages16
ISSN2213-6711
DOIs
Publication statusPublished - 2017

Keywords

  • differentiation
  • endocrine
  • hormone
  • lineage
  • NEUROG3
  • pancreas
  • pluripotent stem cells
  • progenitor

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