Transorganogenesis and transdifferentiation in C. elegans are dependent on differentiated cell identity

Misty R. Riddle, Erik A. Spickard, Angela Jevince, Ken C.Q. Nguyen, David H. Hall, Pradeep M. Joshi, Joel H. Rothman

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

The differentiated cell identities and structure of fully formed organs are generally stable after their development. In contrast, we report here that development of the C. elegans proximal somatic gonad (hermaphrodite uterus and spermathecae, and male vas deferens) can be redirected into intestine-like organs by brief expression of the ELT-7 GATA transcription factor. This process converts one developing organ into another and can hence be considered “transorganogenesis.” We show that, following pulsed ELT-7 expression, cells of the uterus activate and maintain intestine-specific gene expression and are transformed at the ultrastructural level to form an epithelial tube resembling the normal intestine formed during embryogenesis. Ubiquitous ELT-7 expression activates intestinal markers in many different cell types but only cells in the somatic gonad and pharynx appear to become fully reprogrammed. We found that ectopic expression of other endoderm-promoting transcription factors, but not muscle- or ectoderm- promoting transcription factors, redirects the fate of these organs, suggesting that pharyngeal and somatic gonad cells are specifically competent to adopt intestine identity. Although the intestine, pharynx, and somatic gonad are derived from distant cell lineages, they all express the PHA-4/FoxA transcription factor. While we found that post-embryonic PHA-4 is not necessary for pharynx or uterus reprogramming and PHA-4 is not sufficient in combination with ELT-7 to induce reprogramming in other cells types, knock down of PHA-4 during embryogenesis, which abolishes normal pharynx differentiation, prevents pharyngeal precursors from being reprogrammed into intestine. These results suggest that differentiated cell identity determines susceptibility to transdifferentiation and highlight the importance of cellular context in controlling competency for reprogramming.

Original languageEnglish (US)
Pages (from-to)136-147
Number of pages12
JournalDevelopmental Biology
Volume420
Issue number1
DOIs
StatePublished - Dec 1 2016

Keywords

  • C. elegans
  • GATA transcription factor
  • PHA-4/FoxA transcription factor
  • Reprogramming
  • Transdifferentiation
  • Transorganogenesis

ASJC Scopus subject areas

  • Molecular Biology
  • Developmental Biology
  • Cell Biology

Fingerprint

Dive into the research topics of 'Transorganogenesis and transdifferentiation in C. elegans are dependent on differentiated cell identity'. Together they form a unique fingerprint.

Cite this