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Lineage-specific control of convergent differentiation by a Forkhead repressor

Karolina Mizeracka, Julia M. Rogers, Jonathan D. Rumley, Shai Shaham, Martha L. Bulyk, John I. Murray, Maxwell G. Heiman

2021Development17 citationsDOIOpen Access PDF

Abstract

During convergent differentiation, multiple developmental lineages produce a highly similar or identical cell type. However, few molecular players that drive convergent differentiation are known. Here, we show that the C. elegans Forkhead transcription factor UNC-130 is required in only one of three convergent lineages that produce the same glial cell type. UNC-130 acts transiently as a repressor in progenitors and newly-born terminal cells to allow the proper specification of cells related by lineage rather than by cell type or function. Specification defects correlate with UNC-130:DNA binding, and UNC-130 can be functionally replaced by its human homolog, the neural crest lineage determinant FoxD3. We propose that, in contrast to terminal selectors that activate cell type-specific transcriptional programs in terminally differentiating cells, UNC-130 acts early and specifically in one convergent lineage to produce a cell type that also arises from molecularly distinct progenitors in other lineages.

Topics & Concepts

BiologyLineage (genetic)Neural crestTranscription factorRepressorForkhead Transcription FactorsCellular differentiationCell biologyGeneticsProgenitor cellProgenitorGeneStem cellGenetics, Aging, and Longevity in Model OrganismsPluripotent Stem Cells ResearchFOXO transcription factor regulation
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