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Wnt signaling preserves progenitor cell multipotency during adipose tissue development

Zinger Yang, Shannon Joyce, Tiffany DeSouza, Javier Solivan-Rivera, Anand Desai, Pantos Skritakis, Qin Yang, Rachel Ziegler, Denise Zhong, Tammy Nguyen, Ormond A. MacDougald, Silvia Corvera

2023Nature Metabolism65 citationsDOIOpen Access PDF

Abstract

Mesenchymal stem/progenitor cells are essential for tissue development and repair throughout life, but how they are maintained under chronic differentiation pressure is not known. Using single-cell transcriptomics of human progenitor cells we find that adipose differentiation stimuli elicit two cellular trajectories: one toward mature adipocytes and another toward a pool of non-differentiated cells that maintain progenitor characteristics. These cells are induced by transient Wnt pathway activation and express numerous extracellular matrix genes and are therefore named structural Wnt-regulated adipose tissue cells. We find that the genetic signature of structural Wnt-regulated adipose tissue cells is present in adult human adipose tissue and adipose tissue developed from human progenitor cells in mice. Our results suggest a mechanism whereby adipose differentiation occurs concurrently with the maintenance of a mesenchymal progenitor cell pool, ensuring tissue development, repair and appropriate metabolic control over the lifetime.

Topics & Concepts

Adipose tissueProgenitor cellCell biologyWnt signaling pathwayMesenchymal stem cellBiologyStem cellCellular differentiationProgenitorExtracellular matrixSignal transductionEndocrinologyGeneticsGeneAdipose Tissue and MetabolismMesenchymal stem cell researchRNA Research and Splicing
Wnt signaling preserves progenitor cell multipotency during adipose tissue development | Litcius