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Lineage analysis reveals an endodermal contribution to the vertebrate pituitary

Péter Fábián, Kuo-Chang Tseng, Joanna Smeeton, Joseph J. Lancman, P. Duc Si Dong, Robert Cerny, J. Gage Crump

2020Science51 citationsDOIOpen Access PDF

Abstract

Vertebrate sensory organs arise from epithelial thickenings called placodes. Along with neural crest cells, cranial placodes are considered ectodermal novelties that drove evolution of the vertebrate head. The anterior-most placode generates the endocrine lobe [adenohypophysis (ADH)] of the pituitary, a master gland controlling growth, metabolism, and reproduction. In addition to known ectodermal contributions, we use lineage tracing and time-lapse imaging in zebrafish to identify an endodermal contribution to the ADH. Single-cell RNA sequencing of the adult pituitary reveals similar competency of endodermal and ectodermal epithelia to generate all endocrine cell types. Further, endoderm can generate a rudimentary ADH-like structure in the near absence of ectodermal contributions. The fish condition supports the vertebrate pituitary arising through interactions of an ancestral endoderm-derived proto-pituitary with newly evolved placodal ectoderm.

Topics & Concepts

EctodermVertebrateBiologyEndodermPituitary glandZebrafishLineage (genetic)Pars intermediaPosterior pituitaryAnatomyEmbryoHormoneCell biologyCellular differentiationEndocrinologyEmbryogenesisGeneGeneticsZebrafish Biomedical Research ApplicationsDevelopmental Biology and Gene RegulationCongenital heart defects research