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Oviduct epithelial cells constitute two developmentally distinct lineages that are spatially separated along the distal-proximal axis

Matthew J. Ford, Keerthana Harwalkar, Alain Pacis, Helen Maunsell, Yu Chang Wang, Dunarel Badescu, Katie Teng, Nobuko Yamanaka, Maxime Bouchard, Jiannis Ragoussis, Yojiro Yamanaka

2021Cell Reports65 citationsDOIOpen Access PDF

Abstract

Owing to technical advances in single-cell biology, the appreciation of cellular heterogeneity has increased, which has aided our understanding of organ function, homeostasis, and disease progression. The oviduct (also known as the fallopian tube) is the distalmost portion of the female reproductive tract. It is essential for reproduction and the proposed origin of high-grade serous ovarian carcinoma (HGSOC). In mammals, the oviduct is morphologically segmented along the ovary-uterus axis into four evolutionally conserved regions. It is unclear, however, if there is a diversification of epithelial cell characteristics between these regions. In this study, we identify transcriptionally distinct populations of secretory and multiciliated cells restricted to the distal and proximal regions of the oviduct. We demonstrate that distal and proximal populations are distinct lineages specified early in Müllerian duct development and are maintained separately. These results aid our understanding of epithelial development, homeostasis, and initiation of disease from the oviduct.

Topics & Concepts

OviductBiologySerous fluidFallopian tubeMüllerian mimicryCell biologyUterusOvaryEpitheliumHomeostasisAnatomyEndocrinologyGeneticsEcologyBiochemistryReproductive Biology and FertilityOvarian cancer diagnosis and treatmentRenal and related cancers
Oviduct epithelial cells constitute two developmentally distinct lineages that are spatially separated along the distal-proximal axis | Litcius