AI Article Synopsis
- The study analyzes the mammary epithelium using single-cell RNA profiling across four developmental stages in mice, highlighting significant changes in gene expression.
- The research identifies a shift from a homogeneous basal-like gene expression in pre-puberty to distinct lineage-restricted programs during puberty.
- Additionally, it reveals various cell populations, including an early progenitor subset marked by CD55, a luminal transit population, and a rare mixed-lineage cluster, indicating a complex developmental hierarchy within the mammary gland.
Article Abstract
The mammary epithelium comprises two primary cellular lineages, but the degree of heterogeneity within these compartments and their lineage relationships during development remain an open question. Here we report single-cell RNA profiling of mouse mammary epithelial cells spanning four developmental stages in the post-natal gland. Notably, the epithelium undergoes a large-scale shift in gene expression from a relatively homogeneous basal-like program in pre-puberty to distinct lineage-restricted programs in puberty. Interrogation of single-cell transcriptomes reveals different levels of diversity within the luminal and basal compartments, and identifies an early progenitor subset marked by CD55. Moreover, we uncover a luminal transit population and a rare mixed-lineage cluster amongst basal cells in the adult mammary gland. Together these findings point to a developmental hierarchy in which a basal-like gene expression program prevails in the early post-natal gland prior to the specification of distinct lineage signatures, and the presence of cellular intermediates that may serve as transit or lineage-primed cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5696379 | PMC |
| http://dx.doi.org/10.1038/s41467-017-01560-x | DOI Listing |
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