Spatially correlated phenotyping reveals K5-positive luminal progenitor cells and p63-K5/14-positive stem cell-like cells in human breast epithelium.
Werner BoeckerLaura van HornGöran StenmanChristine StürkenUdo SchumacherThomas LoeningLukas LiesenfeldEberhard KorschingDoreen GläserKatharina TiemannIgor BuchwalowPublished in: Laboratory investigation; a journal of technical methods and pathology (2018)
Understanding the mechanisms regulating human mammary epithelium requires knowledge of the cellular constituents of this tissue. Different and partially contradictory definitions and concepts describing the cellular hierarchy of mammary epithelium have been proposed, including our studies of keratins K5 and/or K14 as markers of progenitor cells. Furthermore, we and others have suggested that the p53 homolog p63 is a marker of human breast epithelial stem cells. In this investigation, we expand our previous studies by testing whether immunohistochemical staining with monospecific anti-keratin antibodies in combination with an antibody against the stem cell marker p63 might help refine the different morphologic phenotypes in normal breast epithelium. We used in situ multilabel staining for p63, different keratins, the myoepithelial marker smooth muscle actin (SMA), the estrogen receptor (ER), and Ki67 to dissect and quantify the cellular components of 16 normal pre- and postmenopausal human breast epithelial tissue samples at the single-cell level. Importantly, we confirm the existence of K5+ only cells and suggest that they, in contrast to the current view, are key luminal precursor cells from which K8/18+ progeny cells evolve. These cells are further modified by the expression of ER and Ki67. We have also identified a population of p63+K5+ cells that are only found in nipple ducts. Based on our findings, we propose a new concept of the cellular hierarchy of human breast epithelium, including K5 luminal lineage progenitors throughout the ductal-lobular axis and p63+K5+ progenitors confined to the nipple ducts.
Keyphrases
- stem cells
- endothelial cells
- induced apoptosis
- estrogen receptor
- induced pluripotent stem cells
- single cell
- cell cycle arrest
- smooth muscle
- pluripotent stem cells
- healthcare
- magnetic resonance
- oxidative stress
- endoplasmic reticulum stress
- signaling pathway
- squamous cell carcinoma
- high throughput
- lymph node
- mesenchymal stem cells
- rectal cancer
- cell proliferation
- bone marrow
- breast cancer cells
- binding protein