Ive for mammary tissues. Luminal cells show massive hyper-proliferation within weeks of the last dose of DMBA, they generate a robust ductal carcinoma in situ, and tumors develop in almost all BALB/c mice within 200 days (other strains are less susceptible [16,20]). The gavage protocol is fractionated, and the fat-soluble DMBA is delivered via VLDL particles to concentrate in the post-pubertal mammary fat pad. Interestingly, we found that the gavage protocol did not reduce the stem cell activity by the same degree (approx. 20 ; data not shown). A previous report concluded that mammary progenitors are radiation-resistant [33]. Thus, after irradiation of mammary glands (2 Gy), the fraction of SP cells increased, and the mammosphere forming potential increased. Given the development of more specific markers of mammary luminal progenitors, it would be useful to revisit this conclusion (for example CD61, a2 integrin or c-kit can partly get Licochalcone-A distinguish dividing and non-dividing luminal cells [34,35,36]). The data presented here relates to basal stem cells, and does not address the effect of DMBA exposure on luminal mammary progenitor cells. Clonogenicity of mammary epithelial cells in culture is highly species- and assay-dependent, and difficult to extrapolate between mouse, rat and human. However, a previous study of rat mammary epithelial cell populations suggested that clonogens were only radiosensitive in 842-07-9 chemical information pre-pubertal development (a result that would correspond to the 1313429 one reported here) [37], and also showed that the response of clonogenic cells was different for mutagens that did not induce double strand breaks [38]. Our results show that both basal and luminal cell types sense genotoxin exposure similarly (assayed by cH2AX focus assembly), and both activate proximal checkpoint proteins in common (p53 and Chk2). Diehn et al [23] noted that basal mammary epithelial cells in normal glands showed lower levels of reactive oxygen species (ROS) than luminal mammary epithelial cells, and found that cell death was highly contingent on culture media conditions (as we did, Fig. S3). This was also extended to basal and luminal cell equivalents in tumors, and data were presented to support the idea that higher endogenous levels of ROS (either basal or induced) conferred a higher susceptibility to death by ionizing radiation. However, our study suggests that the cell death outcome depends on the provision of relevant survival/mitogenic factors. Thus, in the presence of ectopic Wnt ligands, the sensitivity of basal cells to genotoxins was clear, and the physiology observed in vitro matched the outcome in vivo. Another study of human tissues has shown that there are basal and luminal lineage-specific responses to DNA damage. After sorting human mammary epithelial cells into basal and luminal cells (using an antibody to CD10), Huper and Marks (2007) 15857111 tested for cell lineage specific responses [22]. They also observed the activation of proximal checkpoint proteins (assaying cH2AX, p53 and Brca1), and found that resolution of Brca1-foci was quicker for basal cells, the transactivation targets for p53 were cell type specific (for example, 14-3-3s was basal-specific) and basal cells reentered the cell cycle after a transient arrest (whereas luminal cells durably arrested for more than 80 hours). Neither cell type showed significant levels of cell death.Genotoxins Inhibit Wnt-Dependent Mammary Stem CellWe could not detect significant rates of cell death induced b.Ive for mammary tissues. Luminal cells show massive hyper-proliferation within weeks of the last dose of DMBA, they generate a robust ductal carcinoma in situ, and tumors develop in almost all BALB/c mice within 200 days (other strains are less susceptible [16,20]). The gavage protocol is fractionated, and the fat-soluble DMBA is delivered via VLDL particles to concentrate in the post-pubertal mammary fat pad. Interestingly, we found that the gavage protocol did not reduce the stem cell activity by the same degree (approx. 20 ; data not shown). A previous report concluded that mammary progenitors are radiation-resistant [33]. Thus, after irradiation of mammary glands (2 Gy), the fraction of SP cells increased, and the mammosphere forming potential increased. Given the development of more specific markers of mammary luminal progenitors, it would be useful to revisit this conclusion (for example CD61, a2 integrin or c-kit can partly distinguish dividing and non-dividing luminal cells [34,35,36]). The data presented here relates to basal stem cells, and does not address the effect of DMBA exposure on luminal mammary progenitor cells. Clonogenicity of mammary epithelial cells in culture is highly species- and assay-dependent, and difficult to extrapolate between mouse, rat and human. However, a previous study of rat mammary epithelial cell populations suggested that clonogens were only radiosensitive in pre-pubertal development (a result that would correspond to the 1313429 one reported here) [37], and also showed that the response of clonogenic cells was different for mutagens that did not induce double strand breaks [38]. Our results show that both basal and luminal cell types sense genotoxin exposure similarly (assayed by cH2AX focus assembly), and both activate proximal checkpoint proteins in common (p53 and Chk2). Diehn et al [23] noted that basal mammary epithelial cells in normal glands showed lower levels of reactive oxygen species (ROS) than luminal mammary epithelial cells, and found that cell death was highly contingent on culture media conditions (as we did, Fig. S3). This was also extended to basal and luminal cell equivalents in tumors, and data were presented to support the idea that higher endogenous levels of ROS (either basal or induced) conferred a higher susceptibility to death by ionizing radiation. However, our study suggests that the cell death outcome depends on the provision of relevant survival/mitogenic factors. Thus, in the presence of ectopic Wnt ligands, the sensitivity of basal cells to genotoxins was clear, and the physiology observed in vitro matched the outcome in vivo. Another study of human tissues has shown that there are basal and luminal lineage-specific responses to DNA damage. After sorting human mammary epithelial cells into basal and luminal cells (using an antibody to CD10), Huper and Marks (2007) 15857111 tested for cell lineage specific responses [22]. They also observed the activation of proximal checkpoint proteins (assaying cH2AX, p53 and Brca1), and found that resolution of Brca1-foci was quicker for basal cells, the transactivation targets for p53 were cell type specific (for example, 14-3-3s was basal-specific) and basal cells reentered the cell cycle after a transient arrest (whereas luminal cells durably arrested for more than 80 hours). Neither cell type showed significant levels of cell death.Genotoxins Inhibit Wnt-Dependent Mammary Stem CellWe could not detect significant rates of cell death induced b.