Stem cell analysis with intraductally treated mammary epithelial cells

PURPOSE: The activity of mammary stem cells (MaSCs) is essential to mammary growth, differentiation and regeneration in cycles of pregnancy, lactation, and involution. The capability to recruit the mammary gland through the cycles is attributed to stem cells. It was shown that the intraductal (i.duc) injection of pegylated liposomal doxorubicin (PLD) to multiparous FVB/N mice was associated with a significantly reduced outgrowth potential of mammary gland cells. We have explored i.duc PLD's effect on stem cell number and function in mouse mammary gland and aldehyde dehydrogenase (ALDH)'s availability as a mouse MaSC marker.METHODS: The total mammary epithelium was purified from 6 to 8-month-old FVB/N control and i.duc PLD-administered mice treated twice and analyzed by flow cytometry and limiting dilution cleared mammary fat pad transplants.RESULTS: There was no significant difference in the proportions of stem cell-enriched population (CD49(fhigh)CD24(med)) between control and i.duc PLD-treated groups. However, we found a significant reduction in the outgrowth potential of CD49(fhigh)CD24(med) and CD49(fhigh)CD24(med)ALDH(+) cells from i.duc PLD-treated mammary glands. We discovered that adding ALDH to CD49(fhigh)CD24(med) had the possibility of better marker selection for MaSC of mice.CONCLUSION: We present i.duc administration of PLD to reduce MaSC function, but not the number; and ALDH activity may add further selection of MaSCs to CD49f CD24 in mouse mammary glands. Screening of chemotherapeutic drugs or other natural products by this method of stem cell analysis may provide safe i.duc treatment in breast cancer.

Expressions of CD49f splicing isoforms in different cell lines / 基础医学与临床

Objective To compare the expression of CD 49f splicing isoforms in different human stem cells and colon cancer cell lines , and construct lentiviral vectors overexpressing specific isoform .Methods The expression of CD49f isoforms in different cells was detected by RT-PCR and real-time PCR.The lentiviral vectors overexpressing CD49f isoforms were constructed by molecular cloning method .The overexpression of CD49f in colon cancer cell line HT29 was confirmed by FCM, Western blot and real-time PCR, the invasive ability was examined by transwell assay.Results CD49f splicing isoform B was highly expressed in H 9 human embryonic stem cell line , while iso-form A expressed in epithelial cells .Both isoform A and B were expressed in mesenchymal cells .CD49f isoforms A and B were also expressed in colorectal cancer cell lines , while HT29 and HCT116 showed higher expression of iso-form A than isoform B , HCT8 and LoVo showed higher expression of isoform B than isoform A .Overexpression of CD49f isoform B greatly increased the invasive ability of HT 29 cells, while isoform A showed no effect .Conclusions The expressions of CD49f splicing isoforms A and B in different types of cells are significantly different , which sug-gests that CD49f isoforms play different biological functions in cells .

Pluripotent lineage of CD133 stem cells isolated from human skin samples.

Skin stem cells are very important in cosmetics, pharmacological and regenerative medicine and burn cases. Foreskin samples surgically removed after circumcision from boys below 7 years were collected and primary epidermal cells were prepared by enzymatic and mechanical tituration method. Selecting CD133 (prominin-1) multipotent stem cell marker, enriched stem cells were analyzed by MACS using CD133 antibodies conjugated with magnetic beads. CD133 positive and negative cells with specific skin stem cells markers like - CD34 (Universal stem cells marker), CD29 (integrin beta-1) and CD49f (integrin alpha-6) immunophenotypes were screened and sorted in flowcytometer. Further the expression of four embryonic genes or transcription factors of pluripotent stem cells were analyzed for pluripotent character of sorted cells. It was found that skin stem cell markers associated with CD133 cells, differentially expressed CD34, CD29 and CD49f immunophenotyes on both positive and negative CD133 cells in FACS analysis. The embryonic stem cell markers (induced pluripotent stem cell markers) like Oct4, SOX2, Notch-2 and K19 genes were expressed in CD133 positive epidermal cells. It is therefore evident that foreskin derived epidermal stem cells showed pluripotent or multipotent nature. This finding opens up avenues for new uses of these stem cells for direct cell seeding in wound healing, surgical suturing and drug screening.