Phenotypic and functional characterization of human mammary stem/progenitor cells in long term culture

Cancer stem cells exhibit close resemblance to normal stem cells in phenotype as well as function. Hence, studying normal stem cell behavior is important in understanding cancer pathogenesis. It has recently been shown that human breast stem cells can be enriched in suspension cultures as mammospher...

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Bibliographic Details
Published in:PloS one 2009-04, Vol.4 (4), p.e5329-e5329
Main Authors: Dey, Devaveena, Saxena, Meera, Paranjape, Anurag N, Krishnan, Visalakshi, Giraddi, Rajashekhar, Kumar, M Vijaya, Mukherjee, Geetashree, Rangarajan, Annapoorni
Format: Article
Language:English
Subjects:
Aging
Animals
Breast cancer
Cancer
CD24 Antigen - metabolism
Cell culture
Cell Culture Techniques
Cell Proliferation
Cell self-renewal
Cell suspensions
Cells (biology)
Culture media
Developmental Biology/Aging
Developmental Biology/Stem Cells
Female
Galactosidase
Genetics
HeLa Cells
Humans
Immunohistochemistry
Mammary Glands, Human - cytology
Mammary Glands, Human - metabolism
Medical research
Mice
Mice, Inbred C57BL
Microscopy, Confocal
Models, Biological
Neoplastic Stem Cells - metabolism
Oncology
Oncology/Breast Cancer
Organoids
Pathogenesis
Phenotypes
Population
Progenitor cells
Science
Senescence
Stem cells
Stem Cells - cytology
Stem Cells - metabolism
Telomerase
β-Galactosidase
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Summary:Cancer stem cells exhibit close resemblance to normal stem cells in phenotype as well as function. Hence, studying normal stem cell behavior is important in understanding cancer pathogenesis. It has recently been shown that human breast stem cells can be enriched in suspension cultures as mammospheres. However, little is known about the behavior of these cells in long-term cultures. Since extensive self-renewal potential is the hallmark of stem cells, we undertook a detailed phenotypic and functional characterization of human mammospheres over long-term passages. Single cell suspensions derived from human breast 'organoids' were seeded in ultra low attachment plates in serum free media. Resulting primary mammospheres after a week (termed T1 mammospheres) were subjected to passaging every 7th day leading to the generation of T2, T3, and T4 mammospheres. We show that primary mammospheres contain a distinct side-population (SP) that displays a CD24(low)/CD44(low) phenotype, but fails to generate mammospheres. Instead, the mammosphere-initiating potential rests within the CD44(high)/CD24(low) cells, in keeping with the phenotype of breast cancer-initiating cells. In serial sphere formation assays we find that even though primary (T1) mammospheres show telomerase activity and fourth passage T4 spheres contain label-retaining cells, they fail to initiate new mammospheres beyond T5. With increasing passages, mammospheres showed an increase in smaller sized spheres, reduction in proliferation potential and sphere forming efficiency, and increased differentiation towards the myoepithelial lineage. Significantly, staining for senescence-associated beta-galactosidase activity revealed a dramatic increase in the number of senescent cells with passage, which might in part explain the inability to continuously generate mammospheres in culture. Thus, the self-renewal potential of human breast stem cells is exhausted within five in vitro passages of mammospheres, suggesting the need for further improvisation in culture conditions for their long-term maintenance.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0005329