AbstractsBiology & Animal Science

Adult stem cells are a small population present within several tissues of an individual, possessing two unique properties: one, the ability to differentiate to give rise to all the cell types of the tissue, and second, the ability to self-renew and make more of their own kind. Owing to these two properties, stem cells underlie the process of organogenesis during development and tissue homeostasis in adult life. In the past decade a small sub-population of cells having phenotypic and functional properties similar to normal stem cells have been identified within several tumors. Only this sub-population of cancer cells seems to have the ability to both initiate and maintain tumors. These cells have been termed as ‘cancer stem cells’ (CSCs) owing to their striking similarities with the normal stem cells of the tissue. It is therefore of fundamental importance to understand normal stem cell biology in order to understand tumorigenesis. The rarity of normal stem cells within adult tissues, the absence of specific cell surface markers to identify and isolate them, and the absence of suitable culture conditions to maintain them has marred our understanding of stem cell behaviour. Recently, growth of mammary cells in serum free suspension cultures resulted in the generation of floating spheroids termed “mammospheres” that were shown to be enriched in stem/progenitor cell population. We established the mammosphere system in our laboratory using mastectomy samples obtained from the Kidwai Memorial Institute of Oncology. In order to understand the composition of the spheres, the stem cell characteristics within them, and the long term self renewal potential of human mammary epithelial stem cells, a detailed phenotypic and functional characterization of the mammospheres was carried out. Phenotypic Characterization: Confocal microscopy of propidium iodide stained mammospheres demonstrated that these spheres are cellular and not hollow structures. Immunostaining revealed that primary mammospheres expressed the epithelial markers like E Cadherin, ESA, CK14, CK18 and CK 19, but failed to express nestin or CD34, indicating their epithelial origin, devoid of contamination from haematopoeitic or neural stem cells. The sizes of mammospheres ranged from 40 to 110 μm, while that of the cells within them ranged from 9-15 μm. Although the sizes of the largest and smallest spheres through subsequent passages remained consistent, the proportion of small spheres increased in later passages. These results indicate the difference in the sphere initiating cells. While a large sphere might be generated by a stem cell, a smaller sphere might be originating from a progenitor. Thus, heterogeneity exists within mammospheres, with respect to size and composition. Unique cell surface markers coupled with flow cytometry serves as useful tools to isolate stem cells. However, no specific marker profile has been reported for normal human breast stem cells. In several tissues, like blood, brain etc, markers of normal stem cells have been successfully used to…