Background:
Mesenchymal stem cells (MSCs) are highly preferred in clinical therapy for
repair and regeneration of diseased tissues for their multipotent properties. Conventionally, MSCs have
been cultured in media supplemented with animal derived serum, however, it is ideal to expand MSCs
in media containing supplements of human origin for clinical therapy. Currently, a number of human
derived products are being studied as an alternative to animal sources. Amongst these, platelet lysate
(PL) has gained interest in the culture of MSCs without affecting their phenotypic property.
Objective:
In this study, we used various concentration of PL (2.5, 5, 7.5 & 10%) in the growth medium
of MSCs to identify the least concentration of PL that could be an effective alternative to animal
products.
Methods:
MSCs were isolated from Wharton’s Jelly by using explant method and expanded in various
concentration of PL supplemented medium against the standard FBS containing medium. WJ-MSCs
were characterised as per the minimal criteria proposed by International Society for Cell therapy
(ISCT), Proliferation study by BrdU assay, gene expression study by qRT-PCR, sterility test for bacteria,
Mycoplasma by PCR and endotoxin detection by LAL assay.
Results:
Whartons jelly derived MSCs (WJ-MSCs) cultured using standard medium supplemented
with various concentration of PL exhibited enhanced proliferation and differentiation potential, unaltered
immunophenotypic property and genetic stability when compared with the commercial medium
containing 10% FBS.
Conclusion:
The least concentration of PL for an ideal expansion of MSCs was found to be 2.5% and
was comparable to FBS.
Background
Mammosphere formation assay has become a versatile tool to quantify the activity of putative breast cancer stem cells in non-adherent in vitro cultures. However, optimizing the suspension culture system is crucial to establish mammosphere cultures from primary breast tumors.
Methods
This study aimed at determining the self-renewal and sphere-forming potential of breast cancer stem-like cells derived from human primary invasive ductal carcinoma and normal breast tissue samples, and MCF-7 breast cancer cell line using an optimal suspension culture system. Mammosphere-forming efficiency of the mammospheres generated from the tissue samples and cell line were compared. We evaluated the expression of CD44+/CD24−/low and CD49f+/EpCAM−/low phenotypes in the stem-like cells by flow cytometry. CK-18, CK-19, α-SMA, and EpCAM marker expression was assessed using immunohistochemical staining.
Results
Breast epithelial cells isolated from the three samples formed two-dimensional spheroids in suspension cultures. Interestingly, mammospheres formed from patient-derived primary breast tumors were enriched in breast cancer stem-like cells with the phenotype CD44+/CD24−/low and exhibited a relatively more number of large spheres when compared to the normal breast stem cells. MCF-7-derived SCs were more aggressive and resulted in the formation of a significantly higher number of spheroids. The expression of CK-18/CK-19 and α-SMA/EpCAM proteins was confirmed in breast cancer tissues.
Conclusions
Thus, the use of primary tumor specimens and breast cancer cell lines as suitable models for elucidating the breast cancer stem cell activity was validated using mammosphere culture system.
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