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Cell culture media and associated supplements are vital for the proper growth and development of cells for in vitro cell culture. Fetal bovine serum and human platelet lysate are common additives to cell culture media to promote proliferation. Bovine platelet lysate is a novel supplement obtained from bovine plasma that has the potential to become a cheaper, more ethical alternative to fetal bovine serum and human platelet lysate. In this study, we investigated the proliferative effects of DMEM cell culture media supplemented with either fetal bovine serum, human platelet lysate or bovine platelet lysate for triple-negative breast cancer (MDA-MB-231) cells. For each differentially supplemented media, proliferation, cell diameter, and wound healing capabilities were assessed. We show that cells grown in bovine platelet lysate had a lower proliferation rate than cells grown in either fetal bovine serum or human platelet lysate but had larger cell diameters and comparable wound healing rates.
Cell culture media and associated supplements are vital for the proper growth and development of cells for in vitro cell culture. Fetal bovine serum and human platelet lysate are common additives to cell culture media to promote proliferation. Bovine platelet lysate is a novel supplement obtained from bovine plasma that has the potential to become a cheaper, more ethical alternative to fetal bovine serum and human platelet lysate. In this study, we investigated the proliferative effects of DMEM cell culture media supplemented with either fetal bovine serum, human platelet lysate or bovine platelet lysate for triple-negative breast cancer (MDA-MB-231) cells. For each differentially supplemented media, proliferation, cell diameter, and wound healing capabilities were assessed. We show that cells grown in bovine platelet lysate had a lower proliferation rate than cells grown in either fetal bovine serum or human platelet lysate but had larger cell diameters and comparable wound healing rates.
Mesenchymal stromal stem cells (MSCs) possess a remarkable potential for numerous clinical applications due to their unique properties including self-renewal, immunomodulation, paracrine actions and multilineage differentiation. However, the translation of MSC-based Advanced Therapy Medicinal Products (ATMPs) into the clinic has frequently met with inconsistent outcomes. One of the suspected reasons for this issue is the inherent and extensive variability that exists among such ATMPs, which makes the interpretation of their clinical efficacy difficult to assess, as well as to compare the results of various studies. This variability stems from numerous reasons including differences in tissue sources, donor attributes, variances in manufacturing protocols, as well as modes of administration. MSCs can be isolated from various tissues including bone marrow, umbilical cord, adipose tissue and others, each with its unique phenotypic and functional characteristics. While MSCs from different sources do share common features, they also exhibit distinct gene expression profiles and functional properites. Donor-specific factors such as age, sex, body mass index, and underlying health conditions can influence MSC phenotype, morphology, differentiation potential and function. Moreover, variations in preparation of MSC products introduces additional heterogeneity as a result of cell culture media composition, presence or absence of added growth factors, use of different serum supplements and culturing techniques. Once MSC products are formulated, storage protocols play a pivotal role in its efficacy. Factors that affect cell viability include cell concentration, delivery solution and importantly, post-thawing protocols where applicable. Ensuing, differences in administration protocols can critically affect the distribution and functionallity of administered cells. As MSC-based therapies continue to advance through numerous clinical trials, implication of strategies to reduce product heterogeneity is imperative. Central to addressing these challenges is the need for precise prediction of clinical responses, which require well-defined MSC populations and harmonized assessment of their specific functions. By addressing these issues by meaningful approaches, such as, e.g., MSC pooling, the field can overcome barriers to advance towards more consistent and effective MSC-based therapies.
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