Amniotic Fluid-Derived Stem Cells Demonstrated Cardiogenic Potential in Indirect Co-culture with Human Cardiac Cells

Amniotic fluid-derived stem cells (AFSC) have been shown to be broadly multipotent and non-tumorogenic. Previous studies of direct mixing of AFSC and neonatal rat ventricle myocytes indicated evidence of AFSC cardiogenesis. In this study, we examined human AFSC cardiogenic potential in indirect co-culture with human cardiac cells in conditions that eliminated the possibility of cell fusion. Human AFSC in contact with human cardiac cells showed expression of cardiac troponin T (cTnT) in immunohistochemistry, and no evidence of cell fusion were found through fluorescent in situ hybridization. When indirectly co-cultured with cardiac cells, human AFSC in contact with cardiac cells across a thin porous membrane showed a statistically significant increase in cTnT expression compared to non-contact conditions but lacked upregulation of calcium modulating proteins and did not have functional or morphological characteristics of mature cardiomyocytes. This suggests that contact is a necessary but not sufficient condition for AFSC cardiac differentiation in co-culture with cardiac cells

Characterization of Dermal Fibroblasts as a Cell Source for Pediatric Tissue Engineered Heart Valves

There is continued debate regarding the appropriate cell type to replace valvular interstitial cells (VICs) in tissue engineered heart valves (TEHVs), particularly for pediatric patients. In this work, neonatal human dermal fibroblasts (nhDFFs) were compared to human pediatric VICs (hpVICs), based on their phenotypic and gene expression characteristics when cultured on collagen type I, fibronectin, fibrin, and tissue culture polystyrene (TCP) substrates. Similar confluency was achieved over the culture period on collagen and fibronectin between both cell types, although nhDFFs tended to reach lower confluence on collagen than on any other substrate. Morphologically, hpVICs tended to spread and form multiple extensions, while nhDFFs remained homogenously spindle-shaped on all substrates. PCR results indicated that fibroblasts did not differ significantly from VICs in gene expression when cultured on fibrin, whereas on collagen type I and fibronectin they showed increased α-SMA, xylosyltransferase I, and collagen type I expression (p < 0.05). However, protein expression of these targets, analyzed by immunocytochemistry and Western blotting, was not significantly different between cell types. These results suggest that nhDFFs express similar matrix production and remodeling genes as hpVICs, and the choice of substrate for TEHV construction can affect the growth and expression profile of nhDFFs as compared to native hpVICs

Assays for qualification and quality stratification of clinical biospecimens used in research: A technical report from the ISBER Biospecimen Science Working Group

This technical report presents quality control (QC) assays that can be performed in order to qualify clinical biospecimens that have been biobanked for use in research. Some QC assays are specific to a disease area. Some QC assays are specific to a particular downstream analytical platform. When such a qualification is not possible, QC assays are presented that can be performed to stratify clinical biospecimens according to their biomolecular quality