AI Article Synopsis
- Several dyes like Oil Red O are commonly used for detecting how mesenchymal cells turn into adipocytes, but they lack specificity for gene transcription changes.
- We've created a gene-specific assay that uses immuno-labeling for FABP4, which allows us to visualize and measure how mesenchymal cells differentiate into fat cells.
- This new FABP4 assay is simple and can be used in high-throughput settings, making it useful for clinical trials and drug screening related to obesity and pre-diabetes, while also helping to understand cell differences in treatments.
Article Abstract
Several dyes are currently available for use in detecting differentiation of mesenchymal cells into adipocytes. Dyes, such as Oil Red O, are cheap, easy to use and widely utilized by laboratories analyzing the adipogenic potential of mesenchymal cells. However, they are not specific to changes in gene transcription. We have developed a gene-specific differentiation assay to analyze when a mesenchymal cell has switched its fate to an adipogenic lineage. Immuno-labelling against fatty acid binding protein-4 (FABP4), a lineage-specific marker of adipogenic differentiation, enabled visualization and quantification of differentiated cells. The ability to quantify adipogenic differentiation potential of mesenchymal cells in a 96 well microplate format has promising implications for a number of applications. Hundreds of clinical trials involve the use of adult mesenchymal stromal cells and it is currently difficult to correlate therapeutic outcomes within and especially between such clinical trials. This simple high-throughput FABP4 assay provides a quantitative assay for assessing the differentiation potential of patient-derived cells and is a robust tool for comparing different isolation and expansion methods. This is particularly important given the increasing recognition of the heterogeneity of the cells being administered to patients in mesenchymal cell products. The assay also has potential utility in high throughput drug screening, particularly in obesity and pre-diabetes research.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5933300 | PMC |
| http://dx.doi.org/10.3791/57153 | DOI Listing |
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