AI Article Synopsis
- Tissue engineering commonly utilizes growth factors for cellular differentiation, but issues like their short lifespan, high doses, and costs have led researchers to explore alternatives such as growth factor mimics.
- This study investigates the use of insulin as a biochemical factor for enhancing tendon healing and the differentiation of mesenchymal stem cells (MSCs) on a specially designed scaffold.
- Optimized scaffolds made from a 75:25 ratio of polycaprolactone and cellulose acetate provided effective insulin delivery and promoted the expression of tendon markers in MSCs, indicating potential for tendon regeneration applications.
Article Abstract
Use of growth factors as biochemical molecules to elicit cellular differentiation is a common strategy in tissue engineering. However, limitations associated with growth factors, such as short half-life, high effective physiological doses, and high costs, have prompted the search for growth factor alternatives, such as growth factor mimics and other proteins. This work explores the use of insulin protein as a biochemical factor to aid in tendon healing and differentiation of cells on a biomimetic electrospun micro-nanostructured scaffold. Dose response studies were conducted using human mesenchymal stem cells (MSCs) in basal media supplemented with varied insulin concentrations. A dose of 100-ng/mL insulin showed increased expression of tendon markers. Synthetic-natural blends of various ratios of polycaprolactone (PCL) and cellulose acetate (CA) were used to fabricate micro-nanofibers to balance physicochemical properties of the scaffolds in terms of mechanical strength, hydrophilicity, and insulin delivery. A 75:25 ratio of PCL:CA was found to be optimal in promoting cellular attachment and insulin immobilization. Insulin insulin deliveryimmobilized fiber matrices also showed increased expression of tendon phenotypic markers by MSCs similar to findings with insulin supplemented media, indicating preservation of insulin bioactivity. Insulin functionalized scaffolds may have potential applications in tendon healing and regeneration.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6448803 | PMC |
| http://dx.doi.org/10.1002/pat.4553 | DOI Listing |
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