Electrospun silk nanofibers promoted the in vitro expansion potential of CD 133+cells derived from umbilical cord blood

Stem cells from umbilical cord blood (UCB) are able to proliferate and differentiate into various somatic cell types. Thereby, they are considered as one of the attractive stem cell sources in tissue engineering and regenerative medicine. However, the limited number of hematopoietic CD 133+ stem cells in UCB restricted the clinical application of such stem cells. This study was aimed to expand CD 133+ stem cells derived from UCB on a 3D silk scaffold. UCB133+ stem cells were extracted using Magnetic cell sorting (MACS) and characterized by flow cytometry. Isolated cells were seeded on a fabricated electrospun silk scaffold and cultured for 7 days. The real-time PCR, cell counting, colony-forming assay, and MTT assay were performed to evaluate the expansion and homing of stem cells. The results showed a higher expression of CXCR4 gene, the number of cultured stem cells, and colony-forming units in the 3D silk scaffold group after 7 days when compared to the tissue culture plate. Moreover, higher viability and proliferation of stem cells were seen in cells cultured on silk scaffold. It seems electrospun silk scaffold could be used as a suitable substrate for UCB CD 133+ stem cell expansion.

Automated summary

This study aimed to expand CD 133+ stem cells derived from UCB on a 3D silk scaffold, showing that the electrospun silk scaffold could be used as a suitable substrate for UCB CD 133+ stem cell expansion.