Tissue Eng Regen Med.  2020 Feb;17(1):25-31. 10.1007/s13770-019-00224-9.

A Platform for Studying of the Three-Dimensional Migration of Hematopoietic Stem/Progenitor Cells

Affiliations
  • 1Department of Biomedical Engineering, Inje University, 197 Inje-ro, Gimhae-si, Gyeongsangnam-do, 50834, Republic of Korea
  • 2Cardiovascular and Metabolic Disease Center, Institute of Aged Life Redesign, UHARC, Inje University, 197 Inje-ro, Gimhae-si, Gyeongsangnam-do, 50834, Republic of Korea

Abstract

Background
Hematopoietic stem/progenitor cells (HSPCs) have the property to return to the bone marrow, which is believed to be critical in situations such as HSPC transplantation. This property plays an important role in the stemness, viability, and proliferation of HSPCs, also. However, most in vitro models so far have not sufficiently simulated the complicate environment. Here, we proposed a three-dimensional experimental platform for the quantitative study of the migration of HSPCs.
Methods
After encapsulating osteoblasts (OBs) in alginate beads, we quantified the migration of HSPCs into the beads due to the physical environment using digital image processing. Intermittent hydrostatic pressure (IHP) was used to mimic the mechanical environment of human bone marrow without using any biochemical factors. The expression of stromal cell-derived factor 1 (SDF-1) under IHP was measured.
Results
The results showed that the presence of OBs in the hydrogel scaffold initiate the movement of HSPCs. Furthermore, the IHP promotes the migration of HSPCs, even without the addition of any biochemical factors, and the results were confirmed by measuring SDF-1 levels.
Conclusion
We believe this suggested three-dimensional experimental platform consisting of a simulated in vivo physical environment and encapsulated OBs should contribute to in vitro migration studies used to investigate the effects of other external factors.

Keyword

Hematopoietic stem/progenitor cell; Migration; Intermittent hydrostatic pressure; Stromal cell-derived factor 1
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