EphrinB2 in dental pulp stem cells promotes endothelial cells forming capillary-like cords in a 3D bioprinted hydrogel construct.
Wen Wang, Junjun Li, Yingying Zhou, Tianshui Ren, Yang Yang, Mengying Li, Hongyu Tian, Penglai Wang, Changyong Yuan
Abstract
Open AccessOBJECTIVES: We fabricated a pre-vascularized bioprinted hydrogel construct via coculture of human umbilical vein endothelial cells (HUVECs) and dental pulp stem cells (DPSCs) to investigate the role of ephrinB2 in 3D capillary-like cord self-assemble. MATERIALS AND METHODS: After bioprinting gelatin methacrylate (GelMA) hydrogels, we performed a morphology observation of the inside capillary-like cords, quantitative analysis of branch points and cord length, and examination of pericyte markers in DPSCs. Next, we assessed the influence of DPSCs: HUVECs ratio and degree of functionalization (DoF) of GelMA on the cord formation. To investigate the role of ephrinB2, we used either EphB4/ephrinB2 inhibitor peptide, or knocked down or upregulated ephrinB2 in DPSCs, and evaluated their effects on these cords' generation. Finally, bioprinted hydrogels were subcutaneously transplanted into mice to assess in vitro vascularization. RESULTS: Abundant capillary-like cords containing lumen were found in bioprinted hydrogels. DPSCs wrapped outside the cords and expressed pericyte markers. A 1:3 DPSCs: HUVECs ratio and a 30% DoF of GelMA led to significant increase in branch points and cord length by over 2-fold and 3-fold, respectively. Adding EphB4/ephrinB2 inhibitor peptide or knockdown of ephrinB2 in DPSCs impaired capillary-like cord generation, whereas overexpression of ephrinB2 in DPSCs promoted cord formation. In in vivo experiments, a significant over 3-fold increase in vessel number was observed in hydrogels when ephrinB2 was upregulated in DPSCs compared with wild-type DPSCs. CONCLUSIONS: Overexpression of ephrinB2 in DPSCs promoted in vitro capillary-like cord formation and in vivo vascularization in a 3D bioprinted hydrogel.