Induced pluripotent stem cells (iPSCs) hold great potential for cell therapy and tissue engineering. Neural crest stem cells (NCSCs) are multipotent that are capable of differentiating into mesenchymal lineages. In this study, we investigated whether iPSC-derived NCSCs (iPSC-NCSCs) have potential for tendon repair. Human iPSCNCSCs were suspended in fibrin gel and transplanted into a rat patellar tendon window defect. At 4 weeks posttransplantation, macroscopical observation showed that the repair of iPSC-NCSC-treated tendons was superior to that of non-iPSC-NCSC-treated tendons. Histological and mechanical examinations revealed that iPSCNCSCs treatment significantly enhanced tendon healing as indicated by the improvement in matrix synthesis and mechanical properties. Furthermore, transplanted iPSC-NCSCs produced fetal tendon-related matrix proteins, stem cell recruitment factors, and tenogenic differentiation factors, and accelerated the host endogenous repair process. This study demonstrates a potential strategy of employing iPSC-derived NCSCs for tendon tissue engineering.
The human ACL (anterior cruciate ligament) is susceptible to injury but has poor healing response, whereas an injured MCL (medial collateral ligament) can be repaired relatively well. Since MMPs (matrix metalloproteases) and TIMPs (tissue inhibitor of metalloproteases) are involved in this tissue remodeling process, investigation of different response of MMPs and TIMPs family in ACL and MCL fibroblasts might lead to understanding the differential matrix remodeling process as well as their different healing ability. The first step would be determination of whether these tissue remodeling effectors are present in ligaments. In this study, we designed primers for real-time RT-PCR and determined the expression of MMPs and TIMPs family in ACL and MCL fibroblasts with synovium as a positive control. Semiquantitative RT-PCR revealed that multiple MMPs and TIMPs expressed in human ACL and MCL fibroblasts except MMP-8, 10, 12, 13, 15, 16, 20, and 26. MMP-7 was present in MCL but not in ACL fibroblast. Quantitative real-time RT-PCR showed that mRNA levels of MMP-1, 2, 14, 17, 23A, and 23B and TIMP-4 are significantly higher in MCL than in ACL fibroblasts. However, MMP-3 is higher in ACL than in MCL fibroblasts. We conclude that numerous MMPs and TIMPs family members that are differentially expressed in ACL and MCL might be involved in the differential matrix remodeling process as well as the differential healing ability of ACL and MCL.
Background: There is currently no effective treatment for vascular dementia (VaD). Scalp electroacupuncture (EA) has served clinically as an alternative treatment for VaD, but its mechanism is still unclear. In this study, we investigated the effect of EA at the Baihui (GV 20) and Shenting (GV 24) acupoints on spatial learning and memory ability, and the expression level of microRNA-81 (miR-81), interleukin-16 (IL-16), and postsynaptic density protein-95 (PSD-95) in the frontal cortex of VaD rats.Methods: Male Sprague-Dawley rats were randomly divided into four groups, sham, VaD, nonacupuncture (non-AP) and EA group. The VaD model was established by permanent bilateral occlusion of the common carotid arteries. Morris Water Maze was used to assess the rats' spatial learning and memory.Immunochemistry (IHC), quantitative reverse transcription polymerase chain reaction (qRT-PCR), and western blot analysis were performed to detect the expression level of miR-81, IL-16, and PSD-95. Finally, luciferase assay was used to determine the effect of miR-81 on IL-16 expression in PC12 cells.
Results:The space exploration experiment of MWM showed the time and distance of the rat's activities around the platform were decreased in the EA group. Compared to the VaD and non-AP group, the number of terminal deoxynucleotidyl transferase-mediated dUDP nick-end labeling (TUNEL)-positive frontal cortical neurons was significantly decreased in EA group. The number of the PSD-95-positive cells and the miR-81 expression level in the frontal cortical in the EA group was dramatically increased in comparison with the other groups. In the PC12 cell validation experiment, IL-16 expression level was reduced under the condition of the miR-81 mimic treatment, while increased in the miR-81 inhibitor group. The PSD-95 protein level was up-regulated in the small interfering (si)RNA-IL16 group compared to the NC-IL16 groups with or without oxygen/glucose deprivation/reperfusion (OGD/R) conditions (P<0.05). However, this was abolished by miR-81 mimic.
Conclusions:In VaD rats, EA may improve spatial learning and memory through miR-81/IL-16/PSD-95 pathway.
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