解冻和培养的滑膜间充质干细胞与猪半月板黏附的比较及细胞表面微刺的相关性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-12-12 DOI:10.1186/s12860-022-00456-z
Shunichi Fujii, Kentaro Endo, Nobutake Ozeki, Yuriko Sakamaki, Yuji Kohno, Mitsuru Mizuno, Hisako Katano, Kunikazu Tsuji, Hideyuki Koga, Ichiro Sekiya
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引用次数: 0

摘要

背景:将培养的滑膜间充质干细胞(MSC)悬液放置在修复的半月板上10分钟,加速半月板修复。在半月板上放置间充质干细胞悬浮液后,从间充质干细胞表面突出的微尖刺捕获半月板纤维并促进间充质干细胞粘附。解冻冷冻保存的间充质干细胞是半月板修复的首选材料,因为它们可以移植而无需额外的培养。然而,解冻后冷冻保存的MSCs的粘附能力尚不清楚。在这里,我们比较了培养和解冻的MSCs在放置后立即和10分钟粘附在猪半月板上的比例。我们还研究了黏附与滑膜间充质干细胞上微刺的数量之间的关系。方法:从4例骨关节炎供体膝关节制备滑膜间充质干细胞。“培养的MSCs”是解冻的MSCs,重新培养并悬浮在PBS中进行移植。同样制备的悬浮液冷冻保存,再次解冻,悬浮在PBS中,无需进一步培养即可作为“解冻的MSCs”使用。在SEM图像中具有至少三个微峰的MSCs被定义为微峰阳性MSCs。猪半月板表面研磨,切成圆柱形,用MSC悬浮液处理。未贴壁细胞立即计数,放置10分钟后再次计数,计算贴壁比例。结果:解冻后的骨髓间充质干细胞微刺阳性比例(53±3%)显著高于培养后的骨髓间充质干细胞悬液(28±5%)。在放置于半月板上后,解冻的MSC与半月板的粘附性明显优于培养的MSC悬液,但在10分钟后没有发现差异。细胞悬液中带有微刺突的间充质干细胞比例与放置后立即粘附的间充质干细胞比例显著相关,但在放置后10分钟不相关。在冷冻保存培养基中加入FBS,微刺阳性细胞的比例呈浓度依赖性增加。结论:解冻的MSCs在放置后立即粘附优于培养的MSCs,但10分钟后两种MSC制剂的粘附性相似。植入后,微刺突的出现与滑膜间充质干细胞与半月板更好的粘附有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Comparison of adhesion of thawed and cultured synovial mesenchymal stem cells to the porcine meniscus and the relevance of cell surface microspikes.

Background: Placement of a cultured synovial mesenchymal stem cell (MSC) suspension on a repaired meniscus for 10 min accelerated meniscus repair. Upon placement of the MSC suspension on the meniscus, microspikes projecting from the MSC surface trap meniscus fibers and promote MSC adhesion. Thawed cryopreserved MSCs are preferred materials for meniscus repair, as they can be transplanted without additional culture. However, the adhesion ability of thawed cryopreserved MSCs is unknown. Here, we compared the proportion of cultured versus thawed MSCs adhering to a porcine meniscus immediately and 10 min after placement. We also investigated the relationship between adhesion and the number of microspikes on the synovial MSCs.

Methods: Synovial MSCs were prepared from the knees of four donors with osteoarthritis. The "cultured MSCs" were thawed MSCs that were re-cultured and suspended in PBS for transplantation. A similarly prepared suspension was cryopreserved, thawed again, suspended in PBS, and used without further culture as the "thawed MSCs." MSCs with at least three microspikes in SEM images were defined as microspike-positive MSCs. Porcine meniscus surfaces were abraded, cut into a cylindrical shape, and treated with MSC suspension. Non-adherent cells were counted immediately and again 10 min after placement to calculate the adhesion proportion.

Results: The proportion of microspike-positive MSCs was significantly higher in thawed (53 ± 3%) than in cultured (28 ± 5%) MSC suspensions. MSC adhesion to the meniscus was significantly better for the thawed than for the cultured MSC suspensions immediately after placement on the meniscus, but no differences were detected after 10 min. The proportion of MSCs with microspikes in the cell suspension was significantly correlated with the proportion of adhered MSCs immediately after the placement, but not 10 min later. Addition of FBS to the cryopreservation medium promoted a concentration-dependent increase in the proportion of microspike-positive cells.

Conclusions: Thawed MSCs adhered better than cultured MSCs immediately after placement, but adhesion was similar for both MSC preparations after 10 min. Immediately after placement, the presence of microspikes was associated with better adhesion of synovial MSCs to the meniscus.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
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2.10%
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464
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