Jin Chongrui, Cao Nailong, Ni Jianshu, Zhao Weixin, Gu Baojun, Zhu Weidong
Department of Urology, Shanghai Jiao Tong University Affiliated Sixth People's Hospital, Shanghai, China.
Department of Urology, Shanghai Eastern Urological Reconstruction and Repair Institute, Shanghai, China.
Front Pharmacol. 2020 Jun 4;11:795. doi: 10.3389/fphar.2020.00795. eCollection 2020.
Bladder tissue engineering is an excellent alternative to conventional gastrointestinal bladder enlargement in the treatment of various acquired and congenital bladder abnormalities. We constructed a nanosphere-small MyoD activating RNA-bladder acellular matrix graft scaffold NP(saMyoD)/BAMG inoculated with adipose-derived stem cells (ADSC) to explore its effect on smooth muscle regeneration and bladder repair function in a rat augmentation model.
We performed many biotechniques, such as reverse transcriptase-polymerase chain reaction (RT-PCR), Western blot, MTT assay, HE staining, masson staining, and immunohistochemistry in our study. Lipid nanospheres were transfected into rat ADSCs after encapsulate saRNA-MyoD as an introduction vector. Lipid nanospheres encapsulated with saRNA-MyoD were transfected into rat ADSCs. The functional transfected rat ADSCs were called ADSC-NP(saMyoD). Then, Rat models were divided into four groups: sham group, ADSC-BAMG group, ADSC-NP(saMyoD)/BAMG group, and ADSC-NP(saMyoD)/SF(VEGF)/BAMG group. Finally, we compared the bladder function of different models by detecting the bladder histology, bladder capacity, smooth muscle function in each group.
RT-PCR and Western blot results showed that ADSCs transfected with NP(saMyoD) could induce high expression of α-SMA, SM22α, and Desmin. At the same time, MTT analysis showed that NP(saMyoD) did not affect the activity of ADSC cells, suggesting little toxicity. HE staining and immunohistochemistry indicated that the rat bladder repair effect (smooth muscle function, bladder capacities) was better in the ADSC-NP(saMyoD)/BAMG group, ADSC-NP(saMyoD)/SF(VEGF)/BAMG group than in the control group.
Taken together, our results demonstrate that the NP(saMyoD)/SF(VEGF)/BAMG scaffold seeded with ADSCs could promote bladder morphological regeneration and improved bladder urinary function. This strategy of ADSC-NP(saMyoD)/SF(VEGF)/BAMG may has a potential to repair bladder defects in the future.
膀胱组织工程是治疗各种获得性和先天性膀胱异常的传统胃肠膀胱扩大术的极佳替代方案。我们构建了一种接种脂肪干细胞(ADSC)的纳米球 - 小MyoD激活RNA - 膀胱脱细胞基质移植物支架NP(saMyoD)/BAMG,以在大鼠膀胱扩大模型中探索其对平滑肌再生和膀胱修复功能的影响。
我们在研究中进行了许多生物技术实验,如逆转录 - 聚合酶链反应(RT-PCR)、蛋白质免疫印迹法、MTT 法、苏木精 - 伊红染色、Masson 染色和免疫组织化学。脂质纳米球在包裹 saRNA - MyoD 作为导入载体后转染到大鼠 ADSC 中。将包裹有 saRNA - MyoD 的脂质纳米球转染到大鼠 ADSC 中。功能转染的大鼠 ADSC 称为 ADSC - NP(saMyoD)。然后,将大鼠模型分为四组:假手术组、ADSC - BAMG 组、ADSC - NP(saMyoD)/BAMG 组和 ADSC - NP(saMyoD)/SF(VEGF)/BAMG 组。最后,我们通过检测每组的膀胱组织学、膀胱容量、平滑肌功能来比较不同模型的膀胱功能。
RT-PCR 和蛋白质免疫印迹结果表明,用 NP(saMyoD)转染的 ADSC 可诱导α - SMA、SM22α和结蛋白的高表达。同时,MTT 分析表明 NP(saMyoD)不影响 ADSC 细胞的活性,表明毒性很小。苏木精 - 伊红染色和免疫组织化学表明,ADSC - NP(saMyoD)/BAMG 组、ADSC - NP(saMyoD)/SF(VEGF)/BAMG 组的大鼠膀胱修复效果(平滑肌功能、膀胱容量)优于对照组。
综上所述,我们的结果表明,接种 ADSC 的 NP(saMyoD)/SF(VEGF)/BAMG 支架可促进膀胱形态再生并改善膀胱排尿功能。ADSC - NP(saMyoD)/SF(VEGF)/BAMG 这种策略未来可能具有修复膀胱缺陷的潜力。
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