用脱细胞睾丸支架三维培养小鼠精原干细胞

Nasrin Majidi Gharenaz, M. Movahedin, Z. Mazaheri
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引用次数: 22

摘要

目的生物支架在再生医学中的应用日益广泛。这种支架可以改善细胞附着、迁移、增殖和分化。在目前的研究中,去细胞化的小鼠整个睾丸被用作培养精原干细胞的天然三维支架。材料与方法采用十二烷基硫酸钠(SDS)和Triton X-100对成年小鼠全睾丸进行脱细胞处理。通过组织学和DNA定量测定脱细胞效率。马松三色染色、阿利新蓝染色和免疫组化(IHC)验证细胞外基质(ECM)蛋白。这些支架是通过注射小鼠精原干细胞到尿道睾丸中再细胞化的。然后,将它们培养8周。采用组织学、实时聚合酶链反应(PCR)和免疫组化(IHC)对再细胞化支架进行评价。结果红木精-伊红(H&E)染色显示SDS和Triton X-100成功去除细胞。DNA含量分析显示98%的DNA都是从睾丸中提取的。这证实了我们的脱细胞方案是有效的。马松三色染色和阿利新蓝染色分别显示支架中保留了糖胺聚糖(GAGs)和胶原蛋白。免疫组化分析证实了纤维连接蛋白、IV型胶原和层粘连蛋白的保存。MTT试验表明支架具有细胞相容性。再细胞化支架的组织学评价表明,注射细胞在精小管基底膜上沉淀。实时荧光定量PCR分析显示,培养8周后,Plzf基因的表达量基本保持不变,而Sycp3基因的表达量显著增加(P=0.003),表明精原干细胞开始减数分裂。IHC证实,精小管中存在plzf阳性细胞(精原干细胞)和sycp3阳性细胞(精母细胞)。结论在去细胞化睾丸支架内注射精原干细胞后,可增殖分化为精母细胞。
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Three-Dimensional Culture of Mouse Spermatogonial Stem Cells Using A Decellularised Testicular Scaffold
Objective Applications of biological scaffolds for regenerative medicine are increasing. Such scaffolds improve cell attachment, migration, proliferation and differentiation. In the current study decellularised mouse whole testis was used as a natural 3 dimensional (3D) scaffold for culturing spermatogonial stem cells. Materials and Methods In this experimental study, adult mouse whole testes were decellularised using sodium dodecyl sulfate (SDS) and Triton X-100. The efficiency of decellularisation was determined by histology and DNA quantification. Masson’s trichrome staining, alcian blue staining, and immunohistochemistry (IHC) were done for validation of extracellular matrix (ECM) proteins. These scaffolds were recellularised through injection of mouse spermatogonial stem cells in to rete testis. Then, they were cultured for eight weeks. Recellularised scaffolds were assessed by histology, real-time polymerase chain reaction (PCR) and IHC. Results Haematoxylin-eosin (H&E) staining showed that the cells were successfully removed by SDS and Triton X-100. DNA content analysis indicated that 98% of the DNA was removed from the testis. This confirmed that our decellularisation protocol was efficient. Masson’s trichrome and alcian blue staining respectively showed that glycosaminoglycans (GAGs) and collagen are preserved in the scaffolds. IHC analysis confirmed the preservation of fibronectin, collagen IV, and laminin. MTT assay indicated that the scaffolds were cell-compatible. Histological evaluation of recellularised scaffolds showed that injected cells were settled on the basement membrane of the seminiferous tubule. Analyses of gene expression using real-time PCR indicated that expression of the Plzf gene was unchanged over the time while expression of Sycp3 gene was increased significantly (P=0.003) after eight weeks in culture, suggesting that the spermatogonial stem cells started meiosis. IHC confirmed that PLZF-positive cells (spermatogonial stem cells) and SYCP3-positive cells (spermatocytes) were present in seminiferous tubules. Conclusion Spermatogonial stem cells could proliferate and differentiated in to spermatocytes after being injected in the decellularised testicular scaffolds.
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