小鼠精原生殖细胞在含有人血清白蛋白和磷酸钙纳米颗粒的新型支架上的生存能力。

Mona Yadegar, Seyed Hossein Hekmatimoghaddam, Saeide Nezami Saridar, Ali Jebali
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引用次数: 0

摘要

背景:在精子发生过程中,精原细胞分化为单倍体配子。研究表明,在体外条件下可以发生精子。体外精子发生可能为治疗男性不育症提供了一个开放的窗口。目的:研究含人血清白蛋白(HSA)/三磷酸钙纳米颗粒(TCP NPs)的新型支架对小鼠精原细胞系(SCL)的影响。材料与方法:首先,以硝酸钙和磷酸二铵为原料,在pH为13的条件下合成TCP NPs。然后,将不同浓度的TCP NPs分别加入500 mg/mL HSA中,在100(o)C的水中孵育30 min。下一步,将每个支架切割(2×2mm),放入微孔板无菌孔中,在37(o)C下用小鼠SCL孵育1、2、3天。孵育后,通过3-(4,5-二甲基噻唑-2-基)- 2,5 -二苯基溴化四唑(MTT)试验、乳酸脱氢酶(LDH)试验、活体染色和细胞计数等试验评估支架的细胞毒性。另一方面,测定了支架中TCP NPs和HSA的释放。结果:显微镜观察,所有支架的空腔尺寸在200-500µm附近,TCP NPs的尺寸在50-100 nm附近。所有毒性试验均表明,支架中TCP浓度的增加对小鼠SCL没有影响。这意味着细胞存活率、LDH释放率、活细胞率和细胞数量分别为85%、105%、90%和110%。但随着孵育时间的延长,LDH的释放量和细胞数分别增加115%和115%。随着孵育时间的延长,细胞活力和活细胞均略有下降。增加TCP浓度和孵育时间后,未见TCP NPs和HSA的释放。结论:HSA/ TCP NPs支架中TCP浓度的升高不会引起细胞毒性。另一方面,孵育时间的增加导致小鼠SCL细胞死亡增加。本研究发现,TCP NPs和HSA不能从支架中释放。未来,小鼠SCL在HSA/TCP NPs支架上的增殖和分化必须在更长的孵育时间内进行检查。
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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The viability of mouse spermatogonial germ cells on a novel scaffold, containing human serum albumin and calcium phosphate nanoparticles.

Background: In spermatogenesis, spermatogonial cells differentiate to the haploid gametes. It has been shown that spermatogenesis can be done at in vitro condition. In vitro spermatogenesis may provide an open window to treat male infertility.

Objective: The aim of this study was to evaluate the effects of a novel scaffold containing human serum albumin (HSA)/tri calcium phosphate nanoparticles (TCP NPs) on the mouse spermatogonial cell line (SCL).

Materials and methods: First, TCP NPs were synthesized by reaction of calcium nitrate and diammonium phosphate at pH 13. Then, serial concentrations of TCP NPs were separately added to 500 mg/mL HSA, and incubated in the 100(o)C water for 30 min. In the next step, each scaffold was cut (2×2mm), placed into sterile well of microplate, and then incubated for 1, 2, and 3 days at 37(o)C with mouse SCL. After incubation, the cytotoxicity of the scaffolds was evaluated by different tests including 3-(4,5-dimethylthiazol-2-yl)-2, 5-diphenyl-tetrazolium bromide (MTT) assay, lactate dehydrogenase (LDH) assay, vital staining, and cell counting. On the other hand, the release of TCP NPs and HSA from the scaffolds was measured.

Results: Based on microscopic observation, the size of cavities for all scaffolds was near 200-500 µm, and the size of TCP NPs was near 50-100 nm. All toxicity tests showed that the increase of TCP concentration in the scaffold did not affect mouse SCL. It means that the percentage of cell viability, LDH release, vital cells, and cell quantity was 85%, 105%, 90%, and 110%, respectively. But, the increase of incubation time led to increase of LDH release (up to 115%) and cell count (up to 115%). Also, little decrease of cell viability and vital cells was seen when incubation time was increased. Here, no release of TCP NPs and HSA was seen after increase of TCP concentration and incubation time.

Conclusion: It can be concluded that the increase of TCP concentration in HSA/ TCP NPs scaffold does not lead to cytotoxicity. On the other hand, the increase of incubation time leads to increase of mouse SCL cell death. In this study, it was found that TCP NPs and HSA could not release from the scaffolds. In future, both proliferation and differentiation of mouse SCL on HSA/TCP NPs scaffold must be checked over more wide incubation times.

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