去甲亚精胺对成熟生物膜的抗真菌作用及牙髓干细胞血管生成潜力的评估

An Evaluation of Norspermidine on Anti-fungal Effect on Mature Biofilms and Angiogenesis Potential of Dental Pulp Stem Cells.

作者信息

He Yan, Cao Yanfan, Xiang Yangfan, Hu Fengting, Tang Fengyu, Zhang Yanni, Albashari Abdullkhaleg Ali, Xing Zhenjie, Luo Lihua, Sun Yan, Huang Qiang, Ye Qingsong, Zhang Keke

机构信息

Laboratory for Regenerative Medicine, Tianyou Hospital, Wuhan University of Science and Technology, Wuhan, China.

School & Hospital of Stomatology, Wenzhou Medical University, Wenzhou, China.

出版信息

Front Bioeng Biotechnol. 2020 Aug 12;8:948. doi: 10.3389/fbioe.2020.00948. eCollection 2020.

DOI:10.3389/fbioe.2020.00948

PMID:32903416

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7434867/

Abstract

Norspermidine (Nspd) is a kind of polyamine molecule, which is common in eukaryotes and prokaryotes. It has been reported as a potential anti-biofilms agent of bacteria, but its anti-fungal effect remains unclear. () is a common opportunistic pathogen in oral cavity of human beings. biofilm is often seen in dental caries. In this work, we aimed to study the effect of Nspd on mature biofilms and to investigate how Nspd would influence human dental pulp stem cells (DPSCs). Our biofilm assays indicated that 111.7 and 55.9 mM Nspd dispersed 48 h mature fungal biofilms and showed significant fungicidal effect. 27.9 and 14.0 mM Nspd showed moderate fungicidal effect. Live/dead staining echoed the fungicidal effect. 111.7-14.0 mM Nspd showed a dose- inhibitory effect on mature fungal biofilm, where 14.0 mM Nspd reduced the metabolic activity by half compared with blank control. Moreover, we demonstrated that 111.7-27.9 mM Nspd restrained the production of hyphae form of via SEM. Low dose Nspd (27.9 and 14.0 mM) could significantly reduce virulence related gene expression biofilms. MTT assay displayed a dose effect relation between 2.5-0.08 mM Nspd and DPSCs viability, where 0.63 mM Nspd reduced the viable level of DPSCs to 75% compared with blank control. Live/dead staining of DPSCs did not show distinctive difference between 0.63 mM Nspd and blank control. Vascular differentiation assay showed capillary-like structure of inducted DPSCs culture with and without 0.63 mM Nspd suggesting that it did not significantly affect angiogenic differentiation of DPSCs. Nspd can penetrate remaining dentin at low level, which is confirmed by an caries model. In conclusion, our study indicated high dosage Nspd (111.7 and 55.9 mM) could effectively disrupt and kill mature fungal biofilms. Low dosage (27.9 and 14.0 mM) showed mild anti-fungal effect on mature biofilms. Human DPSCs were tolerate to 0.08-0.63 mM Nspd, where viability was over 75%. 0.63 mM Nspd did not affect the proliferation and angiogenetic differentiation of DPSCs.

摘要

亚精胺（Nspd）是一种多胺分子，在真核生物和原核生物中都很常见。它已被报道为一种潜在的细菌抗生物膜剂，但其抗真菌作用仍不清楚。（）是人类口腔中常见的机会致病菌。生物膜在龋齿中很常见。在这项工作中，我们旨在研究Nspd对成熟生物膜的影响，并研究Nspd如何影响人牙髓干细胞（DPSCs）。我们的生物膜分析表明，111.7 mM和55.9 mM的Nspd可分散48小时成熟的真菌生物膜，并显示出显著的杀菌作用。27.9 mM和14.0 mM的Nspd显示出中等杀菌作用。活/死染色与杀菌作用一致。111.7 - 14.0 mM的Nspd对成熟真菌生物膜呈现剂量抑制作用，其中14.0 mM的Nspd与空白对照相比使代谢活性降低了一半。此外，通过扫描电子显微镜我们证明111.7 - 27.9 mM的Nspd抑制了（）菌丝体形式的产生。低剂量的Nspd（27.9 mM和14.0 mM）可显著降低生物膜中与毒力相关的基因表达。MTT分析显示2.5 - 0.08 mM的Nspd与DPSCs活力之间存在剂量效应关系，其中0.63 mM的Nspd与空白对照相比使DPSCs的活力水平降低至75%。0.63 mM的Nspd与空白对照相比，DPSCs的活/死染色未显示出明显差异。血管分化分析表明，添加和不添加0.63 mM Nspd诱导的DPSCs培养物中均有毛细血管样结构，这表明它对DPSCs的血管生成分化没有显著影响。Nspd可以低水平穿透剩余牙本质，这在一个龋齿模型中得到了证实。总之，我们的研究表明高剂量的Nspd（111.7 mM和55.9 mM）可以有效地破坏和杀死成熟的真菌生物膜。低剂量（27.9 mM和14.0 mM）对成熟生物膜显示出轻微的抗真菌作用。人DPSCs对0.08 - 0.63 mM的Nspd具有耐受性，其活力超过75%。0.63 mM的Nspd不影响DPSCs的增殖和血管生成分化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4369/7434867/1bfc1a7ec023/fbioe-08-00948-g001.jpg

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去甲亚精胺对成熟生物膜的抗真菌作用及牙髓干细胞血管生成潜力的评估

An Evaluation of Norspermidine on Anti-fungal Effect on Mature Biofilms and Angiogenesis Potential of Dental Pulp Stem Cells.

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