A novel spherical GelMA-HAMA hydrogel encapsulating APET×2 polypeptide and CFIm25-targeting sgRNA for immune microenvironment modulation and nucleus pulposus regeneration in intervertebral discs

IF 10.6 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of Nanobiotechnology Pub Date : 2024-09-12 DOI:10.1186/s12951-024-02783-z

Xiao-Jun Yu, Yuan-Ting Zhao, Haimiti Abudouaini, Peng Zou, Tian-Qi Li, Xiao-Fan Bai, Shan-Xi Wang, Jian-Bin Guan, Meng-wei Li, Xiao-dong Wang, Ying-guang Wang, Ding-Jun Hao

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Abstract

Single-cell transcriptomics and high-throughput transcriptomics were used to screen factors significantly correlated with intervertebral disc degeneration (IDD). Expression changes of CFIm25 were determined via RT-qPCR and Western blot. NP cells were isolated from mouse intervertebral discs and induced to degrade with TNF-α and IL-1β. CFIm25 was knocked out using CRISPR-Cas9, and CFIm25 knockout and overexpressing nucleus pulposus (NP) cell lines were generated through lentiviral transfection. Proteoglycan expression, protein expression, inflammatory factor expression, cell viability, proliferation, migration, gene expression, and protein expression were analyzed using various assays (alcian blue staining, immunofluorescence, ELISA, CCK-8, EDU labeling, transwell migration, scratch assay, RT-qPCR, Western blot). The GelMA-HAMA hydrogel loaded with APET×2 polypeptide and sgRNA was designed, and its effects on NP regeneration were assessed through in vitro and mouse model experiments. The progression of IDD in mice was evaluated using X-ray, H&E staining, and Safranin O-Fast Green staining. Immunohistochemistry was performed to determine protein expression in NP tissue. Proteomic analysis combined with in vitro and in vivo experiments was conducted to elucidate the mechanisms of hydrogel action. CFIm25 was upregulated in IDD NP tissue and significantly correlated with disease progression. Inhibition of CFIm25 improved NP cell degeneration, enhanced cell proliferation, and migration. The hydrogel effectively knocked down CFIm25 expression, improved NP cell degeneration, promoted cell proliferation and migration, and mitigated IDD progression in a mouse model. The hydrogel inhibited inflammatory factor expression (IL-6, iNOS, IL-1β, TNF-α) by targeting the p38/NF-κB signaling pathway, increased collagen COLII and proteoglycan Aggrecan expression, and suppressed NP degeneration-related factors (COX-2, MMP-3). The study highlighted the crucial role of CFIm25 in IDD and introduced a promising therapeutic strategy using a porous spherical GelMA-HAMA hydrogel loaded with APET×2 polypeptide and sgRNA. This innovative approach offers new possibilities for treating degenerated intervertebral discs.

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包裹 APET×2 多肽和 CFIm25 靶向 sgRNA 的新型球形 GelMA-HAMA 水凝胶，用于调节免疫微环境和椎间盘髓核再生

利用单细胞转录组学和高通量转录组学筛选与椎间盘变性（IDD）显著相关的因素。通过 RT-qPCR 和 Western 印迹测定了 CFIm25 的表达变化。从小鼠椎间盘中分离出NP细胞，用TNF-α和IL-1β诱导其退化。使用CRISPR-Cas9敲除CFIm25，并通过慢病毒转染产生CFIm25敲除和过表达的髓核细胞系。通过各种检测方法（藻蓝染色、免疫荧光、ELISA、CCK-8、EDU 标记、经孔迁移、划痕试验、RT-qPCR、Western 印迹）对蛋白多糖表达、蛋白质表达、炎症因子表达、细胞活力、增殖、迁移、基因表达和蛋白质表达进行了分析。设计了负载 APET×2 多肽和 sgRNA 的 GelMA-HAMA 水凝胶，并通过体外实验和小鼠模型实验评估了其对 NP 再生的影响。使用 X 光、H&E 染色和 Safranin O-Fast Green 染色评估了小鼠 IDD 的进展情况。免疫组织化学测定了 NP 组织中的蛋白质表达。蛋白质组分析与体外和体内实验相结合，阐明了水凝胶的作用机制。CFIm25 在 IDD NP 组织中上调，并与疾病进展显著相关。抑制 CFIm25 可改善 NP 细胞变性，增强细胞增殖和迁移。在小鼠模型中，水凝胶能有效抑制 CFIm25 的表达，改善 NP 细胞变性，促进细胞增殖和迁移，缓解 IDD 的进展。水凝胶通过靶向 p38/NF-κB 信号通路抑制了炎症因子（IL-6、iNOS、IL-1β、TNF-α）的表达，增加了胶原 COLII 和蛋白多糖 Aggrecan 的表达，抑制了 NP 退化相关因子（COX-2、MMP-3）。该研究强调了 CFIm25 在 IDD 中的关键作用，并介绍了一种使用多孔球形 GelMA-HAMA 水凝胶加载 APET×2 多肽和 sgRNA 的有前景的治疗策略。这种创新方法为治疗退化的椎间盘提供了新的可能性。

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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来源期刊

Journal of Nanobiotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

13.90

自引率

4.90%

发文量

493

审稿时长

16 weeks

期刊介绍： Journal of Nanobiotechnology is an open access peer-reviewed journal communicating scientific and technological advances in the fields of medicine and biology, with an emphasis in their interface with nanoscale sciences. The journal provides biomedical scientists and the international biotechnology business community with the latest developments in the growing field of Nanobiotechnology.