Collagen II enrichment through scAAV6-RNAi-mediated inhibition of matrix-metalloproteinases 3 and 13 in degenerative nucleus-pulposus cells degenerative disc disease and biological treatment strategies.

IF 2.8 4区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Experimental Biology and Medicine Pub Date : 2024-09-02 DOI:10.3389/ebm.2024.10048
Demissew Shenegelegn Mern,Claudius Thomé
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Abstract

Intervertebral disc (IVD) degeneration damaging the extracellular matrix (ECM) of IVDs is the main cause of spine-associated disorders. Degenerative disc disease (DDD) is a multifaceted disorder, where environmental factors, inflammatory cytokines and catabolic enzymes act together. DDD starts typically due to imbalance between ECM biosynthesis and degradation within IVDs, especially through unbalanced degradation of aggrecan and collagen II in nucleus pulposus (NP). Current treatment approaches are primarily based on conservative or surgical therapies, which are insufficient for biological regeneration. The disintegrins and metalloproteinases with thrombospondin motifs (ADAMTSs) and matrix metalloproteinases (MMPs) are the key proteolytic enzymes for degradation of aggrecan and collagens. Previously, high expression levels of ADAMTS4, ADAMTS5, MMP3 and MMP13, which are accompanied with low levels of aggrecan and collagen II, were demonstrated in degenerative human NP cells. Moreover, self-complementary adeno-associated virus type 6 (scAAV6) mediated inhibitions of ADAMTS4 and ADAMTS5 by RNA-interference (RNAi) could specifically enhance aggrecan level. Thus, MMPs are apparently the main degrading enzymes of collagen II in NP. Furthermore, scAAV6-mediated inhibitions of MMP3 and MMP13 have not yet been investigated. Therefore, we attempted to enhance the level of collagen II in degenerative NP cells by scAAV6-RNAi-mediated inhibitions of MMP3 and MMP13. MRI was used to determine preoperative grading of IVD degeneration in patients. After isolation and culturing of NP cells, cells were transduced with scAAV6-shRNAs targeting MMP3 or MMP13; and analysed by fluorescence microscopy, FACS, MTT assay, RT-qPCR, ELISA and western blotting. scAAV6-shRNRs have no impact on cell viability and proliferation, despite high transduction efficiencies (98.6%) and transduction units (1383 TU/Cell). Combined knockdown of MMP3 (92.8%) and MMP13 (90.9%) resulted in highest enhancement of collagen II (143.2%), whereby treatment effects were significant over 56 days (p < 0.001). Conclusively, scAAV6-RNAi-mediated inhibitions of MMP3 and MMP13 help to progress less immunogenic and enduring biological treatments in DDD.
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通过scAAV6-RNAi介导的基质金属蛋白酶3和13抑制退化性髓核细胞中胶原蛋白II的富集退化性椎间盘疾病及生物治疗策略。
损伤椎间盘细胞外基质(ECM)的椎间盘(IVD)退变是脊柱相关疾病的主要原因。椎间盘退行性病变(DDD)是一种多方面的疾病,环境因素、炎症细胞因子和分解酶共同起作用。椎间盘退行性病变的起因通常是椎间盘内 ECM 生物合成和降解失衡,尤其是髓核中 aggrecan 和胶原蛋白 II 的降解失衡。目前的治疗方法主要基于保守疗法或手术疗法,这些疗法不足以实现生物再生。具有血栓软骨素基序的崩解素和金属蛋白酶(ADAMTSs)以及基质金属蛋白酶(MMPs)是降解凝集素和胶原的关键蛋白水解酶。此前,在退行性人类 NP 细胞中,ADAMTS4、ADAMTS5、MMP3 和 MMP13 的表达水平较高,而阿格雷康和胶原蛋白 II 的表达水平较低。此外,自补体腺相关病毒 6 型(scAAV6)介导的 RNA 干扰(RNAi)抑制 ADAMTS4 和 ADAMTS5 可特异性提高凝集素水平。因此,MMPs 显然是 NP 中胶原蛋白 II 的主要降解酶。此外,scAAV6 介导的对 MMP3 和 MMP13 的抑制作用尚未得到研究。因此,我们尝试通过 scAAV6-RNAi- 介导的 MMP3 和 MMP13 抑制来提高变性 NP 细胞中胶原蛋白 II 的水平。核磁共振成像用于确定患者 IVD 退化的术前分级。在分离和培养 NP 细胞后,用靶向 MMP3 或 MMP13 的 scAAV6-shRNA 转导细胞,并通过荧光显微镜、FACS、MTT 检测、RT-qPCR、ELISA 和 Western 印迹法进行分析。联合敲除 MMP3(92.8%)和 MMP13(90.9%)可最大程度地增强胶原蛋白 II(143.2%),治疗效果在 56 天内显著(p < 0.001)。总之,scAAV6-RNAi 介导的 MMP3 和 MMP13 抑制有助于对 DDD 进行免疫原性较低且持久的生物治疗。
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来源期刊
Experimental Biology and Medicine
Experimental Biology and Medicine 医学-医学:研究与实验
CiteScore
6.00
自引率
0.00%
发文量
157
审稿时长
1 months
期刊介绍: Experimental Biology and Medicine (EBM) is a global, peer-reviewed journal dedicated to the publication of multidisciplinary and interdisciplinary research in the biomedical sciences. EBM provides both research and review articles as well as meeting symposia and brief communications. Articles in EBM represent cutting edge research at the overlapping junctions of the biological, physical and engineering sciences that impact upon the health and welfare of the world''s population. Topics covered in EBM include: Anatomy/Pathology; Biochemistry and Molecular Biology; Bioimaging; Biomedical Engineering; Bionanoscience; Cell and Developmental Biology; Endocrinology and Nutrition; Environmental Health/Biomarkers/Precision Medicine; Genomics, Proteomics, and Bioinformatics; Immunology/Microbiology/Virology; Mechanisms of Aging; Neuroscience; Pharmacology and Toxicology; Physiology; Stem Cell Biology; Structural Biology; Systems Biology and Microphysiological Systems; and Translational Research.
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