Peng Yizhong, Chen Xuanzuo, Rao Zilong, Wu Wei, Zuo Huiying, Chen Kaibin, Li Kanglu, Lin Hui, Liu Sheng, Xiao Yan, Wang BaiChuan, Quan Daping, Qing Xiangcheng, Bai Ying, Shao Zengwu
Department of Orthopaedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430022, China.
School of Materials Science and Engineering, Sun Yat-sen University, Guangzhou 510127, China.
Acta Biomater. 2023 Oct 15;170:288-302. doi: 10.1016/j.actbio.2023.08.028. Epub 2023 Aug 18.
Chronic low back pain mainly attributed to intervertebral disc (IVD) degeneration. Endogenous damage-associated molecular patterns (DAMPs) in the injured IVD, particularly mitochondria-derived nucleic acid molecules (CpG DNA), play a primary role in the inflammatory responses in macrophages. M1-type macrophages form a chronic inflammatory microenvironment by releasing pro-inflammatory factors and nerve growth factor (NGF) that induce nerve growth into the inner annulus fibrosus, resulting in persistent hyperalgesia. We fabricated an amphiphilic polycarbonate that naturally forms cationic nanoparticles (cNP) in aqueous solutions, with the hydrophobic core loaded with TrkA-IN-1, an antagonist against the NGF receptor (TrkA). The drug delivery nanoparticles were denoted as TI-cNP. TrkA-IN-1 and TI-cNP were added to the decellularized annulus fibrosus matrix (DAF) hydrogel to form hybrid hydrogels, denoted as TI-DAF and TI-cNP-DAF, respectively. As a result, TrkA-IN-1 showed a delayed release profile both in TI-DAF and TI-cNP-DAF. Each mole of cNP could bind approximately 3 mol of CpG DNA to inhibit inflammation. cNP-DAF and TI-cNP-DAF significantly inhibited the M1 phenotype induced by CpG DNA. TI-DAF and TI-cNP-DAF reduced neurite branching and axon length, and inhibited the expression of neurogenic mediators (CGRP and substance P) in the presence of NGF. Besides, TI-cNP-DAF relieved mechanical hyperalgesia, reduced CGRP and substance P expression in the dorsal root ganglion, and downregulated GFAP and c-FOS signaling in the spinal cord in the rat disc herniation model. Summarily, TI-cNP-DAF, a novel composite IVD hydrogel, efficiently mediated the inflammatory environment, inhibited nerve ingrowth and sensitization, and could be clinically applied for treating discogenic pain. STATEMENT OF SIGNIFICANCE: Discogenic lower back pain, related to intervertebral disc degeneration (IDD), imposes a tremendous health and economic burden globally. M1-type macrophages release pro-inflammatory factors and nerve growth factor (NGF) that induce nerve growth into the inner annulus fibrosus, resulting in persistent hyperalgesia and discogenic pain. Reconstructing matrix integrity and modulating the inflammatory microenvironment are promising strategies for preventing the ingrowth and activation of neurites. The TI-cNP-DAF hydrogel recovers tissue integrity, alleviates inflammation, and delivers the TrkA antagonist to inhibit the activity of NGF, thus restraining hyperinnervation and nociceptive input. Due to its simple production process, injectability, and acellular strategy, the hydrogel is operable and holds great potential for treating discogenic lower back pain.
慢性下腰痛主要归因于椎间盘(IVD)退变。受损IVD中的内源性损伤相关分子模式(DAMPs),尤其是线粒体衍生的核酸分子(CpG DNA),在巨噬细胞的炎症反应中起主要作用。M1型巨噬细胞通过释放促炎因子和神经生长因子(NGF)形成慢性炎症微环境,后者诱导神经向内纤维环生长,导致持续性痛觉过敏。我们制备了一种两亲性聚碳酸酯,其在水溶液中自然形成阳离子纳米颗粒(cNP),疏水核心负载有TrkA-IN-1,一种针对NGF受体(TrkA)的拮抗剂。药物递送纳米颗粒被命名为TI-cNP。将TrkA-IN-1和TI-cNP添加到脱细胞纤维环基质(DAF)水凝胶中,分别形成混合水凝胶,命名为TI-DAF和TI-cNP-DAF。结果,TrkA-IN-1在TI-DAF和TI-cNP-DAF中均呈现缓释曲线。每摩尔cNP可结合约3摩尔CpG DNA以抑制炎症。cNP-DAF和TI-cNP-DAF显著抑制CpG DNA诱导的M1表型。TI-DAF和TI-cNP-DAF在存在NGF的情况下减少神经突分支和轴突长度,并抑制神经源性介质(降钙素基因相关肽和P物质)的表达。此外,在大鼠椎间盘突出模型中,TI-cNP-DAF减轻机械性痛觉过敏,降低背根神经节中降钙素基因相关肽和P物质的表达,并下调脊髓中胶质纤维酸性蛋白(GFAP)和c-FOS信号。总之,TI-cNP-DAF,一种新型复合IVD水凝胶,有效介导炎症环境,抑制神经向内生长和致敏,可临床应用于治疗椎间盘源性疼痛。
与椎间盘退变(IDD)相关的椎间盘源性下腰痛在全球造成了巨大的健康和经济负担。M1型巨噬细胞释放促炎因子和神经生长因子(NGF),诱导神经向内纤维环生长,导致持续性痛觉过敏和椎间盘源性疼痛。重建基质完整性和调节炎症微环境是预防神经突向内生长和激活的有前景的策略。TI-cNP-DAF水凝胶恢复组织完整性,减轻炎症,并递送TrkA拮抗剂以抑制NGF的活性,从而抑制神经纤维过度生长和伤害性输入。由于其简单的生产工艺、可注射性和无细胞策略,该水凝胶具有可操作性,在治疗椎间盘源性下腰痛方面具有巨大潜力。
