神经生长因子足以在未处理的小鼠膝关节中引发多种与骨关节炎相关的病理特征。
NERVE GROWTH FACTOR IS SUFFICIENT TO CAUSE MULTIPLE OSTEOARTHRITIS-RELEVANT PATHOLOGICAL FEATURES IN NAÏVE MURINE KNEE JOINTS.
作者信息
Obeidat Alia M, Newton Michael D, Li Jun, Hu Baofeng, Ishihara Shingo, Lammlin Lindsey, Junginger Lucas M, Farrell Easton C, Ko Frank C, Miller Richard J, Scanzello Carla R, Maerz Tristan, Miller Rachel E, Malfait Anne-Marie
机构信息
Department of Internal Medicine, Division of Rheumatology, Rush University Medical Center, Chicago, IL.
Chicago Center on Musculoskeletal Pain (C-COMP), Chicago, IL.
出版信息
bioRxiv. 2025 Jun 26:2025.06.20.660696. doi: 10.1101/2025.06.20.660696.
BACKGROUND
Nerve growth factor (NGF), a key mediator of pain and inflammation, is increased in joints with osteoarthritis (OA). Neutralizing NGF with monoclonal antibodies has shown analgesic effects in painful knee OA, but clinical development was stopped due to side effects in the joints. Knowledge about the biological effects of long-term exposure of joint tissues to NGF is limited. Therefore, we aimed to explore the effects of repeated intra-articular (IA) injections of NGF into the knee joints of healthy mice on pain and sensitization, as well as joint innervation and structure.
METHODS
We conducted five experiments in male C57BL/6 mice. In Experiment 1, NGF (50ng or 500ng) or vehicle was injected IA into the knee of naive wildtype (WT) mice, twice a week for 4 weeks. We assessed knee swelling, knee hyperalgesia and histopathology. In Experiment 2, mice were injected with 500ng NGF or vehicle, twice a week for 4 weeks and microCT of the knee was performed. In Experiment 3, Na1.8-tdTomato reporter mice were injected with 500ng NGF or vehicle, twice a week for 4 weeks, and joint innervation was assessed. In Experiment 4, WT mice received 500ng NGF or vehicle twice a week for 4 weeks and were used for single cell RNA sequencing (scRNAseq) of the synovium. In Experiment 5, L3-L5 DRGs of mice that received 3 IA injections of 500ng NGF or vehicle twice a week were used for bulk RNA sequencing.
RESULTS
Repeated bi-weekly IA injections of NGF caused knee hyperalgesia in naïve mice. NGF caused dose-dependent knee swelling, synovial pathology, increased bone mineral density and trabecular bone thickness in the medial subchondral bone, growth of pre-osteophytes in the medial compartment, but no cartilage degeneration. NGF injection caused sprouting of Na1.8+ neurons in the medial but not the lateral synovium. ScRNAseq of the synovium revealed upregulated genes related to neuronal sprouting, synovial fibrosis and ossification, confirming histopathological findings. Bulk RNA seq of DRG showed upregulated pathways related to axonal growth.
CONCLUSIONS
In healthy mouse knees, NGF induced mechanical sensitization, synovitis, neoinnervation in the medial synovium, subchondral bone changes and pre-osteophyte growth in the medial compartment, thus capturing many pathological changes observed in OA, except cartilage damage.
背景
神经生长因子(NGF)是疼痛和炎症的关键介质,在骨关节炎(OA)关节中含量升高。用单克隆抗体中和NGF已在疼痛性膝骨关节炎中显示出镇痛作用,但由于关节出现副作用,临床开发已停止。关于关节组织长期暴露于NGF的生物学效应的了解有限。因此,我们旨在探讨向健康小鼠膝关节反复关节内(IA)注射NGF对疼痛和致敏、关节神经支配及结构的影响。
方法
我们在雄性C57BL/6小鼠中进行了五项实验。在实验1中,将NGF(50ng或500ng)或赋形剂每周两次关节内注射到未处理的野生型(WT)小鼠膝关节中,持续4周。我们评估了膝关节肿胀、膝关节痛觉过敏和组织病理学。在实验2中,小鼠每周两次注射500ng NGF或赋形剂,持续4周,并对膝关节进行显微CT检查。在实验3中,向Na1.8-tdTomato报告基因小鼠每周两次注射500ng NGF或赋形剂,持续4周,并评估关节神经支配。在实验4中,WT小鼠每周两次接受500ng NGF或赋形剂,持续4周,并用于滑膜的单细胞RNA测序(scRNAseq)。在实验5中,每周两次接受3次关节内注射500ng NGF或赋形剂的小鼠的L3-L5背根神经节用于批量RNA测序。
结果
每周两次反复关节内注射NGF导致未处理小鼠出现膝关节痛觉过敏。NGF导致剂量依赖性膝关节肿胀、滑膜病理改变、内侧软骨下骨骨密度增加和小梁骨厚度增加、内侧间室骨赘前期生长,但无软骨退变。注射NGF导致内侧而非外侧滑膜中Na1.8+神经元发芽。滑膜的scRNAseq显示与神经元发芽、滑膜纤维化和骨化相关的基因上调,证实了组织病理学发现。背根神经节的批量RNA测序显示与轴突生长相关的通路上调。
结论
在健康小鼠膝关节中,NGF诱导机械性致敏、滑膜炎、内侧滑膜新生神经支配、软骨下骨改变和内侧间室骨赘前期生长,从而呈现出在骨关节炎中观察到的许多病理变化,但不包括软骨损伤。
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