利用体内钙成像技术检测关节神经元的自发活动,并通过笼内分析来监测关节炎小鼠模型中的活动变化。
Using in vivo calcium imaging to examine joint neuron spontaneous activity and home cage analysis to monitor activity changes in mouse models of arthritis.
作者信息
Goodwin George L, Marin Alina-Cristina, Walker Julia Vlachaki, Hobbs Carl, Denk Franziska
机构信息
Wolfson Sensory, Pain and Regeneration Centre (SPaRC), King's College London, SE1 1UL, London, UK.
出版信息
Arthritis Res Ther. 2025 Mar 27;27(1):67. doi: 10.1186/s13075-025-03515-w.
BACKGROUND
Studying pain in rodent models of arthritis is challenging. For example, assessing functional changes in joint neurons is challenging due to their relative scarcity amongst all sensory neurons. Additionally, studying pain behaviors in rodent models of arthritis poses its own set of difficulties. Commonly used tests, such as static weight-bearing, often require restraint, which can induce stress and consequently alter nociception. The aim of this study was to evaluate two emerging techniques for investigating joint pain in mouse models of rheumatoid- and osteo-arthritis: In vivo calcium imaging to monitor joint afferent activity and group-housed home cage monitoring to assess pain-like behaviors. Specifically, we examined whether there was increased spontaneous activity in joint afferents and reduced locomotor activity following induction of arthritis.
METHODS
Antigen induced arthritis (AIA) was used to model rheumatoid arthritis and partial medial meniscectomy (PMX) was used to model osteoarthritis. Group-housed home cage monitoring was used to assess locomotor behavior in all mice, and weight bearing was assessed in PMX mice. In vivo calcium imaging with GCaMP6s was used to monitor spontaneous activity in L4 ganglion joint neurons retrogradely labelled with fast blue 2 days following AIA and 13-15 weeks following PMX model induction. Cartilage degradation was assessed in knee joint sections stained with Safranin O and fast green in PMX mice.
RESULTS
Antigen induced arthritis produced knee joint swelling and PMX caused degeneration of articular cartilage in the knee. In the first 46 h following AIA, mice travelled less distance and were less mobile compared to their control cage mates. In contrast, no such differences were found between PMX and sham mice when measured between 4-12 weeks post-surgery. A larger fraction of joint neurons showed spontaneous activity in AIA but not PMX mice. Spontaneous activity was mostly displayed by medium-sized neurons in AIA mice and was not correlated with any of the home cage behaviors.
CONCLUSION
Group-housed home cage monitoring revealed locomotor changes in AIA mice, but not PMX mice (with n = 10/group). In vivo calcium imaging can be used to assess activity in multiple retrogradely labelled joint afferents and revealed increased spontaneous activity in AIA but not PMX mice.
背景
在关节炎啮齿动物模型中研究疼痛具有挑战性。例如,由于关节神经元在所有感觉神经元中相对稀少,评估关节神经元的功能变化具有挑战性。此外,在关节炎啮齿动物模型中研究疼痛行为也有其自身的一系列困难。常用的测试,如静态负重,通常需要限制,这会诱发应激并因此改变痛觉感受。本研究的目的是评估两种用于研究类风湿性关节炎和骨关节炎小鼠模型中关节疼痛的新兴技术:用于监测关节传入活动的体内钙成像和用于评估疼痛样行为的群居笼内监测。具体而言,我们检查了关节炎诱导后关节传入神经元的自发活动是否增加以及运动活动是否减少。
方法
使用抗原诱导性关节炎(AIA)模拟类风湿性关节炎,使用部分内侧半月板切除术(PMX)模拟骨关节炎。群居笼内监测用于评估所有小鼠的运动行为,负重情况在PMX小鼠中进行评估。在AIA诱导后2天和PMX模型诱导后13 - 15周,使用带有GCaMP6s的体内钙成像来监测用快蓝逆行标记的L4神经节关节神经元的自发活动。在PMX小鼠中,用番红O和固绿染色的膝关节切片评估软骨降解情况。
结果
抗原诱导性关节炎导致膝关节肿胀,PMX导致膝关节软骨退变。在AIA后的前46小时,与对照笼中的同窝小鼠相比,小鼠移动的距离更短且活动更少。相比之下,在手术后4 - 12周测量时,PMX小鼠和假手术小鼠之间未发现此类差异。在AIA小鼠中,更大比例的关节神经元表现出自发活动,而在PMX小鼠中则没有。自发活动主要由AIA小鼠中的中型神经元表现出来,并且与任何笼内行为均无相关性。
结论
群居笼内监测显示AIA小鼠存在运动变化,但PMX小鼠(每组n = 10)没有。体内钙成像可用于评估多个逆行标记的关节传入神经元的活动,并显示AIA小鼠而非PMX小鼠的自发活动增加。
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