LONG-TERM EFFECTS OF SHAM SURGERY ON PHAGOCYTE FUNCTIONS IN RATS

Zh. Oliynyk
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引用次数: 2

Abstract

Animal models of inflammatory disorders, including those of the nervous system are commonly used to explore the pathophysiological role of immune cell response in disease triggering and course and to develop biotechnology products for therapeutic use. Modeling some of these disorders, particularly neurodegenerative diseases, implies surgical manipulations for the intracerebral introduction of disease-initiating substances (toxins, amyloids etc.). Design of these experiments involves the use of sham-operated animals as a control of non-specific intrinsic side-effects elicited by surgical manipulations per se, including local and systemic inflammation, where phagocytic cells are key participants. Short-term post-surgical immunomodulatory effects are widely reported. However, no study thus far has examined the long term effects of sham-surgery on phagocyte functions. The purpose of this study was to evaluate the effect of sham-surgery, commonly used for modeling neurodegenerative diseases, on phagocyte functions in the far terms after the surgical manipulations. Materials and Methods. Adult male Wistar rats were used in the study. Sham surgery consisted of stereotactic unilateral injection of saline solution into the median forebrain bundle (sham-operated 1, SO1) or directly into the substantia nigra (sham-operated 2, SO2). Before the placebo surgery, animals were anaesthetized using nembutal and ketamine/xylazine correspondingly. Functional characteristics (phagocytic activity, oxidative metabolism, CD80/86 and CD206 expression) of phagocytes (microglia, peritoneal macrophages, circulating monocytes and granulocytes) were examined by flow cytometry. Differential leukocyte count was conducted using hematological analyzer. Results. Phagocytes from animals underwent of different protocols of placebo surgery, demonstrated various patterns of functional changes on day 29 after the manipulations. In animals from SO1 group, we observed signs of residual neuroinflammation (pro-inflammatory shift of microglia functional profile) along with ongoing resolution of systemic inflammation (anti-inflammatory metabolic shift of circulating phagocytes and peritoneal macrophages). In rats from SO2 group, pro-inflammatory polarized activation of peritoneal phagocytes was registered along with anti-inflammatory shift in microglia and circulating phagocytes. Conclusions. Sham surgery influences functions of phagocytic cells of different locations even in the far terms after the manipulations. These effects can be considered as combined long-term consequences of surgical brain injury and the use of anesthetics. Our observations evidences, that sham associated non-specific immunomodulatory effects should always be taken into consideration in animal models of inflammatory central nervous system diseases.
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假手术对大鼠吞噬细胞功能的长期影响
炎症性疾病(包括神经系统炎症性疾病)的动物模型通常用于探索免疫细胞反应在疾病触发和病程中的病理生理作用,并开发用于治疗的生物技术产品。对其中一些疾病,特别是神经退行性疾病进行建模,意味着在脑内引入疾病起始物质(毒素、淀粉样蛋白等)的手术操作。这些实验的设计包括使用假手术动物来控制手术操作本身引发的非特异性内在副作用,包括局部和全身炎症,其中吞噬细胞是关键参与者。术后短期免疫调节作用已被广泛报道。然而,到目前为止,还没有研究检验假手术对吞噬细胞功能的长期影响。本研究的目的是评估通常用于模拟神经退行性疾病的假手术在手术后对吞噬细胞功能的影响。材料和方法。本研究采用成年雄性Wistar大鼠。假手术包括将生理盐水单侧立体定向注射到正中前脑束(假手术1,SO1)或直接注射到黑质(假手术2,SO2)。在安慰剂手术之前,相应地使用戊巴比妥和氯胺酮/甲苯噻嗪对动物进行麻醉。通过流式细胞术检测吞噬细胞(小胶质细胞、腹膜巨噬细胞、循环单核细胞和粒细胞)的功能特征(吞噬活性、氧化代谢、CD80/86和CD206表达)。使用血液分析仪进行白细胞的差异计数。后果来自接受不同方案安慰剂手术的动物的吞噬细胞在操作后第29天表现出各种模式的功能变化。在SO1组的动物中,我们观察到残余神经炎症的迹象(小胶质细胞功能谱的促炎性转变),以及全身炎症的持续消退(循环吞噬细胞和腹膜巨噬细胞的抗炎代谢转变)。在SO2组的大鼠中,腹膜吞噬细胞的促炎极化激活以及小胶质细胞和循环吞噬细胞的抗炎转变被记录下来。结论。假手术影响不同位置的吞噬细胞的功能,甚至在手术后很长一段时间内也是如此。这些影响可以被认为是手术脑损伤和麻醉剂使用的综合长期后果。我们的观察结果证明,在炎症性中枢神经系统疾病的动物模型中,应始终考虑假手术相关的非特异性免疫调节作用。
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审稿时长
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