Falck Mari, Osredkar Damjan, Maes Elke, Flatebø Torun, Wood Thomas Ragnar, Sabir Hemmen, Thoresen Marianne
Department of Physiology, Institute of Basic Medical Sciences, University of Oslo, Oslo, Norway.
Dev Neurosci. 2017;39(1-4):238-247. doi: 10.1159/000455838. Epub 2017 Apr 14.
Perinatal infection increases the vulnerability of the neonatal brain to hypoxic-ischaemic (HI) injury. Hypothermia treatment (HT) does not provide neuroprotection after pre-insult inflammatory sensitisation by lipopolysaccharide (LPS), a gram-negative bacterial wall constituent. However, early-onset sepsis in term babies is caused by gram-positive species in more than 90% of cases, and neuro-inflammatory responses triggered through the gram-negative route (Toll-like receptor 4, TLR-4) are different from those induced through the gram-positive route via TLR-2. Whether gram-positive septicaemia sensitises the neonatal brain to hypoxia and inhibits the neuroprotective effect of HT is unknown. Seven-day-old Wistar rats (n = 178) were subjected to intraperitoneal injections of PAM3CSK4 (1 mg/kg, a synthetic TLR-2 agonist) or vehicle (0.9% NaCl). After an 8-h delay, the left carotid artery was ligated followed by 50 min of hypoxia (8% O2) at a rectal temperature of 36°C. Pups received a 5-h treatment of normothermia (NT, 37°C) or HT (32°C) immediately after the insult. Brains were harvested after 7 days' survival for hemispheric and hippocampal area loss analyses and immunolabelling of microglia (Iba1) and hippocampal neurons (NeuN). Normothermic PAM3CSK4-injected animals showed significantly more brain injury than vehicle animals (p = 0.014). Compared to NT, HT significantly reduced injury in the PAM3CSK4-injected animals, with reduced area loss (p < 0.001), reduced microglial activation (p = 0.006), and increased neuronal rescue in the CA1 region (p < 0.001). Experimental induction of a sepsis-like condition through the gram-positive pathway sensitises the brain to HI injury. HT was highly neuroprotective after the PAM3CSK4-triggered injury, suggesting HT may be neuroprotective in the presence of a gram-positive infection. These results are in strong contrast to LPS studies where HT is not neuroprotective.
围产期感染会增加新生儿大脑对缺氧缺血性(HI)损伤的易感性。在通过脂多糖(LPS,一种革兰氏阴性菌细胞壁成分)进行损伤前炎症致敏后,低温治疗(HT)并不能提供神经保护作用。然而,足月儿早发型败血症在超过90%的病例中是由革兰氏阳性菌引起的,通过革兰氏阴性途径(Toll样受体4,TLR-4)触发的神经炎症反应与通过TLR-2经由革兰氏阳性途径诱导的反应不同。革兰氏阳性败血症是否会使新生儿大脑对缺氧敏感并抑制HT的神经保护作用尚不清楚。将7日龄的Wistar大鼠(n = 178)腹腔注射PAM3CSK4(1 mg/kg,一种合成的TLR-2激动剂)或溶剂(0.9%氯化钠)。延迟8小时后,结扎左颈动脉,然后在直肠温度为36°C的条件下进行50分钟的缺氧(8%氧气)处理。幼崽在损伤后立即接受5小时的常温(NT,37°C)或低温(32°C)治疗。存活7天后取出大脑,进行半球和海马区面积损失分析以及小胶质细胞(Iba1)和海马神经元(NeuN)的免疫标记。注射常温PAM3CSK4的动物比注射溶剂的动物表现出明显更多的脑损伤(p = 0.014)。与NT相比,HT显著降低了注射PAM3CSK4动物的损伤,减少了面积损失(p < 0.001),减少了小胶质细胞活化(p = 0.006),并增加了CA1区域的神经元挽救(p < 0.001)。通过革兰氏阳性途径实验性诱导类似败血症的状态会使大脑对HI损伤敏感。在PAM3CSK4引发损伤后,HT具有高度的神经保护作用,表明在存在革兰氏阳性感染的情况下HT可能具有神经保护作用。这些结果与LPS研究形成强烈对比,在LPS研究中HT没有神经保护作用。
