The Ritchie Centre, The Hudson Institute of Medical Research, Melbourne, Australia.
Department of Obstetrics and Gynaecology, Monash University, Melbourne, Australia.
J Neuroinflammation. 2024 May 28;21(1):142. doi: 10.1186/s12974-024-03137-0.
Intrauterine inflammation is considered a major cause of brain injury in preterm infants, leading to long-term neurodevelopmental deficits. A potential contributor to this brain injury is dysregulation of neurovascular coupling. We have shown that intrauterine inflammation induced by intra-amniotic lipopolysaccharide (LPS) in preterm lambs, and postnatal dopamine administration, disrupts neurovascular coupling and the functional cerebral haemodynamic responses, potentially leading to impaired brain development. In this study, we aimed to characterise the structural changes of the neurovascular unit following intrauterine LPS exposure and postnatal dopamine administration in the brain of preterm lambs using cellular and molecular analyses.
At 119-120 days of gestation (term = 147 days), LPS was administered into the amniotic sac in pregnant ewes. At 126-7 days of gestation, the LPS-exposed lambs were delivered, ventilated and given either a continuous intravenous infusion of dopamine at 10 µg/kg/min or isovolumetric vehicle solution for 90 min (LPS, n = 6; LPS, n = 6). Control preterm lambs not exposed to LPS were also administered vehicle or dopamine (CTL, n = 9; CTL, n = 7). Post-mortem brain tissue was collected 3-4 h after birth for immunohistochemistry and RT-qPCR analysis of components of the neurovascular unit.
LPS exposure increased vascular leakage in the presence of increased vascular density and remodelling with increased astrocyte "end feet" vessel coverage, together with downregulated mRNA levels of the tight junction proteins Claudin-1 and Occludin. Dopamine administration decreased vessel density and size, decreased endothelial glucose transporter, reduced neuronal dendritic coverage, increased cell proliferation within vessel walls, and increased pericyte vascular coverage particularly within the cortical and deep grey matter. Dopamine also downregulated VEGFA and Occludin tight junction mRNA, and upregulated dopamine receptor DRD1 and oxidative protein (NOX1, SOD3) mRNA levels. Dopamine administration following LPS exposure did not exacerbate any effects induced by LPS.
LPS exposure and dopamine administration independently alters the neurovascular unit in the preterm brain. Alterations to the neurovascular unit may predispose the developing brain to further injury.
宫内炎症被认为是早产儿脑损伤的主要原因,导致长期神经发育缺陷。神经血管耦联失调是导致这种脑损伤的一个潜在因素。我们已经表明,在早产羔羊中通过羊膜内脂多糖(LPS)诱导的宫内炎症和产后多巴胺给药会破坏神经血管耦联和功能性大脑血液动力学反应,可能导致脑发育受损。在这项研究中,我们旨在使用细胞和分子分析来描述宫内 LPS 暴露和产后多巴胺给药后早产羔羊大脑中神经血管单元的结构变化。
在 119-120 天的妊娠期(足月= 147 天),将 LPS 注入怀孕母羊的羊膜囊中。在 126-7 天的妊娠期,将 LPS 暴露的羔羊分娩,进行通气,并连续 90 分钟静脉输注 10µg/kg/min 的多巴胺或等容载体溶液(LPS,n=6;LPS,n=6)。也给未暴露于 LPS 的对照早产羔羊给予载体或多巴胺(CTL,n=9;CTL,n=7)。出生后 3-4 小时进行死后脑组织采集,用于神经血管单元成分的免疫组织化学和 RT-qPCR 分析。
LPS 暴露增加了血管通透性,同时增加了血管密度和重塑,表现为星形胶质细胞“足突”对血管的覆盖增加,紧密连接蛋白 Claudin-1 和 Occludin 的 mRNA 水平下调。多巴胺给药降低了血管密度和大小,降低了内皮细胞葡萄糖转运体,减少了神经元树突的覆盖,增加了血管壁内的细胞增殖,增加了周细胞对血管的覆盖,特别是在皮质和深灰质内。多巴胺还下调了 VEGFA 和 Occludin 紧密连接的 mRNA,上调了多巴胺受体 DRD1 和氧化蛋白(NOX1、SOD3)的 mRNA 水平。LPS 暴露后给予多巴胺给药并没有加重 LPS 诱导的任何作用。
LPS 暴露和多巴胺给药独立地改变了早产儿脑的神经血管单元。神经血管单元的改变可能使发育中的大脑更容易受到进一步的损伤。
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