Aquaporin-4 gene silencing protects injured neurons after early cerebral infarction.

Aquaporin-4 regulates water molecule channels and is important in tissue regulation and water transportation in the brain. Upregulation of aquaporin-4 expression is closely related to cellular edema after early cerebral infarction. Cellular edema and aquaporin-4 expression can be determined by measuring cerebral infarct area and apparent diffusion coefficient using diffusion-weighted imaging (DWI). We examined the effects of silencing aquaporin-4 on cerebral infarction. Rat models of cerebral infarction were established by occlusion of the right middle cerebral artery and siRNA-aquaporin-4 was immediately injected via the right basal ganglia. In control animals, the area of high signal intensity and relative apparent diffusion coefficient value on T2-weighted imaging (T2WI) and DWI gradually increased within 0.5-6 hours after cerebral infarction. After aquaporin-4 gene silencing, the area of high signal intensity on T2WI and DWI reduced, relative apparent diffusion coefficient value was increased, and cellular edema was obviously alleviated. At 6 hours after cerebral infarction, the apparent diffusion coefficient value was similar between treatment and model groups, but angioedema was still obvious in the treatment group. These results indicate that aquaporin-4 gene silencing can effectively relieve cellular edema after early cerebral infarction; and when conducted accurately and on time, the diffusion coefficient value and the area of high signal intensity on T2WI and DWI can reflect therapeutic effects of aquaporin-4 gene silencing on cellular edema.

Relationship between AQP4 expression and structural damage to the blood-brain barrier at early stages of traumatic brain injury in rats.

BACKGROUND: Although some studies have reported that aquaporin-4 (AQP4) plays an important role in the brain edema after traumatic brain injury (TBI), little is known about the AQP4 expression in the early stage of TBI, or about the correlation between the structural damage to the blood-brain barrier (BBB) and angioedema. The aim of this project was to investigate the relationship between AQP4 expression and damage to the BBB at early stages of TBI. METHODS: One hundred and twenty healthy adult Wistar rats were randomly divided into two groups: sham operation group (SO) and TBI group. The TBI group was divided into five sub-groups according to the different time intervals: 1, 3, 6, 12, and 24 hours. The brains of the animals were taken out at different time points after TBI to measure brain water content. The cerebral edema and BBB changes in structure were examined with an optical microscopy (OM) and transmission electron microscopy (TEM), and the IgG content and AQP4 protein expression in traumatic brain tissue were determined by means of immunohistochemistry and Western blotting. The data were analyzed with SPSS 13.0 statistical software. RESULTS: In the SO group, tissue was negative for IgG, and there were no abnormalities in brain water content or AQP4 expression. In the TBI group, brain water content significantly increased at 6 hours and peaked at 24 hours following injury. IgG expression significantly increased from 1 to 6 hours following injury, and remained at a high level at 24 hours. Pathological observation revealed BBB damage at 1 hour following injury. Angioedema appeared at 1 hour, was gradually aggravated, and became obvious at 6 hours. Intracellular edema occurred at 3 hours, with the presence of large glial cell bodies and mitochondrial swelling. These phenomena were aggravated with time and became obvious at 12 hours. In addition, microglial proliferation was visible at 24 hours. AQP4 protein expression were reduced at 1 hour, lowest at 6 hours, and began to increase at 12 hours, showing a V-shaped curve. CONCLUSIONS: The angioedema characterized by BBB damage was the primary type of early traumatic brain edema. It was followed by mixed cerebral edema that consisted of angioedema and cellular edema and was aggravated with time. AQP4 expression was down-regulated during the angioedema attack, but AQP4 expression was upregulated during intracellular edema.

Reperfusion of the rat brain tissues following acute ischemia: the correlation among diffusion-weighted imaging, histopathology, and aquaporin-4 expression.

BACKGROUND: Although some studies have reported that aquaporin-4 (AQP4) plays a role in the post-ischemic edema formation and diffusion-weighted imaging (DWI), little is known about the AQP4 expression in stage of the reperfusion following acute cerebral ischemia, as well as the correlation between histopathology and DWI. The aim of the study was to investigate the correlation among DWI, histopathology and the AQP4 expression in the reperfused rat brain tissues following acute ischemia. METHODS: Seventy Wistar rats were randomly divided into a control group (group A), and several occluded and reperfusion groups. They had their middle cerebral artery unilaterally occluded (MCAO) for 30 minutes (group B) followed by 30 minutes (group D) or 60 minutes (group E) of reperfusion, or 60 minutes of MCAO (group C) followed by 30 minutes (group F), or 60 minutes (group G) of reperfusion (n = 10 for each group). All rats underwent DWI scanning. The relative apparent diffusion coefficient (rADC) value of each rat was calculated. All the rats were sacrificed and the cerebral ischemic tissues were examined for histopathology. Real-time fluro-quantitative polymerase chain reaction (RT-PCR) and Western-blotting were performed. The amount of AQP4 mRNA (Ex(-ΔΔCt)) and AQP4 protein (Q) was statistically analyzed. The correlation between rADC values and AQP4 mRNA expression was analyzed with the Pearson correlation test. RESULTS: In all the reperfusion groups, the areas of hyper-intensity signal in DWI were decreased, and the rADC value increased and the AQP4 expression decreased significantly compared with the occluded group (t = 26.89, t = 18.26, P < 0.01). There was a negative correlation between AQP4 mRNA expression and rADC values (r = -0.72, P < 0.01). A mixed edema, composed of cerebral intracelluar edema and vasogenic brain edema, was observed in all the reperfusion groups. It was more prevalent in groups D and F than in the groups E and G. With the reperfusion time postponed, the cerebral intracelluar edema of the rat was significantly mitigated, but the vasogenic brain edema was not significantly changed. CONCLUSIONS: There is a close correlation between AQP4 expression and the cerebral intracellular edema. The change of ADC values may indirectly reflect the level of the AQP4 expression. DWI may become a promising, noninvasive imaging modality to predict early stroke and reperfusion injury.