NDRG2在大鼠肺缺血再灌注损伤中的表达

目的:通过建立大鼠肺缺血再灌注损伤(Lung ischemia-reperfusion injury,LIRI)模型,观察肺缺血再灌注损伤后,肺组织中N-myc下游调节基因2(N-myc downstream regulated gene,NDRG2)表达水平的变化.方法:将70只健康成年雄性SD大鼠随机分成对照组(C)、缺血组(I)、缺血再灌注组(I/R)(后两组各含3个亚组),每组10只.麻醉固定大鼠,颈部切口行气管插管.右侧开胸,肺缺血组依次分别选择游离夹闭右肺门(即右主支气管,右肺动、静脉)缺血30 min、60 min、120 min后,麻醉处死大鼠获取肺组织.肺缺血再灌注组同样选择游离夹闭右肺门,于夹闭右肺门60 min后松开,分别取再灌注30 min、60 min、120m in后麻醉处死大鼠获取肺组织样本.采用免疫组化对肺组织NDRG2进行蛋白定位检测、RT-PCR对肺组织NDRG2 mRNA含量进行检测、Western-blot对肺组织NDRG2蛋白含量进行检测.结果:肺缺血组与对照组比较,肺组织NDRG2的表达无明显变化(P＞0.05);肺缺血再灌注组与对照组比较,NDRG2蛋白含量和mRNA表达量逐渐下降,在60 min时达最低,之后又有所回升,但仍低于对照组(P＜0.05).结论:肺缺血再灌注损伤可下调肺组织中NDR G2的表达含量,NDRG2可能是肺缺血再灌注损伤的靶向调控位点.     

急性肺损伤的生物标记物

急性呼吸窘迫综合征(ARDS)和急性肺损伤(ALI)多由低氧性呼吸衰竭引起,导致高通透性肺水肿,临床上有较高的发病率与死亡率。近十年来,针对血浆和支气管肺泡灌洗液中相关生物标记物的研究为探索急性肺损伤的病理生理机制指明了新的方向。个别生物标记物已在一些大型、多中心ARDS试验中得到证实。但迄今仍没有一个或一组生物标记物常规应用于临床。随着人类对ALI发病机制理解的进一步深入,或许不久的将来,生物标记物会真正应用于评估疾病的严重程度和预后。本文将概述近年来ALI相关生物标记物的研究进展。     

硫化氢在急性百草枯中毒致大鼠肺损伤中的作用

目的阐明百草枯中毒致大鼠肺损伤时机体内源性H2S的变化,探讨硫化氢在急性百草枯中毒致大鼠肺损伤中的作用。方法按时间点将50只大鼠分为5组,同时染毒;选择对应时间点50只大鼠为对照组。分组检测肺组织中内源性H2S的含量,并及时处死大鼠,行肺组织损伤病理学评分。另外取大鼠40只分为4组,即空白对照组、染毒组、染毒+外源性H2S组、外源性H2S组,于12h后,检测肺组织中内源性H2S的含量,并及时处死大鼠,行肺组织损伤病理学评分。结果百草枯中毒致大鼠肺损伤在不同时间范围内,机体内源性H2S的含量差异有显著统计学意义(P0.01);与染毒组比较,染毒组+外源性H2S组肺损伤程度评分显著降低,差异具有显著统计学意义(P0.01)。结论百草枯致大鼠肺损伤过程中,内源性H2S的含量与肺损伤程度呈负相关;外源性H2S通过增加体内肺组织H2S的含量,抑制百草枯致肺损伤。。     

大鼠胰腺炎相关性急性肺损伤模型的探讨

目的研究5%牛磺胆酸钠(TAC)逆行胆胰管注射诱发急性胰腺炎相关肺损伤的大鼠模型。方法采用改进的胆胰管逆行注射TAC造成大鼠急性出血坏死型胰腺炎(AHNP)模型,将大鼠随机分为3组:AHNP组、假手术组、地塞米松(DXM)治疗组。造模成功后,立即静脉注射大剂量DXM(5 mg/kg)。术后于3、6、12 h处死,留取外周血测定血清淀粉酶、脂肪酶,取右肺中叶测定肺湿干比值及作病理切片,计算等级评分评价肺损伤;行支气管肺泡灌洗,以灌洗液白蛋白与血清白蛋白含量比值计算肺指数。结果AHNP组36、、12 h肺通透性指数、湿干比值及病理学评分逐渐增加,经单因素方差分析,61、2 h组高于3 h组(P<0.05),前两者于6、12 h组组内比较差异不显著(P>0.05)。DXM组于术后61、2 h,各项肺损伤指标均低于AHNP组(P<0.05)。结论TAC胆胰管逆行注射造成AHNP模型大鼠于术后6 h即出现明显的肺损伤表现,符合PALI病理改变,与临床AHNP合并急性肺损伤(ALI)的病理过程相似,可于此时相点作为研究AHNP合并肺损伤的模型。     

Role of Sulfur Dioxide in Acute Lung Injury Following Limb Ischemia/Reperfusion in Rats

Sulfur dioxide (SO₂) is naturally synthesized by glutamate‐oxaloacetate transaminase (GOT) from l ‐cysteine in mammalian cells. We aim to investigate the role of SO₂ in inflammation in acute lung injury (ALI) following limb ischemia/reperfusion (I/R). Male Wistar rats were subjected to limb I/R and were injected with saline, GOT inhibitor hydroxamate (HDX, 0.47 mmol/kg), or the SO₂ donor Na₂SO₃/NaHSO₃ (0.54 mmol/kg/0.18 mmol/kg). Compared with the sham operation, the plasma SO₂ levels were significantly decreased by limb I/R treatment. In addition, SO₂ concentration and GOT activity in the lung tissue were also reduced in ALI. The occurrence of ALI following limb I/R can be prevented by Na₂SO₃/NaHSO₃ treatment, whereas it can be significantly aggravated by HDX. The plasma IL‐1β, IL‐6, and IL‐10 levels were consistent with myeloperoxidase activity and inflammation in lung tissue. In conclusion, our data suggest that downregulation of endogenous SO₂ production might be involved in pathogenesis of ALI following limb I/R in rats. © 2013 Wiley Periodicals, Inc. J BiochemMol Toxicol 27:389‐397, 2013; View this article online at wileyonlinelibrary.com . DOI 10.1002/jbt.21492     

L-精氨酸对实验性大鼠急性肺损伤的保护作用

目的 探讨一氧化氮(NO)前体物质L-精氨酸(L-Arg)在内毒素(LPS)致大鼠急性肺损伤中的作用.方法 SD大鼠24只随机分为空白对照组、LPS组和L-Arg(500 mg/kg)组.腹腔注射LPS(100 μg/kg)复制急性肺损伤动物模型.在LPS注射2 h后,取大鼠肺称其湿重与干重,计算肺湿干比,测定肺灌洗液蛋白含量和白细胞数量,并进行肺组织病理学检查.结果 与对照组相比,LPS组肺湿干比、肺灌洗液蛋白含量和白细胞计数显著增高(P<0.01,n=8),病理学切片见急性肺损伤性变化;与LPS组相比,L-Arg组肺湿干比、肺灌洗液蛋白含量和白细胞计数显著降低(P<0.01,n=8),肺组织急性损伤显著减轻.结论 L-Arg具有抗LPS致急性肺损伤的作用.     

Angiopoietin/Tie2 Dysbalance Is Associated with Acute Kidney Injury after Cardiac Surgery Assisted by Cardiopulmonary Bypass

Introduction

The pathophysiology of acute kidney injury (AKI) after cardiac surgery is not completely understood. Recent evidence suggests a pivotal role for the endothelium in AKI. In experimental models of AKI, the endothelial specific receptor Tie2 with its ligands Angiopoietin (Ang) 1 and Ang2 are deranged. This study investigates their status after cardiac surgery, and a possible relation between angiopoietins and AKI.

Methods

From a cohort of 541 patients that underwent cardiac surgery, blood and urine was collected at 5 predefined time points. From this cohort we identified 21 patients who had at least 50% post-operative serum creatinine increase (AKI). We constructed a control group (n = 21) using propensity matching. Systemic levels of Ang1, Ang2, and sTie2 were measured in plasma and the AKI markers albumin, kidney injury molecule-1 (KIM-1) and N-acetyl-beta-D-glucosaminidase (NAG) were measured in the urine.

Results

Ang2 plasma levels increased over time in AKI (from 4.2 to 11.6 ng/ml) and control patients (from 3.0 to 6.7 ng/ml). Ang2 levels increased 1.7-fold more in patients who developed AKI after cardiac surgery compared to matched control patients. Plasma levels of sTie2 decreased 1.6-fold and Ang1 decreased 3-fold over time in both groups, but were not different between AKI and controls (Ang1 P = 0.583 and sTie2 P = 0.679). Moreover, we found a positive correlation between plasma levels of Ang2 and urinary levels of NAG.

Conclusions

The endothelial Ang/Tie2 system is in dysbalance in patients that develop AKI after cardiac surgery compared to matched control patients.     

抗炎多肽AF-2对LPS诱导的小鼠急性肺损伤的保护

目的研究抗炎多肽AF-2（antiflammin-2）对内毒素（LPS）诱导的小鼠急性肺损伤的保护作用。方法Balb/c雄性小鼠37只,随机分为3组,对照组（n=10）、急性肺损伤（ALI）模型组（n=14）和AF-2治疗组（n=13）,模型组和治疗组腹腔注射大肠杆菌内毒素复制小鼠肺损伤模型,治疗组同时注射抗炎多肽AF-2,对照组和模型组注射等量的生理盐水。在0h、6h和12h记录动物的呼吸频率,12h处死动物,肺组织切片观察肺病理变化,ELISA法检测血清细胞因子。结果6h和12hAF-2治疗组动物呼吸频率均低于模型组。肺组织病理显示AF-2对LPS诱导的小鼠ALI肺组织的渗出、炎细胞浸润有一定的抑制作用。AF-2治疗组与ALI模型组比较血清IL-6水平明显下降。结论AF-2对内毒素诱导的小鼠急性肺损伤有一定的保护作用。     

大潮气量致急性肺损伤犬呼吸机相关性肺损伤模型的构建

目的建立大潮气量致急性肺损伤（ALI）犬呼吸机相关性肺损伤（VILI）模型。方法健康雄性杂种犬12只用油酸静脉注射法制备犬ALI模型,造模成功后进行支持通气15min过渡,然后随机分为VILI组及对照组行机械通气6 h,每组6只。VILI组潮气量（Vt）=20 mL/kg,对照组Vt=6 mL/kg,两组呼气末正压（PEEP）均为10 cmH2O。动态观察各组血气交换指标变化。通气6 h后取支气管肺泡灌洗液（BALF）作白蛋白浓度检查,取肺组织作病理切片肺损伤评分。结果各组在油酸静脉注射后（2.50±0.80）h达到ALI标准。VILI组在犬机械通气6 h后PaO2、SaO2及氧合指数（OI）较对照组略下降（P〈0.05）,而PaCO2波动不大,且心率、血压波动也较对照组小（P〈0.05）。VILI组BALF中蛋白浓度和肺组织损伤评分均较对照组显著升高（分别P〈0.05,P〈0.01）。结论本实验成功建立了大潮气量致ALI犬VILI模型。     

辛伐他汀对急性肺损伤及囊性纤维化跨膜传导调节体表达的影响

目的:探讨辛伐他汀对急性肺损伤大鼠囊性纤维化跨膜传导调节体(CFTR氯离子通道)的影响及其对减轻急性肺损伤的作用。方法:40只雄性SD大鼠随机分为空白组、模型组、辛伐他汀低剂量组(20 mg/kg)、辛伐他汀中剂量组(40 mg/kg)、辛伐他汀高剂量组(80 mg/kg);气道内滴注脂多糖(10 mg/kg)制备急性肺损伤模型。进行肺湿/干重比、肺泡灌洗液蛋白检测,HE染色观察肺组织的病理变化;实时荧光定量PCR检测肺组织匀浆CFTR mRNA表达。结果:结果显示,模型组的肺湿干重比,肺泡灌洗液蛋白较空白组高(P0.05),病理示肺泡膈增厚,大量炎性细胞浸润,肺泡腔内可见红细胞及血肿,提示模型复制成功。辛伐他汀低剂量组的肺湿/干重比、肺泡灌洗液蛋白与模型组相比无明显差异,病理可见肺损伤较重,与模型组相比无改善;CFTR mRNA表达与模型组相比稍高但无明显差异(P0.05)。辛伐他汀中高剂量组中肺湿/干重比、肺泡灌洗液蛋白与模型组相比有所降低,肺组织CFTRmRNA表达较模型组明显增加(P0.05),但中高剂量组之间无明显差异(P0.05);病理可见肺泡膈增厚,极少见炎性细胞浸润及透明膜,肺泡腔内未见明显出血和水肿,肺损伤程度较模型组减轻。结论:中高剂量的辛伐他汀(40 mg/kg)对急性肺损伤有一定保护作用,并上调CFTR的表达。     

NMDA Receptor Antagonist Attenuates Bleomycin-Induced Acute Lung Injury

Background

Glutamate is a major neurotransmitter in the central nervous system (CNS). Large amount of glutamate can overstimulate N-methyl-D-aspartate receptor (NMDAR), causing neuronal injury and death. Recently, NMDAR has been reported to be found in the lungs. The aim of this study is to examine the effects of memantine, a NMDAR channel blocker, on bleomycin-induced lung injury mice.

Methods

C57BL/6 mice were intratracheally injected with bleomycin (BLM) to induce lung injury. Mice were randomized to receive saline, memantine (Me), BLM, BLM plus Me. Lungs and BALF were harvested on day 3 or 7 for further evaluation.

Results

BLM caused leukocyte infiltration, pulmonary edema and increase in cytokines, and imposed significant oxidative stress (MDA as a marker) in lungs. Memantine significantly mitigated the oxidative stress, lung inflammatory response and acute lung injury caused by BLM. Moreover, activation of NMDAR enhances CD11b expression on neutrophils.

Conclusions

Memantine mitigates oxidative stress, lung inflammatory response and acute lung injury in BLM challenged mice.     

Sonic Hedgehog Signaling: Evidence for Its Protective Role in Endotoxin Induced Acute Lung Injury in Mouse Model

Objective

To investigate the protective role of the sonic hedgehog (SHH) signaling associated with a lipopolysaccharide (LPS)-induced acute lung injury (ALI) in a mouse model.

Methods

Male BALB/c mice were randomly divided into four groups: control, LPS, LPS-cyclopamine group and cyclopamine group. ALI was induced by LPS ip injection (5 mg/kg). The sonic hedgehog inhibitor cyclopamine (50 mg/kg) was given to the LPS-cyclopamine group at 30 min after LPS injection as well as normal mice as control. Lung injury was observed histologically in hematoxylin and eosin (HE) stained tissue sections, semi-quantified by lung tissue injury score, and the lung tissue mass alteration was measured by wet to dry weight ratio (W/D). mRNA expression levels of TNF-α, SHH, Patched (PTC) and GLI1 in lung tissue were studied with real time quantitative PCR (RT-PCR), while the protein expression of SHH and GLI1 was determined by western blot analysis.

Results

Lung tissue injury score, thickness of alveolar septa, W/D, and TNF-α mRNA expression levels were significantly higher in the ALI mice than the normal mice (P<0.05). The mRNA expression levels of SHH, PTC, and GLI1 in the ALI mice were significantly higher at 12h and 24h after LPS injection, but not at the 6h time point. Protein production of SHH and GLI1 at 6h, 12h, and 24h in the lungs of ALI mice significantly increased, in a time-dependent manner, compared with that in normal mice. Cyclopamine alone has no effect on pathological changes in normal mice. Intervention with cyclopamine in ALI mice led to a reduction in mRNA levels of SHH, PTC, and GLI1 as well as SHH and GLI1 protein levels; meanwhile, the pathological injury scores of lung tissues, thickness of alveolar septa, W/D, and mRNA expression levels of TNF-α increased compared with mice receiving LPS only.

Conclusion

The SHH signaling pathway was activated in response to LPS-induced ALI, and up-regulation of SHH expression could alleviate lung injury and be involved in the repair of injured lung tissue.     

The Role of M2 Macrophages in the Progression of Chronic Kidney Disease following Acute Kidney Injury

Introduction

Acute kidney injury (AKI) is a major risk factor in the development of chronic kidney disease (CKD). However, the mechanisms linking AKI to CKD remain unclear. We examined the alteration of macrophage phenotypes during an extended recovery period following ischemia/reperfusion injury (IRI) and determine their roles in the development of fibrosis.

Methods

The left renal pedicle of mice was clamped for 40 min. To deplete monocyte/macrophage, liposome clodronate was injected or CD11b-DTR and CD11c-DTR transgenic mice were used.

Results

Throughout the phase of IRI recovery, M2-phenotype macrophages made up the predominant macrophage subset. On day 28, renal fibrosis was clearly shown with increased type IV collagen and TGF-β. The depletion of macrophages induced by the liposome clodronate injection improved renal fibrosis with a reduction of kidney IL-6, type IV collagen, and TGF-β levels. Additionally, the adoptive transfer of the M2c macrophages partially reversed the beneficial effect of macrophage depletion, whereas the adoptive transfer of the M1 macrophages did not. M2 macrophages isolated from the kidneys during the recovery phase expressed 2.5 fold higher levels of TGF-β than the M1 macrophages. The injection of the diphtheria toxin into CD11b or CD11c-DTR transgenic mice resulted in lesser depletion or no change in M2 macrophages and had little impact on renal fibrosis.

Conclusion

Although M2 macrophages are known to be indispensible for short-term recovery, they are thought to be main culprit in the development of renal fibrosis following IRI.     

Pressure Controlled Ventilation to Induce Acute Lung Injury in Mice

Murine models are extensively used to investigate acute injuries of different organs systems (1-34). Acute lung injury (ALI), which occurs with prolonged mechanical ventilation, contributes to morbidity and mortality of critical illness, and studies on novel genetic or pharmacological targets are areas of intense investigation (1-3, 5, 8, 26, 30, 33-36). ALI is defined by the acute onset of the disease, which leads to non-cardiac pulmonary edema and subsequent impairment of pulmonary gas exchange (36). We have developed a murine model of ALI by using a pressure-controlled ventilation to induce ventilator-induced lung injury (2). For this purpose, C57BL/6 mice are anesthetized and a tracheotomy is performed followed by induction of ALI via mechanical ventilation. Mice are ventilated in a pressure-controlled setting with an inspiratory peak pressure of 45 mbar over 1 - 3 hours. As outcome parameters, pulmonary edema (wet-to-dry ratio), bronchoalveolar fluid albumin content, bronchoalveolar fluid and pulmonary tissue myeloperoxidase content and pulmonary gas exchange are assessed (2). Using this technique we could show that it sufficiently induces acute lung inflammation and can distinguish between different treatment groups or genotypes (1-3, 5). Therefore this technique may be helpful for researchers who pursue molecular mechanisms involved in ALI using a genetic approach in mice with gene-targeted deletion.     

Enrichment of Murine CD68+CCR2+ and CD68+CD206+ Lung Macrophages in Acute Pancreatitis-Associated Acute Lung Injury

Acute lung injury (ALI) is an important cause of mortality in critically ill patients. Acute pancreatitis (AP) is one of the risk factors for developing this syndrome. Among the inflammatory cells, macrophages have a key role in determining the severity of the acute lung injury. In the lungs, macrophages constitute a heterogeneous cell population distributed in different compartments. Changes in not only the macrophage count, but also in their phenotype have been seen during the course of lung injury. A murine ductal ligation model of acute pancreatitis showed substantial morphological changes in the pancreas and lungs. Immunohistochemistry showed neutrophil recruitment into both organs after 9 hours and later on. F4/80⁺ cells in the pancreas increased in the ligated animals, though there was not a significant difference in their number in the lungs as compared to sham operated animals. Flow cytometry analysis of lung macrophages demonstrated an enrichment of F4/80⁻ CD68⁺CCR2⁺ and F4/80⁻ CD68⁺CD206⁺ lung macrophages in ligated animals (AP) as compared to the sham operated group. The level of interleukin-6 in plasma increased 3 hours after ligation compared to the sham operated group, as a first indicator of a systemic inflammatory response.This study suggests a role for F4/80⁻ CD68⁺ macrophages in the pathogenesis of acute lung injury in acute pancreatitis. Studying lung macrophages for different phenotypic markers, their polarization, activation and recruitment, in the context of acute lung injury, is a novel area to potentially identify interventions which may improve the outcome of acute lung injury.     

内毒素诱导大鼠急性肺损伤模型的动态研究

目的:建立内毒素诱导大鼠急性肺损伤的模型并筛选出敏感检测指标。方法:90只wistar大鼠随机分为10组,其中9组以气管内滴注内毒素(Lipopolysaccharide,LPS)建立大鼠急性肺损伤(Acute lung injury,ALI)模型,另一组作为空白对照组。观察造模8、12、24、36、48、72、96、120 h后的肺泡灌洗液(BALF)中肿瘤坏死因子-α(TNF-α)、白介素-6(IL-6)水平、肺组织的病理形态学变化、12h造模组与空白组的BALF中的多形核白细胞(PMN)百分比和蛋白浓度。结果:造模后BALF中的TNF-α、IL-6的浓度随时间延长显著升高且均在24 h达到峰值(P0.01);肺组织病理损伤也逐渐加重,12 h已出现明显的肺泡损伤、肺水肿、炎性细胞浸润等病变;12 h模型组BALF中PMN百分比和蛋白浓度较空白对照组显著增加(P0.01)。结论:在该实验条件下,气管内滴注LPS 8 mg/kg,12 h后即可建立ALI模型,可通过检测BALF中的TNF-α、IL-6浓度及肺组织的病变程度等指标进行模型评价。