Potential role of CD34 in cerebral vasospasm after experimental subarachnoid hemorrhage in rats

Inflammatory responses have been implicated in the elaboration of several forms of central nervous system injury, including cerebral vasospasm after subarachnoid hemorrhage (SAH). A critical event participating in such responses is the recruitment of circulating leukocytes into the inflammatory site. CD34 is a key adhesion molecule responsible for recruitment of monocytes/macrophages and the attachment of leukocytes to endothelial cells. However, it has not been investigated whether, and to what degree, CD34 is induced by SAH and also the role of CD34 in the pathogenesis of cerebral vasospasm following SAH remains unknown. Experiment 1 aimed to investigate the timecourse of the CD34 expression in the basilar artery after SAH. In experiment 2, we chose the maximum time point of vasospasm (day 3) and assessed the effect of monoclonal antibody against CD34 on regulation of cerebral vasospasm. As a result, the elevated expression of CD34 was detected in the basilar artery after SAH and peaked on day 3. After intracisternal administration of CD34 monoclonal antibody, the vasospasm was markedly attenuated after blood injection on day 3. Our results suggest that CD34 is increasingly expressed in a parallel time course to the development of cerebral vasospasm in a rat experimental model of SAH and administration of the specific CD34 antibody could prevent or reduce cerebral vasospasm caused by SAH.     

Angiopoietin-1 is associated with cerebral vasospasm and delayed cerebral ischemia in subarachnoid hemorrhage

Background  

Angiopoietin-1 (Ang-1) and -2 (Ang-2) are keyplayers in the regulation of endothelial homeostasis and vascular proliferation. Angiopoietins may play an important role in the pathophysiology of cerebral vasospasm (CVS). Ang-1 and Ang-2 have not been investigated in this regard so far.     

17beta-estradiol inhibits cyclic strain-induced endothelin-1 gene expression within vascular endothelial cells

It has been well documented previously that 17beta-estradiol (E2) exerts a protective effect on cardiovascular tissue. The possible role of E2 in the regulation of endothelin (ET)-1 production has been previously reported, although the complex mechanisms by which E2 inhibits ET-1 expression are not completely understood. The aims of this study were to examine whether E2 was able to alter strain-induced ET-1 gene expression and also to identify the putative underlying signaling pathways that exist within endothelial cells. For cultured endothelial cells, E2 (1-100 nM), but not 17alpha-estradiol, inhibited the level of strain-induced ET-1 gene expression and also peptide secretion. This inhibitory effect elicited by E2 was able to be prevented by the coincubation of endothelial cells with the estrogen receptor antagonist ICI-182,780 (1 microM). E2 also inhibited strain-enhanced NADPH oxidase activity and intracellular reactive oxygen species (ROS) generation as measured by the redox-sensitive fluorescent dye 2',7'-dichlorofluorescin diacetate and the level of extracellular signal-regulated kinase (ERK) phosphorylation. Furthermore, the presence of E2 and antioxidants such as N-acetylcysteine and diphenylene iodonium were able to elicit a decrease in the level of strain-induced ET-1 secretion, ET-1 promoter activity, ET-1 mRNA, ERK phosphorylation, and activator protein-1 binding activity. In summary, we demonstrated, for the first time, that E2 inhibits strain-induced ET-1 gene expression, partially by interfering with the ERK pathway via the attenuation of strain-induced ROS generation. Thus this study delivers important new insight regarding the molecular pathways that may contribute to the proposed beneficial effects of estrogen on the cardiovascular system.     

动脉瘤性蛛网膜下腔出血后致脑血管痉挛的发病机制分析

脑血管痉挛(cerebral vasospasm,CVS)是指脑动脉在一段时间内的异常收缩状态,目前已知CVS可继发于多种疾病当中,如蛛网膜下腔出血、高血压脑出血、急性颅脑损伤、脑手术后、脑部炎症等.脑血管痉挛是动脉瘤性蛛网膜下腔出血(aneurysmal subarachnoid hemorrhage,SAH)最常见的并发症.严重的脑血管痉挛可造成脑缺血和脑损害,是增加病人死亡和致残最重要的原因.近年来已受到国内外临床医生的更多重视,并且随着分子生物技术的发展,对SAH所致CVS的发病机制有了更多的认识和更新的进展.     

Phosphoramidon prevents cerebral vasospasm following subarachnoid hemorrhage in dogs: the relationship to endothelin-1 levels in the cerebrospinal fluid

There is increasing evidence that the conversion of big endothelin-1 (big ET-1) to endothelin-1 (ET-1) is specifically inhibited by the metalloproteinase inhibitor phosphoramidon. We investigated the effect of phosphoramidon on delayed cerebral vasospasm from subarachnoid hemorrhage (SAH) using a two-hemorrhage canine model. The magnitude of the vasospasm and the drug effect were determined angiographically. On SAH Day 7, diameter of the basilar artery decreased to about 55% of the control value obtained before SAH (on Day 0). Immunoreactive ET (IR-ET) in the cerebrospinal fluid (CSF) significantly increased after SAH (on Day 7). The intracisternal pretreatment of phosphoramidon potently suppressed the decrease in diameter of the basilar artery after SAH, i.e., observed decrease was only about 20%, compared with the value before SAH. In the phosphoramidon group, IR-ET in CSF markedly increased (on SAH Day 2), but the increased levels of IR-ET significantly declined on SAH Day 7. These results clearly indicate that phosphoramidon effectively prevents delayed cerebral vasospasm. Whether the prevention is due to the inhibition of conversion of big ET-1 to ET-1 is now under study.     

大鼠脑血管痉挛时NO和ET—1变化及尼莫地平的影响

目的探讨蛛网膜下腔出血(SAH)后脑血管痉挛(CVS)时脑组织一氧化氮(NO)和内皮素-1(ET-1)含量变化及尼莫地平(ND)对其影响。方法将135只Wistar大鼠随机均分为SAH组、ND处理组和假手术组,观察手术前后基底动脉管径,及24h内局部脑血流量(rCBF)、脑组织NO和ET-1含量动态改变,并行海马病理检查。结果SAH后rCBF明显而持续降低,基底动脉管径显著缩小;海马CAl区锥体细胞严重受损;脑组织NO和ET-1含量均在SAH后1～24h显著增加(P＜0．05～0．01)。ND处理后使上述异常变化均减轻。结论SAH后脑组织NO、ET-1增多可能参与了CVS所致脑损害过程,ND通过减轻CVS和拮抗脑组织NO及ET-1的病理性改变而发挥脑保护作用。     

Changes in responsiveness of the canine basilar artery to endothelin-1 after subarachnoid hemorrhage

The effect of endothelin-1 (ET-1) on the basilar arteries from control and subarachnoid hemorrhage (SAH) dogs were examined. The maximal contraction of the basilar artery in response to ET-1 was markedly decreased in the SAH group. Treatment with 10(-8)M phorbol 12-myristate 13-acetate (PMA) reduced the contractile responses to ET-1 in the basilar arteries from control dogs. ET-1-induced contractions of the basilar arteries from control dogs were similar to those in strips from SAH dogs by the treatment with 10(-8) M PMA. Ca(2+)-induced contraction of the basilar arteries which were depolarized with isotonic K+ (64 mM) were significantly attenuated in SAH dogs. Treatment with PMA also reduced the contractile responses to Ca2+ in the basilar arteries from control dogs. These results indicate that decreased contractile responses of the basilar arteries to ET-1 and Ca2+ in the SAH group may be related to changes in the activity of the protein kinase C in vascular smooth muscle.     

Apelin-13 attenuates early brain injury through inhibiting inflammation and apoptosis in rats after experimental subarachnoid hemorrhage

Molecular Biology Reports - Early brain injury (EBI) has been considered as the major contributor to the neurological dysfunction and poor clinical outcomes of subarachnoid hemorrhage (SAH)....     

Calcium sensitivity of vasospastic basilar artery after experimental subarachnoid hemorrhage

Arteries that develop vasospasm after subarachnoid hemorrhage (SAH) may have altered contractility and compliance. Whether these changes are due to alterations in the smooth muscle cells or the arterial wall extracellular matrix is unknown. This study elucidated the location of such changes and determined the calcium sensitivity of vasospastic arteries. Dogs were placed under general anesthesia and underwent creation of SAH using the double-hemorrhage model. Vasospasm was assessed by angiography performed before and 4, 7, or 21 days after SAH. Basilar arteries were excised from SAH or control dogs (n = 8-52 arterial rings from 2-9 dogs per measurement) and studied under isometric tension in vitro before and after permeabilization of smooth muscle with alpha-toxin. Endothelium was removed from all arteries. Vasospastic arteries demonstrated significantly reduced contractility to KCl with a shift in the EC(50) toward reduced sensitivity to KCl 4 and 7 days after SAH (P < 0.05, ANOVA). There was reduced compliance that persisted after permeabilization (P < 0.05, ANOVA). Calcium sensitivity was decreased during vasospasm 4 and 7 days after SAH, as assessed in permeabilized arteries and in those contracted with BAY K 8644 in the presence of different concentrations of extracellular calcium (P < 0.05, ANOVA). Depolymerization of actin with cytochalasin D abolished contractions to KCl but failed to alter arterial compliance. In conclusion, it is shown for the first time that calcium sensitivity is decreased during vasospasm after SAH in dogs, suggesting that other mechanisms are involved in maintaining the contraction. Reduced compliance seems to be due to an alteration in the arterial wall extracellullar matrix rather than the smooth muscle cells themselves because it cannot be alleviated by depolymerization of smooth muscle actin.     

Regulation of microRNAs miR-30a and miR-143 in cerebral vasculature after experimental subarachnoid hemorrhage in rats

Background

microRNAs (miRNAs) are important regulators of translation and have been implicated in the pathogenesis of a number of cardiovascular diseases, including stroke, and suggested as possible prognostic biomarkers. Our aim was to identify miRNAs that are differentially regulated in cerebral arteries after subarachnoid hemorrhage (SAH), using a rat injection model of SAH and a qPCR-based screen of 728 rat miRNAs. Additionally, serum was analyzed for a possible spill-over to the circulation of regulated miRNAs from the vessel walls.

Results

We identified 482 different miRNAs expressed in cerebral arteries post-SAH. Two miRNAs, miR-30a and miR-143, were significantly upregulated in cerebral arteries after SAH when compared to sham-operated animals. However, none of these exhibited significantly altered serum levels after SAH versus post-sham surgery. The most robust upregulation was seen for miR-143, which has several predicted targets and is a strong regulator of vascular morphology. We hypothesize that miR-30a and miR-143 may play a role in the vascular wall changes seen after SAH.

Conclusions

We report that miR-30a and miR-143 in the cerebral arteries show significant changes over time after SAH, but do not differ from sham-operated rats at 24 h post-SAH. Although this finding suggests interesting novel possible mechanisms involved in post-SAH cerebrovascular changes, the lack of regulation of these miRNAs in serum excludes their use as blood-borne biomarkers for cerebrovascular changes following SAH.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1341-7) contains supplementary material, which is available to authorized users.     

NO信号途径在17β-雌二醇抑制大鼠VSMC ET-1生成中的作用

目的:用培养的血管平滑肌细胞(VSMC)探讨17β-雌二醇抑制内皮素-1(ET-1)生成的机制。方法:分别给予不同浓度的17β-雌二醇(10-9～10-7mol/L)或加入L-NAME作用VSMC不同时间,利用放免法测定ET-1的含量;同时检测ECE-1的活性以及preproET-1mRNA的表达。结果:17β-雌二醇可抑制基础状态下VSMCET-1的生成,其作用与ECE-1活性的改变无关;L-NAME可抑制17β-雌二醇的作用;RT-PCR结果显示,17β-雌二醇可以抑制preproET-mRNA的表达,而L-NAME可逆转17β-雌二醇所致preproET-1 mRNA表达的下降。结论:在基础状态下,17β-雌二醇可抑制VSMCET-1的生成,17β-雌二醇抑制ET-1的生成与ECE-1的活性改变无关,17β-雌二醇主要通过NO信号途径减低VSMCperproET-1 mRNA表达来抑制ET-1的生成。     

Inhibition of Rho kinase by hydroxyfasudil attenuates brain edema after subarachnoid hemorrhage in rats

The blood-brain barrier (BBB) disruption and brain edema are important pathophysiologies of early brain injury after subarachnoid hemorrhage (SAH). This study is to evaluate whether Rho kinase (Rock) enhances BBB permeability via disruption of tight junction proteins during early brain injury. Adult male rats were assigned to five groups; Sham-operated, SAH treated with saline, a Rock inhibitor hydroxyfasudil (HF) (10 mg/kg) treatment at 0.5 h after SAH, HF treatment at 0.5 and 6 h (10 mg/kg, each) after SAH, and another Rock inhibitor Y27632 (10 mg/kg) treatment at 0.5 h after SAH. The perforation model of SAH was performed and neurological score and brain water content were evaluated 24 and 72 h after surgery. Evans blue extravasation, Rock activity assay, and western blotting analyses were evaluated 24 h after surgery. Treatment of HF significantly improved neurological scores 24 h after SAH. Single treatment with HF and Y27632, and two treatments with HF reduced brain water content in the ipsilateral hemisphere. HF reduced Evans blue extravasation in the ipsilateral hemisphere after SAH. Rock activity increased 24 h after SAH, and HF reversed the activity. SAH significantly decreased the levels of tight junction proteins, occludin and zonula occludens-1 (ZO-1), and HF preserved the levels of occluding and ZO-1 in ipsilateral hemisphere. In conclusion, HF attenuated BBB permeability after SAH, possibly by protection of tight junction proteins.     

Effect of endothelin-1 receptor antagonist BQ-123 on basilar artery diameter after subarachnoid hemorrhage (SAH) in rats.

Aim of the study was to quantify cerebral vasospasm in rats after subarachnoid hemorrhage (SAH) by morphometric examination of basilar artery and to evaluate the influence of endothelin receptor blocker BQ-123 on basilar artery constriction. The rat cisterna magna (CM) was cannulated and after 7 days SAH was developed by administration of 100 microl autologic, non-heparinized blood to the CM. The sham subarachnoid hemorrhage was developed by intracisternal administration of 100 microl of artificial cerebrospinal fluid. Endothelin receptor blocker BQ-123 was injected into the CM in a dose of 40 nmol diluted in 50 microl of cerebrospinal fluid 20 min. before SAH, and 24h and 48 h after SAH. After perfusion fixation the brains were removed from the skull and histological preparations of basilar artery were done. The internal diameter and wall thickness of basilar arteries was measured by interactive morphometric method. The most severe vasospasm was found in rats after SAH. The presence of numerous infiltrations composed of neutrophils and macrophages correlated with advanced vasospasm (index of constriction 5 times lower than in normal), suggesting the role of other factors participating in the late phase of vasospasms after SAH. Administration of BQ-123 in the late phase after SAH caused the dilatation of basilar artery. Following the administration of BQ-123 in the late phase (48 h after SAH) the basilar artery dilated, its wall became thinner, and the number of leukocyte infiltrations in the subarachnoid space decreased compared to the values after SAH alone.     

Mechanisms of 17beta-estradiol on the production of ET-1 in ovariectomized rats

In order to clarify the mechanism underlying the possible preventive effect of estrogen on atherogenesis, we investigated the role of 17beta-estradiol (E2) in the regulation of endothelin-1 (ET-1) production in ovariectomized rats, which may contribute to atherogenesis. Female Spragure-Dawly rats were randomly divided into three groups: sham-operated group (sham), ovariectomized group (OVX) and 17beta-estradiol replacement group (OVX + E2, 20 microg(-1).kg.d(-1),s.c.). 4 weeks after operation, the plasma concentration of ET-1, clearance of ET-1, functional ECE activity and preproET-1 mRNA expression in aorta were measured. Concentration of plasma ET-1 change from 107.8 +/- 18.3 pg/ml (sham) and 135.5 +/- 27.6 pg/ml (OVX + E2) to 190.7 +/- 25.5 pg/ml (OVX ) (n = 8, p < 0.05). There was no significant difference in the clearance of 125IET-1 among three groups (p > 0.05). Functional ECE activity was increased in OVX group in comparison to that in sham group (p < 0.05). The OVX increased the preproET-1 mRNA expression in sham, whereas treatment with estrogen reversed these changes (p < 0.05). The present study have shown that estrogen down-regulates plasma ET-1 levels by inhibiting the preproET-1 mRNA expression and functional ECE activity. Clearance of ET-1 was not affected. Inhibition of ET-1 production mediated by modulating ECE activity may be one of the novel mechanisms of the protective of estrogens on the cardiovascular system.     

Geniposide attenuates early brain injury by inhibiting oxidative stress and neurocyte apoptosis after subarachnoid hemorrhage in rats

Molecular Biology Reports - Oxidative stress and neurocyte apoptosis are crucial pathophysiological process in early brain injury (EBI) after subarachnoid hemorrhage (SAH). Geniposide (GNP) has...     

17beta-estradiol inhibits calcium-dependent and -independent contractions in isolated human saphenous vein

Studies suggest that estrogen modulate vascular reactivity but at present its exact mechanism of action has yet to be clarified. The aim of this study was to evaluate the effect of 17beta-estradiol (E2) on calcium-dependent and -independent contractions induced in the human saphenous veins (HSVs). HSVs were obtained from patients undergoing coronary artery bypass graft surgery. The ability of E2 to modulate Ca(2+) entry was assessed by obtaining concentration-response curve to CaCl(2) in the absence or presence of E2. In other experiments intracellular Ca(2+) was depleted by repeated application of phenylephrine in the presence of cyclopiazonic acid (CPA). Then, at the plateau of PGF(2alpha) contraction, E2 or nifedipine (NIF) was added. Involvement of protein kinase C (PKC) in relaxant effect of E2 was evaluated by application of phorbol-12,13-dibutyrate (PDBu) in normal or Ca(2+)-free Krebs' solution. When the contraction was obtained, E2 or NIF was added. In Ca(2+)-free hyperpolarizing solution, pretreatment with E2, concentration dependently reduced contractions induced by cumulative addition of calcium chloride. Furthermore, E2 elicited relaxant effects on the PGF(2alpha)-induced contractions in Ca(2+)-free solution in the presence or absence of CPA. Both E2 and NIF produced significant relaxation in HSV rings contracted by direct activation of PKC in Krebs' solution. However, in Ca(2+)-free solution, NIF failed to induce relaxant effect but E2 kept its effect on the PDBu-induced contraction. These results suggest that the relaxant effect of E2 on HSV is elicited by calcium-dependent and -independent pathways. The calcium-independent pathway may involve PKC inhibition.