In vivo receptor binding of benidipine and amlodipine in mesenteric arteries and other tissues of spontaneously hypertensive rats

The present study was undertaken to characterize the in vivo 1,4-dihydropyridine (DHP) receptor binding of long-acting 1,4-DHP calcium channel antagonists in the mesenteric artery and other tissues of SHR. In vivo specific binding of (+)-[3H]PN 200-110 in the SHR mesenteric artery was significantly (36.6-49.7 %) reduced 1-8 h after oral administration of benidipine (1.84 micromol/kg). A greater reduction in (+)-[3H]PN 200-110 binding in the mesenteric artery was observed at a higher dose (5.53 micromol/kg) of this drug. This dose of benidipine also reduced significantly the in vivo specific (+)-[3H]PN 200-110 binding in the aorta but not in the myocardium and cerebral cortex. Following oral administration of amlodipine (17.6 micromol/kg), a significant (51.7-94.2 %) reduction in (+)-[3H]PN 200-110 binding was seen at 1-18 h in the mesenteric artery and at 1-12 h in the aorta. Only a slight reduction in myocardial and cerebral cortical (+)-[3H]PN 200-110 binding was seen following amlodipine administration. In contrast, oral administration of nifedipine (28.9 micromol/kg) reduced markedly in vivo (+)-[3H]PN 200-110 binding in all the tissues of SHR at 1-6 h, and the degree and time-course of the reduction did not differ significantly among the tissues. The area under the curve (AUC) for the receptor occupancy vs time was calculated from the reduction rate (%) of in vivo specific (+)-[3H]PN 200-110 binding. The ratios of the AUCmesenteric artery to AUCaorta or AUCmesenteric artery to AUCmyocardium after oral administration of benidipine and amlodipine were greater than the corresponding value for nifedipine. The degree and time-course of arterial receptor occupancy by benidipine and amlodipine agreed well with those of their hypotensive effects in the conscious SHR. In conclusion, the present study demonstrates that benidipine and amlodipine may occupy, in a more selective and sustained manner, 1,4-DHP receptors in arterial tissues than in other tissues of SHR, and thus, such receptor binding specificity may be responsible for the long-lasting hypotensive effects of these drugs.     

Uncoupling of eNOS causes superoxide anion production and impairs NO signaling in the cerebral microvessels of hph-1 mice

J. Neurochem. (2012) 122, 1211-1218. ABSTRACT: In this study, we used the GTP cyclohydrolase I-deficient mice, i.e., hyperphenylalaninemic (hph-1) mice, to test the hypothesis that the loss of tetrahydrobiopterin (BH(4) ) in cerebral microvessels causes endothelial nitric oxide synthase (eNOS) uncoupling, resulting in increased superoxide anion production and inhibition of endothelial nitric oxide signaling. Both homozygous mutant (hph-1(-/-) ) and heterozygous mutant (hph-1(+/-) mice) demonstrated reduction in GTP cyclohydrolase I activity and reduced bioavailability of BH(4) . In the cerebral microvessels of hph-1(+/-) and hph-1(-/-) mice, increased superoxide anion production was inhibited by supplementation of BH(4) or NOS inhibitor- L- N(G) -nitro arginine-methyl ester, indicative of eNOS uncoupling. Expression of 3-nitrotyrosine was significantly increased, whereas NO production and cGMP levels were significantly reduced. Expressions of antioxidant enzymes namely copper and zinc superoxide dismutase, manganese superoxide dismutase, and catalase were not affected by uncoupling of eNOS. Reduced levels of BH(4) , increased superoxide anion production, as well as inhibition of NO signaling were not different between the microvessels of male and female mice. The results of our study are the first to demonstrate that, regardless of gender, reduced BH(4) bioavailability causes eNOS uncoupling, increases superoxide anion production, inhibits eNOS/cGMP signaling, and imposes significant oxidative stress in the cerebral microvasculature.     

Development of a fluorogenic ADAMTS-7 substrate

The extracellular protease ADAMTS-7 has been identified as a potential therapeutic target in atherosclerosis and associated diseases such as coronary artery disease (CAD). However, ADAMTS-7 inhibitors have not been reported so far. Screening of inhibitors has been hindered by the lack of a suitable peptide substrate and, consequently, a convenient activity assay. Here we describe the first fluorescence resonance energy transfer (FRET) substrate for ADAMTS-7, ATS7FP7. ATS7FP7 was used to measure inhibition constants for the endogenous ADAMTS-7 inhibitor, TIMP-4, as well as two hydroxamate-based zinc chelating inhibitors. These inhibition constants match well with IC₅₀ values obtained with our SDS-PAGE assay that uses the N-terminal fragment of latent TGF-β–binding protein 4 (LTBP4S-A) as a substrate. Our novel fluorogenic substrate ATS7FP7 is suitable for high throughput screening of ADAMTS-7 inhibitors, thus accelerating translational studies aiming at inhibition of ADAMTS-7 as a novel treatment for cardiovascular diseases such as atherosclerosis and CAD.     

Endogenous reductions in N-methyl-d-aspartate receptor activity inhibit nitric oxide production in the anoxic freshwater turtle cortex

Increased nitric oxide (NO) production from hypoxic mammalian neurons increases cerebral blood flow (CBF) but also glutamatergic excitotoxicity and DNA fragmentation. Anoxia-tolerant freshwater turtles have evolved NO-independent mechanisms to increase CBF; however, the mechanism(s) of NO regulation are not understood. In turtle cortex, anoxia or NMDAR blockade depressed NO production by 27+/-3% and 41+/-5%, respectively. NMDAR antagonists also reduced the subsequent anoxic decrease in NO by 74+/-6%, suggesting the majority of the anoxic decrease is due to endogenous suppression of NMDAR activity. Prevention of NO-mediated damage during the transition to and from anoxia may be incidental to natural reductions of NMDAR activity in the anoxic turtle cortex.     

Temporal Profile of Astrocytes and Changes of Oligodendrocyte-Based Myelin Following Middle Cerebral Artery Occlusion in Diabetic and Non-diabetic Rats

The long-term impacts of cerebral ischemia and diabetic ischemia on astrocytes and oligodendrocytes have not been defined. The objective of this study is to define profile of astrocyte and changes of myelin in diabetic and non-diabetic rats subjected to focal ischemia.Focal cerebral ischemia of 30-min duration was induced in streptozotocin-induced diabetic and vehicle-injected normoglycemic rats. The brains were harvested for immunohistochemistry of glial fibrillary acidic protein (GFAP) and 2'', 3''-cyclic nucleotide 3''-phosphodiesterase (CNPase) at various reperfusion endpoints ranging from 30 min up to 28 days. The results showed that activate astrocytes were observed after 30 min and peaked at 3 h to 1 day after reperfusion in ischemic penumbra, and peaked at 7 days of reperfusion in ischemic core. Diabetes inhibited the activation of astrocytes in ischemic hemisphere. Demyelination occurred after 30 min of reperfusion in ischemic core and peaked at 1 day. Diabetes caused more severe demyelination compared with non-diabetic rats. Remyelination started at 7 days and completed at 14 and 28 days in ischemic region. Diabetes inhibited the remyelination processes. It is concluded that ischemia activates astrocytes and induces demyelination. Diabetes inhibits the activation of astrocytes, exacerbates the demyelination and delays the remyelination processes. These may contribute to the detrimental effects of hyperglycemia on ischemic brain damage.     

Effect of ischemic preconditioning on cerebral blood flow after subsequent lethal ischemia in gerbils

Ischemic tolerance, the phenomenon where a sublethal ischemic preconditioning protects the brain against a subsequent lethal ischemia, has been widely studied. Studies have been done on cerebral blood flow levels prior to the lethal ischemia, but the hemodynamic pattern after global ischemia with ischemic preconditioning has not been reported. Sequential changes in regional cerebral blood flow (rCBF) in gerbil hippocampus after 5 min global ischemia with or without 2 min ischemic preconditioning were studied to determine if ischemic preconditioning affects rCBF. Four different treatments were given: (1) sham-operated, (2) 2 min ischemia, (3) non-preconditioned, and (4) preconditioned. Groups (1) and (2) (both groups n = 5) were given a 24-h recovery period and the rCBF was measured for baseline values. 24 h after sham-operation (3) and 2 min ischemia (4), gerbils were subjected to 5 min ischemia followed by 1 h, 6 h, 1-day or 7-day reperfusion periods (all groups n = 5). Although no regional difference was observed in the recovery pattern of rCBF, the values of rCBF were significantly higher in the preconditioned group throughout whole brain regions including hippocampus. These results indicate that ischemic preconditioning facilitated the recovery of rCBF after 5 min global ischemia. It needs further study to determine whether the protecting effects of preconditioning relate to the early recovery of rCBF or not. However, our results could be interpreted that the early recovery of rCBF may lead to benefits for cell survival in the CA1 neuron, probably facilitating other protecting mechanisms.     

心房钠尿肽对内毒素血症大鼠肺动脉和主动脉舒缩的影响

目的:探讨心房钠尿肽(ANP)对内毒素血症大鼠(ETR)肺动脉和主动脉内皮和平滑肌细胞的调节作用.方法:24只雄性SD大鼠随机分为对照组,模型组(LPS组),治疗组(ANP组).各组分别静脉注射生理盐水、2 mg/kg的LPS和2 mg/kg LPS与2μg/kg的ANP,4 h后处死动物分离肺动脉、主动脉,进行离体血管务体外灌注实验.结果:LPS组、ANP治疗组主动脉环和LPS组肺动脉环对去甲肾上腺素(NE)引起的收缩作用在NE低浓度时较对照组减弱(P＜0.01),在较高浓度时较对照组均明显增强(P＜0.01);主动脉环ANP治疗组与LPS组无显著差异(P＞0.05);肺动脉环ANP治疗组与对照组相比无显著差异(P＞0.05).ANP可明显改善ETR离体主动脉和肺动脉对乙酰胆碱(ACh)的舒张反应(P＜0.01),ANP可提高ETR离体主动脉和主动脉环对硝普钠(SNP)引起的舒张反应的敏感性(P＜0.01).结论:ANP对ETR肺动脉和主动脉内皮和平滑肌细胞可能存在调节作用.     

Comparative analysis of vascular endothelial cell activation by TNF-α and LPS in humans and baboons

As an Old World nonhuman primate, baboons have been extensively used for research on dyslipidemia and atherogenesis. With increasing knowledge about the endothelium's role in the initiation and progression of atherosclerosis, the value of the baboon model can be increased by developing it for research on the role of dysfunctional endothelium in atherogenesis. Toward that goal, we have established and validated methods of isolating and culturing baboon femoral artery endothelial cells (BFAECs) and compared baboon endothelial cellular characteristics with those of humans. Our results indicated that baboon and human endothelial cells share similar growth and culture behaviors. As was the case for human endothelial cells, BFAECs responded to tumor necrosis factor (TNF)-α stimulation with increased expression of adhesion molecules (maximum increase for intracellular adhesion molecule (ICAM): 1.76±0.26-fold; vascular cell adhesion molecule (VCAM): 1.65±0.25-fold; E-selectin: 2.86±0.57-fold). However, BFAECs were hyporesponsive to lipopolysaccharide (LPS) (range, 0.25–20 μg/mL) in adhesion molecule expression, whereas 1 μg/mL LPS induced 2.14- to 3.71-fold increases in human endothelial cells. The differential responses to LPS were not related to TLR-2 and toll-like receptor (TLR)-4 expression on the cell surface. And baboon microvascular endothelial cells had similar features as BFAECs. We observed constitutive expression of interleukin (IL)-6, IL-8, granulocyte macrophage colony-stimulating factor (GM-CSF), and monocyte chemoattractant protein (MCP)-1 in both human and baboon endothelial cells, and these cytokines were further induced by TNF-α and LPS. We also demonstrated that the responses to TNF-α or LPS varied among baboons maintained under the same dietary and environmental conditions, suggesting that response may be controlled by genetic factors.     

双丹胶囊对大鼠脑缺血再灌注损伤保护作用研究

目的：观察双丹胶囊对大鼠局灶性脑缺血再灌注损伤的脑梗死体积、自由基变化的影响,探讨双丹胶囊对脑缺血损伤的保护作用。方法：复制大鼠中动脉缺血再灌注模型,分别给药干预,在给药后观察行为学、脑梗死率、脑指数、脑含水量、SOD、MAD等指标。结果：双丹胶囊可改善动物的神经行为学评分,明显降低动物的脑梗死率、脑指数、脑含水量、提高脑组织SOD活性、降低MDA含量,并成剂量依赖。结论：双丹胶囊对脑缺血再灌注损伤具有保护作用。