Alleviation of ischemia-induced brain edema by activation of the central histaminergic system in rats

We have reported that facilitation of central histaminergic activity prevents the development of ischemia-induced brain injury. Since cerebral edema is a major cause of brain damage, we studied effects on brain edema of postischemic administration of L-histidine, a precursor of histamine, and thioperamide, a histamine H(3)-receptor antagonist, both of which enhance central histaminergic activity. Focal cerebral ischemia for 2 h was provoked by transient occlusion of the right middle cerebral artery in rats, and the water content and infarct size were determined 24 h after reperfusion. Changes in the extracellular concentration of histamine were examined in the striatum by a microdialysis procedure, and effects of these compounds were evaluated. Repeated administration of L-histidine (1000 mg/kg x 2, i.p.), immediately and 6 h after reperfusion, reduced the increase in the water contents in ischemic regions. Simultaneous administration of thioperamide (5 mg/kg, s.c.) with L-histidine (1000 mg/kg, i.p.) completely prevented edema formation and alleviated brain infarction, although a single dose of L-histidine, immediately after reperfusion, showed no benefits. The striatal histamine level was gradually increased after reperfusion as well as during ischemia. Simultaneous administration of thioperamide with L-histidine markedly increased the brain histamine concentration, and the value increased up to 230% of that in the saline group 5 - 6 h after reperfusion. L-Histidine alone did not affect the increase in the histamine output after ischemia. These findings suggest that further activation of the central histaminergic system after initiation of cerebral ischemia prevents development of ischemia-induced brain edema.     

Suppression of inflammatory cell recruitment by histamine receptor stimulation in ischemic rat brains

Inflammation is a crucial factor in the development of ischemia-induced brain injury. Since facilitation of central histaminergic activity ameliorates reperfusion injury, effects of postischemic administration of L-histidine, a precursor of histamine, and thioperamide, a histamine H3 receptor antagonist, on inflammatory cell infiltration were evaluated in a rat model of transient occlusion of the middle cerebral artery. After reperfusion for 12, 24, or 72 h following 2 h of occlusion, brain slices were immunohistochemically stained with antibodies against myeloperoxidase and CD68, which were markers of polymorphonuclear leukocytes and macrophages/microglia, respectively. After reperfusion for 12-24 h, the number of neutrophils on the ischemic side increased markedly, whereas the increase was not observed on the contralateral side. Administration of L-histidine (1000 mg/kg x 2, i.p.), immediately and 6 h after reperfusion, reduced the number of neutrophils to 52%. Simultaneous administration of thioperamide (5 mg/kg, s.c.) further decreased the number of neutrophils to 32%. Likewise, the ischemia induced increase in the number of CD68-positive cells after 24 h was suppressed by L-histidine injections. The L-histidine administration decreased the number of CD4+ T lymphocytes on both ischemic and contralateral sides after 12 h, and concurrent administration of thioperamide prolonged the effect. Although administration of mepyramine (3 nmol, i.c.v.) did not affect suppression of leukocyte infiltration, ranitidine tended to reverse the effect of L-histidine. These data suggest that enhancement of central histaminergic activity suppresses inflammatory cell recruitment after ischemic events through histamine H2 receptors, which may be a mechanism underlying the protective effect of L-histidine.     

亚低温对沙土鼠海马CA1区缺血后细胞凋亡的影响

目的 探讨亚低温对沙土鼠短暂性脑缺血后海马CA1区细胞凋亡的影响。方法 阻断沙土鼠双侧颈总动脉15分钟造成前脑缺血模型。实验动物随机分为假手术组、缺血再灌注组、亚低温治疗组。用光镜观察海马CA1区的神经元死亡过程．采用原位末端标记(TUNEL)法检测凋亡的神经元。结果 脑缺血后．海马CA1区锥体神经元于再灌注后2～7天死亡,再灌注第3天神经元开始凋亡．第5天达高峰。亚低温治疗抑制了缺血后海马CA1区神经元的死亡及细胞凋亡。结论 亚低温治疗对脑缺血后的神经元具有保护作用．并可抑制神经细胞凋亡的发生。     

亚低温对沙土鼠前脑缺血/再灌注海马CA1区神经元凋亡及Bcl-2、Caspase-3表达的影响

目的通过动态观察亚低温(33℃,4h)对沙土鼠前脑缺血/再灌注后不同时间点海马CA1区Bcl-2、Caspase-3的表达及凋亡细胞的影响,探讨亚低温脑保护的可能机制。方法采用沙土鼠双侧颈总动脉阻断5min前脑缺血/再灌注损伤模型,随机分为假手术组,常温再灌注组,低温假手术组,低温再灌注组,每组根据再灌注的不同时间点(2h、4h、1d、3d、5d)又分为5个对应的亚组(n=6)。在预定时间点行开阔法迷宫检查,TUNEL法检测海马CA1区的凋亡细胞,HE染色检测海马存活细胞,免疫组化检测Bcl-2、Caspase-3在海马各区的动态变化。结果4h亚低温可减少缺血沙土鼠1、3、5d的探索活动及CA1区的凋亡细胞,增加存活细胞,明显抑制脑缺血后海马CA1区Caspase-3早期的表达(2、4h),但对Bcl-2的表达没有影响。结论4h亚低温对沙土鼠5min前脑缺血有确切的保护作用,对Bcl-2的表达没有影响,抑制海马CA1区缺血/再灌注早期Caspase-3的激活可能是其减少海马细胞凋亡,产生脑保护作用的机制之一。     

Suppression of ischemia/reperfusion liver injury by histamine H4 receptor stimulation in rats

Inflammatory reactions play an important role in ischemia/reperfusion injury in various organs. Since histamine is closely related to inflammatory reactions and immune responses, effects of postischemic administration of histaminergic ligands on ischemia-induced liver injury were examined in rats. Animals were subjected to warm ischemia for 30 min by occlusion of the left portal vein and hepatic artery under halothane anesthesia, and liver damage was evaluated by assessing plasma concentrations of transaminases after 24 h. Warm ischemia for 30 min provoked severe liver damage after 24 h, and the plasma concentrations of alanine transaminase (ALT) and aspartate transaminase (AST) were 8600 I.U./l and 13100 I.U./l, respectively. Subcutaneous injections of histamine twice, immediately and 6 h after reperfusion (20 mg/kg, each), alleviated liver damage. The plasma concentrations of ALT and AST in the histamine group were 35% and 24% of those in the control group, respectively. Neither mepyramine (3 mg/kg x 2), an H1 antagonist, nor cimetidine (15 mg/kg x 2), an H2 antagonist, affected the outcome in histamine-treated rats. However, thioperamide (5 mg/kg x 2), an H3/H4 antagonist, completely abolished the alleviation caused by histamine. Administration of dimaprit (1-10 mg/kg x 2), an H2/H4 agonist, mimicked the protective effect of histamine, and the effect of dimaprit is reversed by thioperamide, whereas neither H1 nor H2 antagonists altered the outcome caused by dimaprit. Clozapine (15 mg/kg x 2), an H4 agonist, also mimicked the protective effect of histamine. These findings indicate that stimulation of histamine H4 receptors after ischemic events prevents development of reperfusion injury in the liver.     

The potential benefits of 1.5% hetastarch as a cardioplegia additive

INTRODUCTION: Myocardial edema is a clinically relevant problem found in post-ischemic reperfused hearts. The objective of this study was to understand the effects of hetastarch-supplemented cardioplegia on post-ischemic edema and cardiac function. MATERIALS AND METHODS: Swine hearts were arrested with either St. Thomas Hospital cardioplegia with (n=6) or without (n=7) 1.5% hetastarch. Following hypothermic global ischemia, hearts were crystalloid reperfused in a four-chamber isolated working mode. RESULTS: Hetastarch decreased myocardial water content gains after three hours of reperfusion (control versus hetastarch, hour 0: 67+/-5% versus 67+/-3%, NS; hour 3: 82+/-2% versus 78+/-1%, p=0.1). Post-ischemic control group left ventricular end-diastolic pressures were elevated after 1h (in mm Hg, hour 0: 13+/-2, hour 1: 19+/-3, hour 2: 19+/-3, hour 3: 20+/-2) but remained stable (<16 mm Hg) in the hetastarch group. Post-reperfusion creatine phosphokinase perfusate levels in the hetastarch treated hearts were decreased (control: 1.6 IU/l/g versus hetastarch: 0.6 IU/l/g, p=0.15). DISCUSSION/CONCLUSIONS: Hetastarch treatment delayed myocardial edema development and attenuated myocardial creatine kinase efflux, thereby preserving diastolic function.     

Renal ischemia-induced increase in vascular permeability is limited by hypothermia

The purpose of the present work was to evaluate the kallikrein-kinin system and effects of hypothermia during renal ischemia and reperfusion. Male C57BL/KSJmdb mice were subjected to 20 or 60 min ischemia for different periods of reperfusion. Our results demonstrate that short periods of ischemia followed by reperfusion did not cause significant alterations in kallikrein activity, Evans Blue (EB) extravasation, prokallikreins, myeloperoxidase activity or plasma creatinine concentration. Edema was evident at 1 h reperfusion in the treated mice, but returned to basal values after 24 h reperfusion. Kallikrein activities and EB extravasation showed a significant increase in 60 min ischemic mice. Myeloperoxidase activity in the kidney of the mice confirmed net infiltration in the group with 60 min ischemia and 24 h reperfusion. The generation of kinins and activation of matrix degrading enzymes by tissue kallikrein, liberated from both renal and infiltrated leukocytes, could be responsible at least in part for the damage observed in the kidney of mice subject to 60 min ischemia and reperfusion. The hypothermia significantly reduced the inflammatory process in the 60 min ischemic mice, and did prevent an increase in vascular permeability. Nevertheless, the tissue edema was not shown to change between normothermic and hypothermic ischemic mice.     

Protective effect of FR183998, a Na+/H+ exchange inhibitor, against postischemic injury after normothermic and prolonged hypothermic ischemia in isolated perfused rat hearts.

Inhibition of Na+/H+ exchanger has been reported to protect hearts from ischemia and reperfusion injury. However, the effect of Na+/H+ exchange inhibition on hypothermic ischemic injury has not been extensively studied and the results are inconsistent. The purpose of this study was to investigate whether inhibition of Na+/H+ exchange with FR183998 (5-(2,5-dichlorothiphen-3-yl)-3-[(2-dimethylaminoethyl)carbamoyl]benzoylguanidine dihydrochloride), a potent Na+/H+ exchange inhibitor, would show protective effects against postischemic cardiac dysfunction after hypothermic as well as normothermic ischemia and furthermore, after hypothermic cardioplegic arrest in isolated rat hearts. FR183998 (3.2 x 10(-8)-3.2 x 10(-7) M) improved post-ischemic recovery of left ventricular developed pressure and suppressed the increase of left ventricular end diastolic pressure in a dose-dependent manner, after not only 45 min of normothermic ischemia but also 6 h of hypothermic ischemia. Furthermore, FRI 83998 (10(-7)-10(-6) M) significantly reduced creatine kinase release during reperfusion after 3 h of hypothermic ischemia with cardioplegia. These results indicate that FR183998 has a potent protective effect on postischemic cardiac dysfunction after normothermic and hypothermic ischemia, and also on reperfusion injury after hypothermic cardioplegic arrest, suggesting that its effect would be additive to cardioplegia.     

Myocardial protection after systemic application of L-arginine during reperfusion

The L-arginine-nitric oxide (NO) pathway plays an important role in ischemia-reperfusion injury. In the present study we investigated the role of NO-precursor L-arginine on cardiac and pulmonary function after reversible hypothermic ischemia. Twelve anesthetized dogs underwent cardiopulmonary bypass. After 60 minutes of hypothermic cardiac arrest, reperfusion was started with application of either saline vehicle (control, n = 6) or L-arginine (40 mg/kg i.v. bolus then 3 mg/kg i.v. infusion during the first 20 minutes of reperfusion, n = 6). The vasodilative response to acetylcholine was significantly higher in the L-arginine group (P < 0.05). The preload recruitable stroke work of the left ventricle decreased significantly after reperfusion, however remained unchanged in the L-arginine group. Arterial blood gas analysis did not show any difference between the two groups. Plasma L-arginine concentration reached peak level at 20 minutes of administration (675.0 +/- 66.6 versus 207.7 +/- 14.5 in the L-arginine group, P < 0.05) and returned to baseline at 40 minutes, while in the control group remained unchanged during ischemia and reperfusion (276.2 +/- 71.6 versus 283.8 +/- 38.5, P < 0.05). Plasma nitrite concentration followed L-arginine changes parallel, however nitrate levels increased slower. Supplementation with L-arginine during reperfusion prevents myocardial and endothelial dysfunction, however does not have any overriding effect on pulmonary function. Considerably rapid elimination of plasma L-arginine was demonstrated during early reperfusion.     

A selective inhibitor of Na+/Ca2+ exchanger, SEA0400, preserves cardiac function and high-energy phosphates against ischemia/reperfusion injury

The Ca2+ overload by Ca2+ influx via Na+/Ca2+ exchanger (NCX) is a critical mechanism in myocardial ischemia/reperfusion injury. We investigated protective effects of a novel selective inhibitor of NCX, SEA0400, on cardiac function and energy metabolism during ischemia and reperfusion. Langendorff-perfused rat hearts were exposed to 35 minutes global ischemia and 40 minutes reperfusion. Using 31P nuclear magnetic resonance spectroscopy, cardiac phosphocreatine (PCr), ATP, and pHi were monitored. SEA0400 did not change the basic cardiac function, but improved the recovery of left ventricular developed pressure (LVDP) after reperfusion (27.6 +/- 4.9 mm Hg in control, 101.2 +/- 19.3 mm Hg in 0.1 microM, and 115.5 +/- 13.3 mm Hg in 1 microM SEA0400, means +/- SE, n = 6, P < 0.05). SEA0400 reduced left ventricular end-diastolic pressure and increased coronary flow after reperfusion. SEA0400 improved the recoveries of cardiac phosphocreatine and ATP after reperfusion, but did not affect pHi. There were significant linear correlations between left ventricular developed pressure and cardiac phosphocreatine (r = 0.79, P < 0.05), and left ventricular developed pressure and ATP (r = 0.80, P < 0.05). However, SEA0400 increased the incidence and duration of reperfusion ventricular arrhythmias. SEA0400 added only after reperfusion also improved both the contractile function and energy metabolism. It is concluded that the selective inhibition of NCX may be effective to preserve high-energy phosphates and to improve cardiac function after reperfusion, but may not be able to prevent fatal arrhythmias.     

In vivo occupancy of histamine H3 receptors by thioperamide and (R)-alpha-methylhistamine measured using histamine turnover and an ex vivo labeling technique.

In the brain, the H3 type of histamine receptor has a pre-synaptic autoreceptor inhibitory role which regulates neuronal release and synthesis of histamine. To examine the interaction of the selective H3 receptor antagonist thioperamide with H3 receptors in the brain in vivo, we have used a functional and non-functional measurement of H3 receptor occupancy. In three species (rat, guinea-pig and mouse) peripheral administration of thioperamide caused dose-related increases in histamine turnover in the cerebral cortex (whole brain was examined in the mouse) and, in the same tissues, inhibited the ex vivo binding of the selective H3 receptor agonist [3H](R)-alpha-methylhistamine ([3H]-RAMH). The peak effect of thioperamide to inhibit ex vivo binding of [3H]RAMH was observed approximately 30 min after i.p. administration, whilst the maximum increase in histamine turnover did not occur until after at least 100 min. At a pretreatment time of 30 min, the ED50 of thioperamide to inhibit ex vivo binding of [3H]RAMH binding in the rat, guinea-pig and mouse brain was found to be 2.0 +/- 0.2, 4.8 +/- 0.6 and 2.6 +/- 0.3 mg/kg (mean +/- SEM, N = 4), respectively. We have also examined the effect of peripheral administration of RAMH on ex vivo binding of [3H]RAMH in rat cortex. Qualitatively and quantitatively similar results to those of thioperamide were observed following i.p. administration of RAMH to rats (ED50 = 3.9 +/- 0.4 mg/kg, mean +/- SEM, N = 4). An effect of RAMH on histamine turnover in rat cortex could not be determined as this compound displayed significant cross-reactivity with the antibodies used in the radioimmunoassay to measure histamine and telemethylhistamine. These data indicate that, following peripheral administration, both thioperamide and RAMH penetrate the brain where they can subsequently interact with H3 receptors. It would appear that binding of thioperamide to H3 receptors is linked with a concomitant increase in histamine turnover in the brain. In conclusion, the ex vivo binding technique, particularly when coupled with measurement of histamine turnover, should provide a valuable means for investigating the ability of any peripherally administered compound to cross the blood-brain barrier and subsequently interact with histamine H3 receptors.     

The angiotensin II AT1-receptor antagonist candesartan improves functional recovery and reduces the no-reflow area in reperfused ischemic rat hearts.

It is not yet clear if cardiac angiotensin II is involved in the pathophysiology of myocardial ischemia/ reperfusion injury. The aim of this study was to investigate the effect of the angiotensin II AT1-receptor antagonist candesartan on myocardial functional recovery in isolated rat hearts subjected to ischemia and reperfusion. Three groups of hearts perfused in the Langendorff mode with Krebs-Henseleit buffer under constant pressure received either vehicle (n = 7), candesartan, 1 nM (n = 6), or 100 nM (n = 7) at the start of 30 min of global ischemia. The recovery of the double product was significantly higher in the candesartan, 100 nM, group (75+/-9.2%) than in the vehicle group (40+/-5.1%; p < 0.05). At the end of 30 min of reperfusion, left ventricular end diastolic pressure was lower in rats given candesartan, 100 nM, than in rats given vehicle (10+/-4.3 vs. 38+/-4.8 mm Hg; p < 0.05). After ischemia and reperfusion, there was a large no-reflow area in the vehicle group (28+/-3.1% of the left ventricle), which was reduced by candesartan, 100 nM (12+/-1.3%; p < 0.05). In rats given candesartan, 1 nM, there was a trend toward a higher recovery of the double product (73+/-13.4%), a lower left ventricular end-diastolic pressure (29+/-6.6 mm Hg), and a smaller no-reflow area (19+/-3.5% of the left ventricle) compared with the rats receiving vehicle. These trends did, however, not reach statistical significance. Our results demonstrate that candesartan reduces myocardial ischemia/reperfusion injury, thus indicating that endogenous cardiac angiotensin II is involved in the tissue injury after myocardial ischemia and reperfusion.     

Modulation of the discriminative stimulus effects of cocaine and methamphetamine by the histaminergic system.

The role of the histaminergic system in the discriminative stimulus effects of cocaine and methamphetamine was examined in rats trained to discriminate between saline and cocaine (10 mg/kg) or methamphetamine (1.0 mg/kg). L-histidine (400 mg/kg), a precursor of histamine, significantly enhanced the discriminative stimulus effects of cocaine and methamphetamine. Previous studies have revealed the existence of several histamine receptor types, H1-, H2-, and H3-receptors. These enhancing effects of L-histidine on the discriminative stimulus effects of cocaine and methamphetamine were attenuated by 5.0 mg/kg of pyrilamine (an H1-receptor antagonist), but not by 1.0 mg/kg of zolantidine (an H2-receptor antagonist), suggesting that these enhancing effects of L-histidine were mediated through the activation of H1-receptors. Thioperamide (7.5 mg/kg), an H3-receptor antagonist, also significantly enhanced the discriminative stimulus effects of cocaine and methamphetamine. However, neither pyrilamine nor zolantidine affected the enhancing effects of thioperamide, unlike the results attained with L-histidine. Therefore our findings suggest that the histaminergic system may modify the discriminative stimulus effects of cocaine and methamphetamine mediated through H1- and H3-receptors.     

Mexiletine protects myocardium during acute ischemia by opening sarcolemmal K-ATP channel: studies in closed-chest acute ischemia model in rabbits

OBJECTIVES: Although we have previously shown that mexiletine might protect myocardium during acute ischemia, the precise mechanism was unclear. In the present study, the mechanism of this effect was examined by using selective K-ATP channel blockers in closed-chest acute ischemia model in rabbits. METHODS: In 40 rabbits, the large left ventricular branch (LLVB) of the left coronary artery was occluded for 30 minutes by inserting a catheter bead (varphi0.5-0.7 x 1.5 mm) through the left carotid artery and was then reperfused. The rabbits were divided into the following 5 groups: (1) control group (n = 8); (2) mexiletine (Mex) group (n = 8, continuous infusion of Mex 24 mg/kg/h); (3) Mex + 5-hydroxydecanoate (5HD) group (n = 8, preadministration of 5HD, 5 mg/kg, followed by Mex infusion); (4) Mex + HMR1098 (selective sarcolemmal K-ATP channel blocker) group (n = 8, preadministration of HMR1098, 3 mg/kg, followed by Mex infusion); and (5) pilsicainide (Pil) group (n = 8, continuous infusion of Pil 18 mg/kg/h). The incidence of ventricular arrhythmia, hemodynamics, left ventricular ejection fraction (LVEF), and infarction size were evaluated and compared among the 5 groups. RESULTS: The incidence of ventricular arrhythmia was lower in groups treated with Mex than the control. The hemodynamics did not show significant differences among the 5 groups. Although the LVEF at 30 minutes after reperfusion was lower in the Mex group (41 +/- 3%, P < 0.001) than the control group (48 +/- 3%), the LVEF at 360 minutes after reperfusion had recovered and became higher in the Mex group (62 +/- 3%, P < 0.001) than the control group (55 +/- 3%). The infarction size was smaller in the Mex group (30 +/- 5%, P = 0.028) than the control group (51 +/- 8%). These effects of Mex were negated by HMR1098 but not by 5HD and were larger than the effects of Pil. CONCLUSIONS: Mex showed improvement in the LVEF in the later phase after reperfusion as well as a reduction in ventricular arrhythmia. The cardioprotective effect of Mex was considered to appear through its action on the sarcolemmal K-ATP channel.     

Evaluation of the receptor selectivity of the H3 receptor antagonists, iodophenpropit and thioperamide: an interaction with the 5-HT3 receptor revealed.

1. In the present study we evaluated the receptor selectivity of the potent histamine H3 receptor antagonist, iodophenpropit (IPP) in comparison with the prototype antagonist, thioperamide. 2. IPP proved to be a potent competitive H3 receptor antagonist as measured against (R)-alpha-methylhistamine-induced inhibition of electrically-evoked contractions of the guinea-pig jejunum (pA2 = 9.12 +/- 0.06, Schild slope: 1.0 +/- 0.1, n = 8). In the same assay, thioperamide was slightly less potent (pA2 = 8.9 +/- 0.2). 3. In radioligand binding studies, IPP showed a high affinity for the H3 receptor. Displacement of [125I]-IPP binding to rat cortex membranes by unlabelled IPP resulted in a Ki value of 0.97 +/- 0.06 nM (n = 3). In contrast, IPP showed only a weak affinity for the histamine H1- and H2 receptor. Displacement of [3H]-mepyramine and [125I]-iodoaminopotentidine binding to respectively guinea-pig H1- and human H2 receptors by IPP resulted in Ki values of 1.71 +/- 0.32 microM (n = 3) and 2.28 +/- 0.81 microM (n = 3). For thioperamide the affinities for the H1-, H2- and H3 receptor were respectively > 10 microM, > 10 microM and 4.3 +/- 1.6 nM (n = 7). 4. Testing IPP and thioperamide in 39 different receptor binding assays revealed that IPP showed relatively high affinity for the 5-hydroxytryptamine 5-HT3 receptor (Ki = 11 +/- 1 nM, n = 3), the alpha 2-adrenoceptor (Ki = 120 +/- 5 nM, n = 3) and the sigma receptor (Ki = 170 +/- 70 nM, n = 3). Thioperamide showed relatively high affinity for the 5-HT3 receptor (Ki = 120 +/- 30 nM, n = 3) and the sigma receptor (Ki = 180 +/- 90 nM, n = 3). 5. Due to the low density of histamine H3 receptors in the brain, the interaction of IPP with the 5-HT3-, the alpha 2- and the sigma receptor might interfere with [125I]-IPP binding to rat cortex membranes. Yet, in this preparation [125I]-IPP binding was not influenced by ondansetron, yohimbine or haloperidol.(ABSTRACT TRUNCATED AT 250 WORDS)     

Na+/H+ exchange inhibition with cardioplegia reduces cytosolic [Ca2+] and myocardial damage after cold ischemia

Cold cardioplegia protects against reperfusion damage. Blocking Na+/H+ exchange may be as protective as cardioplegia by improving the left ventricular pressure (LVP)-[Ca2+] relationship after cold ischemia. In guinea pig isolated hearts subjected to cold ischemia (4 h, 17 degrees C) and reperfusion, the cardioprotective effects of a Krebs-Ringer (KR) solution, a cardioplegia solution, a KR solution containing the Na+/H+ exchange inhibitor eniporide (1 microM), and a cardioplegia solution containing eniporide were compared. Treatments were given before and initially after cold ischemia. Systolic and diastolic [Ca2+] were calculated from indo-1 fluorescence transients recorded at the LV free wall. During ischemia, diastolic [Ca2+] increased in each group but more so in the KR group. Peak systolic and diastolic [Ca2+] on initial reperfusion were highest after KR and smallest after cardioplegia + eniporide. After reperfusion, systolic-diastolic LVP (% of baseline) and infarct size (%), respectively, were KR, 47 +/- 3%, 37 +/- 4%; cardioplegia, 71 +/- 5%*, 20 +/- 2.2%*; KR + eniporide, 73 +/- 5%*, 11 +/- 3%* dagger; and cardioplegia + eniporide 77 +/- 3%*, 10 +/- 1.4%* dagger (*P 相似文献   

Central endogenous histamine modulates sympathetic outflow through H3 receptors in the conscious rabbit

1. This study examined the role of histamine H(3) receptors in vagal and sympathetic autonomic reflexes in the conscious rabbit, and in rabbit and guinea-pig isolated right atria. 2. The baroreceptor-heart rate reflex (baroreflex), Bezold-Jarisch-like and nasopharyngeal reflexes were assessed after these treatments (i.v.; with H(1) and H(2) receptor block): (i) vehicle (saline; n=11); (ii) H(3) receptor agonist, (R)-alpha-methylhistamine (R-alpha-MH) 100 micro g kg(-1)+100 micro g kg(-1) h(-1) (n=9); (iii) H(3) receptor antagonist, thioperamide 1 mg kg(-1)+1 mg kg(-1) h(-1) (n=11); (iv) R-alpha-MH and thioperamide (n=6); and (v) H(2) and H(3) antagonist, burimamide 6.3 mg kg(-1)+6.3 mg kg(-1) h(-1) (n=4). 3. R-alpha-MH caused a thioperamide-sensitive fall in mean arterial pressure (MAP) of 8+/-1 mmHg and tachycardia of 18+/-2 bpm (P<0.0005). Burimamide was without effect, however thioperamide elicited an increase in MAP of 4+/-1 mmHg (P<0.01), but no change in heart rate (HR). 4. R-alpha-MH caused a 44% decrease in the average gain of the baroreflex (P=0.0001); this effect was antagonised by thioperamide. Thioperamide caused a parallel rightward shift in the barocurve with an increase in MAP of 5 mmHg (P<0.05). Burimamide had no effect on the baroreflex. The vagally mediated bradycardia elicited by the Bezold-Jarisch and nasopharyngeal reflexes was unaffected by H(3) receptor ligand administration. 5. R-alpha-MH (相似文献   

亚低温对沙土鼠前脑缺血再灌注海马神经元凋亡及p38活性的影响

目的通过动态观察亚低温(33℃,4h)对沙土鼠前脑缺血再灌注后不同时间点海马神经元凋亡细胞及磷酸化p38表达的影响,探讨亚低温脑保护的可能机制。方法采用沙土鼠双侧颈总动脉阻断5min前脑缺血再灌注损伤模型,随机分为假手术组,常温再灌注组,低温假手术组,低温再灌注组。每组根据再灌注的不同时间点(2h、4h、d1、3、d5)又分为5个对应的亚组(n=6)。在预定时间点行开阔法迷宫检查,TUNEL法检测海马CA1/3区的凋亡细胞,免疫组化检测pp38在海马各区的动态变化。结果4h亚低温可显著减少缺血沙土鼠d1、d3、d5的探索活动及CA1/区的凋亡细胞,明显抑制脑缺血后海马CA1区pp38早期的表达(2h、4h)。结论4h亚低温治疗对沙土鼠5min前脑缺血有明确的保护作用,抑制海马CA1区缺血再灌注早期pp38的激活可能是其减少海马细胞凋亡、产生脑保护作用的机制之一。     

亚低温对大鼠局灶性脑缺血时谷氨酸及一氧化氮的影响

目的　观察 3 3℃亚低温对脑缺血及再灌注时细胞外液中谷氨酸的影响 ,以及脑缺血组织一氧化氮的变化。方法　采用栓线法大鼠大脑中动脉再灌注模型 ,检测不同时点谷氨酸及一氧化氮的含量。结果　在脑缺血期间 ,亚低温组不同时点上谷氨酸及一氧化氮水平均明显低于正常体温组。结论　亚低温时对脑缺血的保护作用机制可能与减少兴奋性神经递质谷氨酸及一氧化氮的释放有关。     

Inhibition of granulocyte cAMP-phosphodiesterase by rolipram in vivo is not sufficient to protect the canine myocardium from reperfusion injury.

The purpose of this study was to determine whether the selective type IV cAMP-phosphodiesterase inhibitor rolipram could reduce the reperfusion injury that occurs during myocardial infarction in the anesthetized dog. This question was tested in pentobarbital-anesthetized dogs subject to 90 min of regional myocardial ischemia and 5 h of reperfusion. Dogs were treated with 1 mg/kg of rolipram (i.v., 15 min before reperfusion) followed by a 1 mg/kg/h infusion over the duration of the 5 h of reperfusion. Rolipram was tested in vitro for efficacy in inhibition of isolated human neutrophil superoxide generation. Rolipram produced significant inhibition of superoxide production over the concentration range of 0.1-100 microM rolipram when neutrophils were stimulated with a 10(-7) M concentration of the chemotactic peptide f-Met-Leu-Phe. Rolipram significantly inhibited superoxide generation from human and canine granulocytes in whole blood stimulated by zymosan. Therapeutic concentrations of rolipram in the blood of dogs were achieved during the course of the experiments with a plasma concentration of 0.761 +/- 0.095 micrograms/ml (2.76 +/- 0.34 microM) at the time of reperfusion, and 0.574 +/- 0.098 micrograms/ml (2.08 +/- 0.36 microM) at the end of the reperfusion period. The relative severity of myocardial ischemia between the two treatment groups was similar as assessed with radiolabeled microsphere measurement of myocardial blood flow. Transmural myocardial blood flows were not significantly different between the two groups after coronary occlusion (control, 0.05 +/- 0.01 ml/min/g, n = 6, vs. rolipram, 0.18 +/- 0.07 ml/min/g, n = 6; p = 0.48).(ABSTRACT TRUNCATED AT 250 WORDS)