加压素在血压调节中的作用

生理范围内的血浆加压素,具有强烈的缩血管作用;但在正常动物,引起血压升高所需的加压素血浆浓度,远远超过最大抗利尿作用所需的浓度。脱水、失血时,加压素对维持动脉血压起重要作用;加压素亦与肾素血管紧张素有互补关系。     

NaCl处理对西伯利亚白刺幼苗生长及离子平衡的影响

以1年生西伯利亚白刺水培幼苗为材料,研究了不同浓度NaCl(0、200、400mmol·L~(-1))处理对幼苗生长及不同器官(根、茎、叶)中Na~+、K~+、Ca~(2+)、Mg~(2+)的吸收、运输与分配的影响,探讨西伯利亚白刺的盐适应机制。结果表明:(1)200mmol·L~(-1) NaCl处理促进了西伯利亚白刺幼苗的生长及叶片肉质化程度,400mmol·L-1 NaCl处理显著抑制其生长。(2)随着NaCl处理浓度的升高,西伯利亚白刺幼苗根、茎、叶中Na~+含量显著增加,且叶中Na~+含量显著高于茎和根中;根系中K~+含量显著增加;根、茎、叶中Ca~(2+)、Mg~(2+)含量在200mmol·L~(-1) NaCl处理下保持平稳或上升,而在400mmol·L-1 NaCl处理下显著下降。(3)各器官中K~+/Na~+、Ca~(2+)/Na~+和Mg~(2+)/Na~+比值总体随NaCl处理浓度的升高呈下降趋势,且根部离子比值始终高于叶片和茎。(4)随着NaCl处理浓度的升高,西伯利亚白刺幼苗根-茎SK,Na显著下降,而根-茎SCa,Na、SMg,Na及茎-叶SK,Na、SCa,Na、SMg,Na逐渐提高。研究发现,西伯利亚白刺的盐适应机制主要是通过植株的补偿生长效应及叶片对Na~+的聚积作用实现的,同时也与根系对K~+的扣留及茎叶对K~+、Ca~(2+)、Mg~(2+)选择性运输能力增强有关。     

室旁核在刺激肾神经传入纤维对血浆皮质醇浓度影响中的作用

本文在氯醛糖麻醉猫中探讨室旁核毁损前、后,电刺激肾神经传入纤维对血浆皮质醇浓度的影响。在动脉压力感受器完整猫中,刺激肾神经传入纤维对血浆皮质醇浓度无明显影响,但在动脉压力感受器去神经和迷走神经切断(SAD+VD)后,电刺激肾神经中枢端引起血浆皮质醇浓度升高。微量注射红藻氨酸毁损双侧室旁核后,可阻断刺激肾神经传入纤维引起的血浆皮质醇浓度升高,这些结果表明:动脉压力感受性反射可抑制刺激猫肾神经传入纤维引起的血浆皮质醇浓度升高;室旁核在刺激肾神经传入纤维引起的血浆皮质醇浓度升高效应中起重要作用。     

影响离体大鼠心肌细胞和蛋白重组脂质体Na^＋—Ca^2＋交换的因素

本工作在离体成年大鼠心室肌细胞和狗心肌肌膜Na~ -Ca~(2 )交换蛋白重组脂质体上,发现预先用哇巴因孵育细胞使细胞内Na~ 浓度升高或降低细胞外Na~ 浓度均使细胞及脂质体的Na~ -Ca~(2 )交换增加。Mn~(2 )对细胞和脂质体的Na~ -Ca~(2 )交换呈剂量依赖性的抑制作用;异搏定则无明显影响;花生四烯酸对Na~ -Ca~(2 )交换有激活作用;过氧化氢引起膜脂质过氧化后,显著促进脂质体的Na~ -Ca~(2 )交换,并呈时间和剂量依赖性。     

在失血性休克兔中静脉注射高张NaCl溶液的升压作用

41只兔,用戊巴比妥钠(25mm/kg)静脉内麻醉。在10min内,动脉失血至平均动脉压(MAP)40mmHg,维持在这个水平30min,然后给予7.5％NaCl溶液或生理盐水,其量为失血量的1/10。静脉注射(n=6)和肱动脉注射(n=5)高张NaCl都引起MAP,脉压(PP)显著升高,心率(HR)加快。所有兔存活。静脉注射生理盐水(n=6),循环功能不能恢复,5只兔死于失血后的1—3h,另1只兔死于10h。两侧颈部迷走神经切断(n=12)不影响静脉注射高张NaCl溶液(n=6)的有益作用。所有兔存活。但静脉注射生理盐水(n=6),所有免死于失血后1—3h。肾上腺素α、β阻断剂不能阻断高张NaCl溶液升高MAP和PP的作用。这些结果表明,高张NaCl溶液对重度失血性休克兔有良好作用。这种作用与迷走神经完整与否无关。肾上腺素α、β阻断剂不影响这种良好作用。     

兔侧脑室注射胰高血糖素对血清总胆固醇和甘油三酯浓度的影响

我们最近曾报道,向兔侧脑室内注射胰高血糖素有明显降低血浆自由脂肪酸的作用。本工作又进一步观察了它对空腹血清总胆固醇和甘油三酯浓度的影响。结果发现:(1)对血清总胆固醇浓度无明显作用;(2)能引起血清甘油三酯浓度的下降,且与剂量有依赖关系,在注射后的 75min降低最显著,以后则逐渐恢复;(3)皮下注射阿托品(0.2mg/kg)或静脉注射心得安(5mg/kg)均不能消除侧脑室注射胰高血糖素降低血清甘油三酯的作用;(4)静脉注射酚妥拉明(5mg/kg)能阻断侧脑室注射胰高血糖素的降低血清甘油三酯的作用。这些结果表明脑内的胰高血糖素对血清甘油三酯的影响可能是通过肾上腺素α-受体起作用的。     

刺激清醒大鼠躯体神经对失血性低血压的升压效应

在清醒雄性大鼠中经静脉抽出血液总量的约50%,造成失血性低血压。对照组大鼠在失血后不予处理。刺激组大鼠在失血后半小时用低频电脉冲刺激坐骨神经30min。刺激组动物的平均动脉压在刺激肘和刺激停止后2小时内均显著高于对照组。在同时记录内脏神经放电的动物中还看到,刺激坐骨神经时交感神经活动显著加强。这可能和血压、心率的恢复有关。在失血动物中刺激坐骨神经引起的升压效应不能被静脉内注射纳洛酮(8mg/kg)翻转;预先注射纳洛酮也不能阻断这种升压效应。在用水合氯醛麻醉的大鼠中,失血后刺激坐骨神经仍能引起升压反应。但如在刺激坐骨神经前静脉注射东莨菪碱(8—20mg/kg),则在多数动物中上述升压反应的幅度显著减小,甚至消失。实验结果表明,在失血性低血压的大鼠中,刺激坐骨神经可促进机体代偿反应,进一步加强交感神经活动,有利于血压的恢复。这一效应可能需要胆硷能递质参与,而内啡肽系统似乎不起重要作用。     

兔侧脑室内注射八肽胆囊收缩素对血浆自由脂肪酸及血糖浓度的影响

本工作通过脑内埋藏套管,向兔双侧侧脑室内注射微量八肽胆囊收缩素(CCK-8),观察对空腹血浆自由脂肪酸(FFA)和血糖浓度的影响,结果如下:(1)侧脑室内注射引起血浆FFA 浓度明显下降,但血糖浓度无明显改变,静脉注射,血浆 FFA 不仅未下降,反而明显升高,血糖浓度也无明显改变。(2)注射苄胺唑啉和心得安不能消除侧脑室注射 CCK-8所引起的血浆 FFA 下降。(3)注射阿托品和切断膈下迷走神经以阻断胆碱能神经的作用后,侧脑室注射 CCK-8不再引起血浆 FFA 浓度下降。从上述结果看来,侧脑室注射 CCK-8降低血浆 FFA 浓度的作用,不是由于 CCK-8吸收入血所致,而是脑内 CCK-8浓度升高所产生的特异作用。这个作用可能是通过迷走神经引起的,与交感神经活动的关系不大。     

胃粘膜Na~+-K~+-Mg~(2+)-ATPase在适应性细胞保护机制中的作用

本文观察了胃粘膜(Na~+-K~+-Mg~(2+))-ATPase在适应性细胞保护机制中的作用,并分析了其与内源性PG的关系。结果表明,哇巴因(一种(Na~+-K~+-Mg~(2+))-ATPase的抑制剂)可部分抑制胃蛋白酶150U(溶于0.1mol/L盐酸中)和20％乙醇的适应性细胞保护作用,并呈现明显的量效关系。用上述两种弱刺激灌胃后15min,胃粘膜(Na~+-K~+-Mg~(2+))-ATPase活力明显升高,也呈现明显的量效关系。预先给予消炎痛以抑制内源性PG的合成,则可阻断弱刺激所诱发的胃粘膜(Na~+-K~+-Mg~(2+))-ATPase活力的升高;若在此基础上再给予外源性PGE_2,又可解除消炎痛的阻断作用。这些结果说明,弱刺激通过内源性PG,进而促进胃粘膜(Na~+-K~+-Mg~(2+))-ATPase活力升高,使粘膜抵抗损伤的能力增强,可能是其保护作用的重要机制之一。     

内毒素休克家兔脑区、脑脊液、血浆中脑啡肽含量的改变及纳洛酮的抗休克作用

本工作在戊巴比妥钠麻醉的家兔上进行。采用夹闭肠系膜上动脉阻断血流方法建立内毒紫休克的实验模型。用放射免疫分析法测定了休克前后脑区、脑脊液及血浆中脑啡肽含量的变化,并观察了脑室或静脉注射纳洛酮的抗休克效应。结果如下:1.休克时,下丘脑、延脑、桥脑的亮脑啡肽含量显著升高,中脑无明显变化、丘脑、纹状体下降。脑脊液和血浆中亮脑啡肽明显增加。外周静脉血与肾静脉血中无显著差别。2.侧脑室或静脉注射纳洛酮,均可使休克动物的血压回升,延长存活时间。脑室注射的升压数值略大,维持升压时间也较长。实验结果提示:脑啡肽参与内毒素休克过程。断阿片样物质的作用,可能是治疗内毒素休克的一个途径。     

Stimulation of cardiac sympathetic nerve activity by central angiotensinergic mechanisms in conscious sheep

Central actions of angiotensin play an important role in cardiovascular control and have been implicated in the pathogenesis of hypertension and heart failure. One feature of centrally or peripherally administered angiotensin is that the bradycardia in response to an acute pressor effect is blunted. It is unknown whether after central angiotensin this is due partly to increased cardiac sympathetic nerve activity (CSNA). We recorded CSNA and arterial pressure in conscious sheep, at least 3 days after electrode implantation. The effects of intracerebroventricular infusions of ANG II (3 nmol/h for 30 min) and artificial cerebrospinal fluid (CSF) (1 ml/h) were determined. The response to intracerebroventricular hypertonic saline (0.6 M NaCl in CSF at 1 ml/h) was examined as there is evidence that hypertonic saline acts via angiotensinergic pathways. Intracerebroventricular angiotensin increased CSNA by 23 +/- 7% (P < 0.001) and mean arterial pressure (MAP) by 7.6 +/- 1.2 mmHg (P < 0.001) but did not significantly change heart rate (n = 5). During intracerebroventricular ANG II the reflex relation between CSNA and diastolic blood pressure was significantly shifted to the right (P < 0.01). Intracerebroventricular hypertonic saline increased CSNA (+9.4 +/- 6.6%, P < 0.05) and MAP but did not alter heart rate. The responses to angiotensin and hypertonic saline were prevented by intracerebroventricular losartan (1 mg/h). In conclusion, in conscious sheep angiotensin acts within the brain to increase CSNA, despite increased MAP. The increase in CSNA may account partly for the lack of bradycardia in response to the increased arterial pressure. The responses to angiotensin and hypertonic saline were losartan sensitive, indicating they were mediated by angiotensin AT-1 receptors.     

Hemodynamic effects of hypertonic saline in the conscious rat

The present study examines the role of vasopressin and the sympathetic nervous system on the hemodynamic effects of an infusion of hypertonic saline (NaCl 1.5 M) in conscious rats. The cardiovascular response to hypertonic saline was similar in both untreated and hexamethonium-pretreated rats. Mean arterial pressure increased by 15 mmHg as a consequence of the elevation of total peripheral resistance, while cardiac index was decreased. The administration of an antagonist to the pressor activity of vasopressin in rats with intact reflexes, partially decreased mean arterial pressure and total peripheral resistance and increased cardiac index toward basal values. In contrast, the hemodynamic response to hypertonic saline was totally reverted when the vasopressin antagonist was injected in the hexamethonium-pretreated rats. The results of the present study indicate that the hypertensive response induced by hypertonic saline in conscious rats is due to the vasoconstrictor effects of both vasopressin and the sympathetic nervous system.     

Vasopresin and Human Hypertension

1. Two clinical studies are reported which investigate: (1) the regulation of vasopressin release in moderate hypertensive subjects not under treatment compared to normotensives and, (2) the effects of antihypertensive treatment on vasopressin and on its osmoregulation in moderate hypertensives.2. In the first study two stimuli facilitating vasopressin release (active upright position and hypertonic saline infusion) and a stimulus inhibiting vasopressin release (hypotonic saline infusion) have been applied to 13 moderate essential hypertensives and 8 control normotensives. In the second study, limited to hypertensives, the effects on plasma vasopressin and other plasma and urine variables, of either acute (by clonidine, n = 6 or by sodium nitroprusside, n = 6) or chronic (antihypertensive treatment for 1 month, n = 8) blood pressure lowering, before and after the i.v. administration of a hypertonic NaCl solution, were investigated.3. Baseline plasma vasopressin was not different in hypertensive and in normotensive subjects. Upright posture and hypertonic challenge augmented, while hypotonic saline reduced plasma vasopressin levels with no difference between the two groups. Acute, but not chronic, lowering of blood pressure increased plasma vasopressin from 1.6 ± 0.63 to 3.4 ± 0.7 pg/mL (p < 0.05); administration of hypertonic saline further increased vasopressin to 10.8 ± 2.22 (p < 0.01) in the acute and to 6.0 ± 1.03 pg/mL (p < 0.01) in the chronic study.4. No significant alterations of the regulation of vasopressin have been found in moderate, uncomplicated hypertension. Moreover, acute lowering of blood pressure facilitated the release of vasopressin and its osmoregulation while a chronic antihypertensive treatment did not interfere with a normal control of vasopressin secretion.     

Central control of cardiac baroreflex responses during peripheral hyperosmolality

Acute increases in peripheral osmolality evoke a pressor response and baroreflex-mediated bradycardia. These experiments were designed to determine if the fall in heart rate during peripheral sodium loading is 1) equivalent to bradycardia accompanying phenylephrine (PE) infusion, 2) mediated by the parasympathetic (PSNS) or sympathetic (SNS) nervous system, and 3) controlled by the median preoptic nucleus (MnPO). Male rats received an intravenous infusion of isotonic saline, hypertonic saline (2.5 M NaCl), or PE for 30 min. Blood pressure increased equivalently in the hypertonic NaCl and PE groups. However, heart rate fell more in animals infused with PE. Furthermore, pretreatment with methylatropine to block the PSNS had no effect on bradycardia, whereas blocking SNS influences on cardiac function significantly attenuated the fall in heart rate during peripheral hyperosmolality. Finally, kainic acid administration in the MnPO before testing increased bradycardia observed during hypertonic saline loading. Taken together, these data suggest that acute peripheral hyperosmolality acts at the MnPO to reduce cardiac SNS withdrawal during the pressor response that reduces the associated baroreflex bradycardia.     

Increase in plasma atrial natriuretic polypeptide (ANP) following sodium load in anesthetized rats

To investigate the releasing mechanisms of atrial natriuretic polypeptide (ANP), identical amounts of 5% glucose solution, isotonic (0.9%) or hypertonic (5%) saline were infused intravenously for 5 min (2 ml/min) in anesthetized rats. At the same time, plasma immunoreactive ANP (ir-ANP) was measured using a direct radioimmunoassay. Plasma ir-ANP increased after infusion of 5% glucose solution (P less than 0.01) and isotonic saline (P less than 0.05), and returned rapidly to the basal levels in the recovery period. Plasma ir-ANP increased to a greater degree in the group infused with hypertonic saline than in the other two groups. The major immunoreactive component of increased ir-ANP was identified as alpha-rat ANP, a 28 amino acid residue, by using reverse phase high-performance liquid chromatography. These results suggest that sodium ions may be a stimulating factor of ANP release as well as volume expansion.     

Responses of the neurosecretory cells of the freshwater snail,Indoplanorbis exustus to hydrothermal stress

Changes in the neurosecretory cell cytology of I. exustus subjected to hypertonic saline (0.1 ml of 1.5%/snail) loading and thermal stress (35°C) for two hours, have been investigated. Of the two types of neurosecretory cells A and B that are present in the central nervous system (CNS) of I. exustus, striking changes were evident only in B cells. After both treatments, there was about 33% decline in NSM (Neurosecretory material) intensity. However, the nuclear diameter of B cells was significantly (P < 0.001) increased in the snails administrated with hypertonic saline unlike in those exposed to 35°C wherein significant (P < 0.005) decline was evident. The adaptive significance of the neuroendocrine system of I exustus is discussed in relation to hydrothermal stress.     

Renal nerve inhibition by central NaCl and ANG II is abolished by lesions of the lamina terminalis

The lamina terminalis is situated in the anterior wall of the third ventricle and plays a major role in fluid and electrolyte homeostasis and cardiovascular regulation. The present study examined whether the effects of intracerebroventricular infusion of hypertonic saline and ANG II on renal sympathetic nerve activity (RSNA) were mediated by the lamina terminalis. In control, conscious sheep (n = 5), intracerebroventricular infusions of 0.6 M NaCl (1 ml/h for 20 min) and ANG II (10 nmol/h for 30 min) increased mean arterial pressure (MAP) by 6 +/- 1 (P < 0.001) and 14 +/- 3 mmHg (P < 0.001) and inhibited RSNA by 80 +/- 6 (P < 0.001) and 89 +/- 7% (P < 0.001), respectively. Both treatments reduced plasma renin concentration (PRC). Intracerebroventricular infusion of artificial cerebrospinal fluid (1 ml/h for 30 min) had no effect. In conscious sheep with lesions of the lamina terminalis (n = 6), all of the responses to intracerebroventricular hypertonic saline and ANG II were abolished. In conclusion, the effects of intracerebroventricular hypertonic saline and ANG II on RSNA, PRC, and MAP depend on the integrity of the lamina terminalis, indicating that this site plays an essential role in coordinating the homeostatic responses to changes in brain Na(+) concentration.     

Heart atrial auriectomy reduces the diuretic and natriuretic responses to a hypertonic saline load

Acute bilateral atrial auriectomy in anesthetized dogs reduced diuresis and natriuresis induced by both extracellular fluid volume expansion with isotonic saline and a hypertonic saline load. Since a hypertonic saline load, in contrast to isotonic saline infusion, was not accompanied by a significant increase in central venous pressure it is proposed that either increased plasma osmolality or plasma sodium concentration (or both) participate in the modulation of the atrial natriuretic mechanism.     

Prolonged hypobaric hypoxemia attenuates vasopressin secretion and renal response to osmostimulation in men.

Effects of hypobaric hypoxemia on endocrine and renal parameters of body fluid homeostasis were investigated in eight normal men during a sojourn of 8 days at an altitude of 4,559 m. Endocrine and renal responses to an osmotic stimulus (5% hypertonic saline, 3.6 ml/kg over 1 h) were investigated at sea level and on day 6 at altitude. Several days of hypobaric hypoxemia reduced body weight (-2.1 +/- 0.4 kg), increased plasma osmolality (+5.3 +/- 1.4 mosmol/kgH(2)O), elevated blood pressure (+12 +/- 1 mmHg), reduced creatinine clearance (122 +/- 6 to 96 +/- 10 ml/min), inhibited the renin system (19.5 +/- 2.0 to 10.9 +/- 0.9 mU/l) and plasma vasopressin (1.14 +/- 0.16 to 0.38 +/- 0.06 pg/ml), and doubled circulating levels of norepinephrine (103 +/- 16 to 191 +/- 35 pg/ml) and endothelin-1 (3.0 +/- 0.2 to 6.3 +/- 0.6 pg/ml), whereas urodilatin excretion rate decreased from day 2 (all changes P < 0.05 compared with sea level). Plasma arginine vasopressin response and the antidiuretic response to hypertonic saline loading were unchanged, but the natriuretic response was attenuated. In conclusion, chronic hypobaric hypoxemia 1) elevates the set point of plasma osmolality-to-plasma vasopressin relationship, possibly because of concurrent hypertension, thereby causing hypovolemia and hyperosmolality, and 2) blunts the natriuretic response to hypertonic volume expansion, possibly because of elevated circulating levels of norepinephrine and endothelin, reduced urodilatin synthesis, or attenuated inhibition of the renin system.     

外源海藻糖对小麦幼苗耐盐性的影响

以盐敏感小麦品种鲁麦15为材料,分别用完全Hoagland营养液、150mmol／L NaCl和150mmol／L NaCl 10mmol／L海藻糖处理小麦幼苗,测定小麦幼苗生长、离子含量、根系质膜H^ -ATPase、SOD活性、MDA含量等指标,旨在探讨外源海藻糖在抗盐性中的作用。结果表明：外源海藻糖可明显缓解盐胁迫对小麦幼苗生长的抑制作用;明显提高NaCl胁迫条件下小麦幼苗叶片中K^ 的含量,降低Na^ 的含量,降低其Na^ ／K^ ;提高NaCl胁迫条件下小麦幼苗SOD活性,降低MDA的含量,降低细胞质膜透性,缓解根系质膜H^ -ATPase活性抑制。以上结果表叫外源海藻糖可能通过增加活性氧清除能力、缓解质膜伤害、维持胞质离子稳态提高植物抗盐性。