Biological Time-Related Changes in Tolerance of Male Rats to Hypoxia*—I. Survival Rate and Carbohydrate Metabolism

Investigations were carried out on male Wistar rats, synchronized in standard conditions to a light-dark regiment (LD 12:12 with L from 0600 to 1800). Rats exposed to hypoxia equivalent to 10,500m at a clock-hour of 1000 had a survival time twice as long as that of animals exposed at 2200. Data from this study indicate the ability to mobilize energy stores through the conversion of liver glycogen to glucose along with circadian differences in hormonal response (e.g. corticosterone and insulin) contributes to the tolerance to hypoxia being greater during diurnal rest than nocturnal activity in rats.     

Short-term Hypoxia Transiently Increases Dopamine β-Hydroxylase Immunoreactivity in Glomus Cells of the Rat Carotid Body

Under long-term hypoxia, noradrenaline (NA) content in the carotid body (CB) increases, suggesting that NA plays an important role in CB chemotransduction. However, it is unknown whether short-term hypoxia upregulates NA biosynthesis in CB. Therefore, we examined dopamine β-hydroxylase (DBH) expression in the CB of rats exposed to hypoxia (10% O₂) for 0 to 24 hr with immunoblotting and immunohistochemistry. Using immunoblotting, the signal intensity for DBH appeared to be the most intense in rats exposed to hypoxia for 12 hr. Using immunohistochemistry, DBH immunoreactivity was observed in the cytoplasm of some glomus cells and varicosities in controls and rats exposed to hypoxia for 6 hr. In rats exposed to hypoxia for 12 hr, DBH immunoreactive intensities in DBH-positive glomus cells were significantly higher compared with controls (p<0.05). In the CB of rats exposed to hypoxia for 18 and 24 hr, DBH immunoreactive intensities in DBH-positive glomus cells were significantly lower than that of rats exposed to hypoxia for 12 hr (p<0.05). These results demonstrate that DBH immunoreactivity is transiently increased in glomus cells by short-term hypoxia, suggesting that NA biosynthesis is transiently facilitated in glomus cells at an early stage of hypoxia.     

Short-term Hypoxia Increases Tyrosine Hydroxylase Immunoreactivity in Rat Carotid Body

Neurochemical and morphological changes in the carotid body are induced by chronic hypoxia, leading to regulation of ventilation. In this study, we examined the time courses of changes in immunohistochemical intensity for tyrosine hydroxylase (TH) and cellular volume of glomus cells in rats exposed to hypoxia (10% O₂) for up to 24 hr. Grayscale intensity for TH immunofluorescence was significantly increased in rats exposed to hypoxia for 12, 18, and 24 hr compared with control rats (p<0.05). The transectional area of glomus cells was not significantly different between experimental groups. The TH fluorescence intensity of the glomus cells exhibited a strong negative correlation with the transectional area in control rats (Spearman''s ρ = −0.70). This correlation coefficient decreased with exposure time, and it was lowest for the rats exposed to hypoxia for 18 hr (ρ = −0.18). The histogram of TH fluorescence intensity showed a single peak in control rats. The peaks were gradually shifted to the right and became less pronounced in hypoxia-exposed rats, suggesting that a hypoxia-induced increase in TH immunoreactivity occurred uniformly in glomus cells. In conclusion, this study demonstrates that short-term hypoxia induces an increase in TH protein expression in rat carotid body glomus cells. (J Histochem Cytochem 58:839–846, 2010)     

Neonatal intermittent hypoxia and hypertension

Obstructive apnea during sleep is accompanied by intermittent hypoxia (IH) leading to hypertension and other cardiovascular disturbances. A comparative evaluation of long-term effects of the neonatal IH on the cardiovascular functions was performed in normotensive Sprague-Dawley and spontaneously hypertensive rats (SHR). The newborn rats were placed for 30 days to conditions of IH (8% and 21% O₂, alternating every 90 s for 12 h/day). Control groups of rats were constantly kept in normoxia. By 6 months, in the spontaneously hypertensive rats exposed to IH at the period of wakefulness there was a statistically significant increase (as compared with control) of the systolic (185.8 ± 1.7 and 169.9 ± 1.4 mm Hg, correspondingly, p < 0.010 and the diastolic pressure (96.2 ± 4.9 and 86.0 ± 2.6 mm Hg, correspondingly, p < 0.01). During sleep, the systolic and diastolic pressure in these rats was higher than in control animals by 10 mm Hg (p < 0.01) and 12 mm Hg (p < 0.01), its decrease during sleep being absent. In SHR submitted to IH there was an increase in the power ratio of the heart rate variability from 0.9 ± 0.15 to 1.5 ± 0.17, which indicates a shift of the sympathico-parasympathetic balance in this group towards predominance of the sympathetic component. In the Sprague-Dawley rats exposed to neonatal hypoxia, the above-indicated changes were not prominent. These peculiarities of the hypertensive rats allow establishing connection of the genetic factor with the sympathetic mechanism providing long-term consequences of the neonatal IH for the cardiovascular control in the SHR.     

自主神经系统参与低氧下的免疫调节作用

目的：探讨低氧条件下自主祖辈 经系统对大鼠脾淋巴细胞转化的调节作用。方法：检测减压低氧下外周血中神经递质与脾淋巴细胞转化。结果：大鼠5km低氧暴露24h,脾淋巴细胞对丝裂原反应性下降,外周交感神经损毁后则可阻断低氧对此的抑制作用;小鼠于真空瓶中0.07MPa缺氧10min血浆中去甲肾上腺素（NE）与肾上腺素（E）均明显升高;大鼠5km低氧24h,血浆中乙酰胆碱水平下降;体外培养的大鼠脾淋邓细胞中加入不同浓度的乙酰胆碱,胸腺嘧啶核苷掺入作用呈浓度依赖性增加。结论：以上结果提示自主神经系统参与低氧下的免疫调节,交感神经系统有免疫抑制作用,副交感神经起免疫增强作用。     

模拟高原低压低氧环境对大鼠心脏结构和功能影响*

目的: 探讨模拟海拔7 000 m低压低氧环境对大鼠心脏结构和功能的影响。方法: 96只雄性SD大鼠随机分为常压常氧对照组(对照组)和高原低压低氧组(低氧组)。低氧组大鼠放置于大型多因素复合环境模拟实验舱内,模拟海拔7 000 m高原环境饲养。实验舱运行时间23 h/d,控制昼夜比大约12 h∶12 h;对照组置于相同条件的常压常氧环境下饲养。低氧组又根据低氧时间不同分为3 d组、7 d组、14 d组和28 d组,同时设置与各低氧组相对应的对照组,每组均12只大鼠。应用超声心动图、心电图、血常规、血生化综合评价高原低压低氧环境下大鼠心脏结构和功能变化,心肌组织HE染色分析心肌组织病理变化。结果: 与相同时间点对照组比较①随着低压低氧暴露时间延长,大鼠体质量增长明显缓慢,动脉血氧饱和度14 d和28 d显著降低(P＜0.05)。②低氧组大鼠左心室舒张末期前壁厚度(LVAWD)及左心室舒张末期后壁厚度(LVPWD)于28 d时显著升高(P＜0.05)。舒张末期左心室腔直径(LVIDD)及收缩末期左心室腔直径(LVIDS)于28 d时明显降低(P＜0.05,P＜0.01)。左心室射血分数(EF%)、左室短轴缩短率(FS%)、肺静脉血流峰值速度(PV peak velocity)及肺静脉血流峰梯度(PV peak gradient)于低氧7 d 下降明显(P＜0.05,P＜0.01),低氧14 d 及低氧28 d 恢复。③低氧组大鼠心电图QRS间期与QT间期在14 d 及28 d 显著延长(P＜0.05,P＜0.01)。ST段3 d和7 d显著压低(P＜0.05,P＜0.01)。R波振幅于 7 d、14 d 及28 d 显著降低(P＜0.05,P＜0.01)。④低氧各组大鼠红细胞计数(RBC)、血红蛋白(HGB)、红细胞分布宽度(RDW)均明显升高(P＜0.01)。血小板计数(PLT)于14 d 及28 d 明显下降(P＜0.01)。血肌酐(CR)于14 d及28 d显著升高(P＜0.05)。⑤心肌病理提示,低氧3 d 和7 d 可见心肌水肿、肌浆凝聚,横纹不清,灶状变性和坏死伴炎性细胞浸润。低氧14 d 和28 d 心肌组织炎症性病理损伤逐渐减少。心肌细胞逐渐肥大,成纤维细胞逐渐增生。心肌间质胶原纤维逐渐增多等心肌代偿修复性病理变化显著。结论: 暴露于模拟海拔7 000 m低压低氧环境下3 d大鼠心功能明显降低,7 d最为显著。     

大鼠急性低氧模型尿液蛋白质组的变化

本研究旨在探究急性低氧对大鼠尿液蛋白质组造成的影响。在该项研究中,大鼠被放置于模拟海拔5 000 m高原环境的低氧舱内24 h。在低氧后0、12、24 h收集尿液样本,并使用液相色谱-串联质谱技术（LC-MS/MS）对尿蛋白进行分析。与低氧0 h相比,低氧12 h组共鉴定到144个差异蛋白,低氧24 h组共鉴定到129个差异蛋白。功能分析显示,差异蛋白参与了一系列与低氧应激有关的生物学通路,如抗氧化应激、糖酵解、补体和凝血级联反应等。研究结果表明,尿液蛋白质组可以反映急性低氧刺激后的显著变化。这些发现可能提供了一种判断机体缺氧状态的方法,有助于辅助检测缺氧状态。     

Excitability changes of cortical neurons during the postnatal period in rats exposed to prenatal hypobaric hypoxia

Pregnant rats were exposed to intermittent hypobaric hypoxia (at a simulated altitude of 7000 m or 5000 m) and the excitability of cortical neurons of their pups was tested. Stimulation of the sensorimotor cortex of rats prenatally exposed to hypoxia shortened the duration of cortical afterdischarges in 12-day-old rats, but did not change the excitability in 25-day-old animals. Shortening of the first afterdischarge in 35-day-old rats but the prolongation of the first afterdischarge in adult rats (as compared to the duration of cortical afterdischarges in rats not exposed to prenatal hypoxia) were registered. The possible mechanisms of different excitability of cortical neurons in rats prenatally exposed to hypobaric hypoxia are discussed.     

睡眠中间断低氧对大鼠下丘脑-垂体-肾上腺轴和生长激素的影响

目的:探讨睡眠中间断低氧对大鼠下丘脑-垂体-肾上腺轴和生长激素水平的影响.方法:大鼠分别给予吸入空气,持续低氧和间断低氧气体,在1 d,3 d,7 d和30 d后测定下丘脑促肾上腺皮质激素释放激素(CRH)和生长激素释放激素(GHRH)mRNA水平,并测定30d后血浆CRH,GHRH,促肾上腺皮质激素(ACTH)和皮质酮水平,分析其间的变化关系.结果:与对照组比较,在低氧后1 d,3 d,7 d后大鼠下丘脑CRH mRNA升高,GHRH mRNA降低,在30 d后,间断低氧组下丘脑CRH mRNA升高,GHRH mRNA降低,而持续低氧组则接近正常.间断低氧30 d后,血浆CRH、ACTH,皮质酮均升高,GHRH降低,而生长激素没有明显变化.结论:大鼠睡眠中慢性间断低氧可以引起下丘脑-垂体-肾上腺轴激素水平升高,反馈调节紊乱,可引起GHRH分泌抑制.     

低氧暴露对大鼠外周血T淋巴细胞活化的影响

目的：探讨低氧暴露后大鼠外周血T淋巴细胞亚群及活化共刺激分子的变化,为干预措施的研究提供科学依据。方法：采用三色免疫荧光标记流式细胞仪分析法,观察在低氧暴露前和模拟海拔8 000 m低氧暴露8 h、3d6、d和10 d后,大鼠外周血T淋巴细胞亚群和T淋巴细胞活化共刺激分子的变化。结果：模拟海拔8 000 m低氧暴露8 h后,大鼠CD3＋、CD8＋、CD8＋CD28-细胞数较低氧前均显著降低（P均〈0.01）;低氧暴露3 d后,除上述变化外,CD4＋CD28＋细胞数也显著降低（P〈0.01）,CD4＋CD28-细胞数显著增加（P〈0.01）;低氧暴露6 d和10 d后,CD3＋、CD4＋呈现进一步降低趋势,CD8＋CD28＋细胞数显著增加（P〈0.01）。结论：说明模拟海拔8 000 m低氧暴露8 h和3 d后,大鼠外周血CD8＋、CD4＋T淋巴细胞活化水平均显著下降,随着低氧暴露时间的延长,CD8＋T淋巴细胞活化水平由降低变为增加。     

Non-esterified polyunsaturated fatty acids distinctly modulate the mitochondrial and cellular ROS production in normoxia and hypoxia

There is an intense discussion about the subcellular origin of the generation of reactive oxygen species (ROS) under hypoxia. Since this fundamental question can be addressed only in a cellular system, the O(2) -sensing rat pheochromocytoma (PC12) cells were used. Severe hypoxia is known to elevate non-esterified fatty acids. Therefore, the site(s) of ROS generation were studied in cells which we simultaneously exposed to hypoxia (1% oxygen) and free fatty acids (FFA). We obtained the following results: (i) at hypoxia, ROS generation increases in PC12 cells but not in mitochondria isolated therefrom. (ii) Non-esterified polyunsaturated fatty acids (PUFA) enhance the ROS release from PC12 cells as well as from mitochondria, both in normoxia and in hypoxia. (iii) PUFA-induced ROS generation by PC12 cells is not decreased either by inhibitors of the cell membrane NAD(P)H oxidase or inhibitors impairing the PUFA metabolism. (iv) PUFA-induced ROS generation of mitochondria is paralleled by a decline of the NADH-cytochrome c reductase activity (reflecting combined enzymatic activity of complex I plus III). (v) Mitochondrial superoxide indicator (MitoSOXred)-loaded cells exposed to PUFA exhibit increased fluorescence indicating mitochondrial ROS generation. In conclusion, elevated PUFA levels enhance cellular ROS level in hypoxia, most likely by impairing the electron flux within the respiratory chain. Thus, we propose that PUFAs are likely to act as important extrinsic factor to enhance the mitochondria-associated intracellular ROS signaling in hypoxia.     

慢性低氧对大鼠肺内几种原癌基因表达的影响

本文用原位杂交技术动态观察了慢性低氧大鼠肺内原癌基因ｊｕｎ、ｆｏｓ和ｍｙｂ的表达,结果发现：（１）正常大鼠肺内有一定量的ｊｕｎｍＲＮＡ表达,少见到ｍｙｂ及ｆｏｓ的表达;（２）低氧１周时,ｊｕｎ的表达较正常下降,２周后有所增加。低氧３周后,ｊｕｎ的ｍＲＮＡ表达较正常明显上升;（３）低氧１、２周后,ｍｙｂ的表达明显增加,３周时基本恢复到正常水平;（４）ｆｏｓ原癌基因在低氧１、２周时有一定量的表达,低氧３周时达最大值。提示低氧可刺激大鼠肺内原癌基因ｊｕｎ、ｍｙｂ和ｆｏｓ的表达。     

间断低氧对大鼠下丘脑超微结构及前增食欲素水平的影响

目的探讨睡眠中间断低氧对大鼠下丘脑前增食欲素及受体水平的影响以及下丘脑超微结构的变化。方法大鼠分成对照组、间断低氧组和持续低氧组,分别给予吸入空气,持续低氧和间断低氧气体,并在实验开始后1d、3d、1w和4w应用RT-PCR方法测定大鼠下丘脑前增食欲素及受体水平,分析其间的变化关系,电镜观察下丘脑的超微结构变化。结果与对照组和持续低氧组比较,间断低氧4w后大鼠下丘脑前增食欲素mRNA水平明显降低,受体水平升高,但在持续低氧和对照组之间无明显差异。在低氧后1d、3d、7d后大鼠下丘脑前增食欲素mRNA降低,受体水平升高,在4w后,持续低氧组则接近正常。急性持续低氧大鼠超微结构变化更严重,而慢性间断低氧变化更持久。结论慢性间断低氧可以引起下丘脑前增食欲素下降及受体水平升高,急性持续低氧也可引起上述变化,而慢性持续低氧未引起增食欲素改变;慢性间断低氧大鼠下丘脑超微结构表现为严重而持久的变化。     

SENP1在大鼠低氧性肺动脉高压形成中肺血管壁中表达及可能作用

目的:探讨大鼠低氧性肺动脉高压(HPH)形成过程中SENP1在肺小动脉的动态表达变化及作用。方法:40只成年雄性Wistar大鼠随机分为5组(n=8):对照组和缺氧3 d、7 d、14 d2、1 d组,常压间断低氧复制HPH大鼠模型。测各组大鼠平均肺动脉压(mPAP)、右心室肥大指数(RVHI)、血管形态学指标;原位杂交、逆转录-聚合酶链反应(RT-PCR)检测肺内SUMO特异性蛋白酶-1(SUMO-specific proteases-1,SENP1)mRNA表达,免疫组化、Westernblot检测其蛋白质水平。结果:①缺氧7 d后,肺小动脉出现血管重塑,且mPAP明显上升;低氧14 d后,肺小动脉重塑更明显,mPAP达高峰。RVHI在低氧14 d后明显增加。②原位杂交显示,SENP1 mRNA在对照组肺小动脉壁呈阳性表达,低氧后其相对量无明显变化。RT-PCR显示肺组织SENP1 mRNA表达与原位杂交所观察到的肺小动脉壁SENP1 mRNA变化趋势一致;SENP1蛋白在对照组呈阳性表达,低氧7 d后其表达量开始呈进行性下降。Western blot显示肺组织内SENP1蛋白表达与免疫组化观察到的肺小动脉壁SENP1蛋白变化趋势一致。③SENP1蛋白与mPAP、重塑指数、RVHI均呈负相关。结论:慢性低氧诱导肺小动脉壁SENP1蛋白降解,进而可能在HPH发病过程中发挥一定的作用。     

CLA对急性缺氧大鼠肝脏线粒体呼吸链酶活性及氧化应激的影响

目的:观察共轭亚油酸(CLA)对急性缺氧大鼠肝脏线粒体呼吸链酶活性及肝脏内氧化应激(OS)的影响。方法:将60只SD大鼠随机分为正常对照组,模拟海拔5000米高原环境连续缺氧暴露3d的急性缺氧组,急性缺氧CLA干预组。生化法测定肝脏组织中丙二醛(MDA)、还原型谷胱甘肽(GSH)含量及超氧化物歧化酶(SOD)、过氧化氢酶(CAT)活性,Clark氧电极法观察大鼠肝脏线粒体呼吸链酶活性。结果:成功诱导大鼠急性缺氧模型。与对照组比,急性缺氧组大鼠肝脏MDA含量明显升高(P<0.05),同时肝脏线粒体呼吸链酶活性以及抗氧化酶活性(SOD,CAT)及GSH显著降低(P<0.05),与急性缺氧相比,CLA治疗组大鼠以上各项指标均有改善,并存在一定的剂量效应关系。结论:CLA通过抑制氧化应激增强大鼠肝脏线粒体呼吸链酶活性改善了急性缺氧大鼠肝脏的能量代谢障碍,对急性缺氧引起的氧化损伤有保护作用。     

Differential responses to chronic hypoxia and dietary restriction of aerobic capacity and enzyme levels in the rat myocardium

Chronic exposure of mammals to hypoxia induces a state of anorexia. We aimed to determine the role played by diet restriction in the alterations of myocardial energy metabolism occurring under chronic hypoxia in order to detect the specific effects of hypoxia per se.Adult female rats were exposed to normobaric hypoxia (Fi O2 = 0.10) for three weeks; pair-fed rats, kept under normoxic conditions, received the same amount of food as hypoxic rats. The oxidative capacity of myocardial ventricles and some skeletal muscles was evaluated using permeabilized fibers. Several metabolic enzyme activities were measured on extracts from myocardium and soleus.Diet restriction increased the activity of lactate dehydrogenase in both ventricles while it augmented phosphofructokinase and pyruvate kinase activities only in the left ventricle and depressed the respiratory rate in the right ventricle only.Hypoxia per se induced a rise in hexokinase activity in all studied oxidative muscles and a fall of hydroxy-acyl CoA-dehydrogenase activity in both myocardial ventricles. The respiratory rate and the citrate synthase activities were unaffected by hypoxia.We conclude that chronic hypoxia per se leads to specific alterations in myocardial metabolism that could favor the use of exogenous glucose at the expense of free fatty acids without any change in the oxidative capacity.     

模拟高原低氧对新生大鼠肾上腺皮质功能发育的影晌

本文探讨新生大鼠肾上腺皮质对高原低氧的应答及模拟高原低氧对其功能发育的影响。结果表明,当不同日龄大鼠暴露于５ｋｍ及７ｋｍ海拔２４ｈ,７ｄ、１４ｄ龄大鼠肾上腺皮质无明显应答反应。２１ｄ及２８ｄ龄大鼠肾上腺皮质酮水平随海拔增高而增加,血浆皮质酮表现为抑制作用。当１ｄ龄新生大鼠在５ｋｍ海拔高度发育３ｄ和７ｄ,其肾上腺皮质功能无异于正常发育大鼠;但发育１４ｄ、２１ｄ及２８ｄ,其血液及肾上腺中皮质酮含量均明显低于对照组,肾上腺皮质功能发育严重受抑     

Increased susceptibility to intermittent hypoxia in aging rats: changes in proteasomal activity,neuronal apoptosis and spatial function

Obstructive sleep apnea (OSA) is a frequent medical condition characterized by intermittent hypoxia (IH) during sleep, and is associated with neurodegenerative changes in several brain regions along with learning deficits. We hypothesized that aging rats exposed to IH during sleep would be particularly susceptible. Young (3-4 months) and aging (20-22 months) Sprague-Dawley rats were therefore exposed to either room air or IH for 14 days. Learning and memory was assessed with a standard place-training version of the Morris water maze. Aging rats exposed to room air (RA) or IH displayed significant spatial learning impairments compared with similarly exposed young rats; furthermore, the decrements in performance between RA and IH were markedly greater in aging compared with young rats (p < 0.01), and coincided with the magnitude of IH-induced decreases in cyclic AMP response element binding (CREB) phosphorylation. Furthermore, decreases in proteasomal activity occurred in both young and aging rats exposed to IH, but were substantially greater in the latter (p < 0.001). Neuronal apoptosis, as shown by cleaved caspase 3 expression, was particularly increased in aging rats exposed to IH (p < 0.01 versus young rats exposed to IH). Collectively, these findings indicate unique vulnerability of the aging rodent brain to IH, which is reflected at least in part, by the more prominent decreases in CREB phosphorylation and a marked inability of the ubiquitin-proteasomal pathway to adequately clear degraded proteins.     

Effect of hypoxia on protein composition of synaptic plasma membranes from cerebral cortex during aging

The effect of hypoxia on the protein composition of synaptic plasma membranes (SPM) isolated from cerebral cortex of rats at 4, 12, and 24 months of age was investigated. The proteins were separated by SDS polyacrilamide gel electrophoresis and the percent content was evaluated by measuring the optical density of the stained gels. After hypoxic treatment various proteins showed significant changes. Some proteins were only affected at 4 and 12 months of age and not at 24 months. The various modified porteins may be identified according to their molecular weight, as follows: the 18 kDa protein with calmodulin; the 23 kDa protein with D₃ subunits; the 28 kDa protein could contain the subunit of the Ca²⁺ channel. The changes in the amount of some SPM proteins during hypoxia is consistent with the alteration in membrane polarization and neurotransmission observed in this condition. The effect of aging at the synaptosomal level seems to be a selective process; after hypoxia the age-related changes of many proteins are more pronounced.Special issue dedicated to Dr. Santiago Grisolia     

低氧对新生大鼠脾单个核细胞DNA合成及转化的影响

本研究以荧光法测定脾单个核细胞ＤＮＡ合成及ＭＴＴ比色法测定的脾单个核细胞对ＣｏｎＡ的增殖反应,观察模拟高原低氧对出生后１４天大鼠上述两指标的影响,同时也观察了交感神经和副交感神经的活动状态,以初步探讨低氧对上述两指标的作用是如何介导的。结果表明：５ｋｍ海拔高度低氧作用２４ｈ不抑制脾单个细胞ＤＮＡ合成及脾单个核细胞转化,而作用５天时则抑制ＤＮＡ合成及脾单个核细胞转化,分别为对照组的５６．６％（Ｐ＜０．０１）和８６．８％（Ｐ＜０．０５）;７ｋｍ海拔高度低氧作用２４ｈ,ＤＮＡ合成及脾单个核细胞转化均受抑制,分别为对照组的６１．０％（Ｐ＜０．０１）和８１．２％（Ｐ＜０．０１）;７ｋｍ海拔２４ｈ低氧导致脾脏中乙酰胆碱下降,儿茶酚胺升高;用ＤＳＰ－４中枢药理性损毁ＮＥ神经元,可使脾单个核细胞ＤＮＡ合成的抑制程度减弱,脾脏中儿茶酚胺含量下降。这些结果表明低氧可抑制新生大鼠脾单个核细胞的ＤＮＡ合成及转化,并可能与交感神经兴奋及副交感神经抑制有关