下丘脑室旁核胃动素对胃运动影响的探讨

目的 :研究下丘脑室旁核 (paraventricularnucleus,PVN)胃动素对胃运动调节的参与作用及机制。 方法 :应用免疫组织化学的方法检测室旁核内胃动素神经元的表达情况及室旁核与延髓迷走复合体 (dorsalvagalcomplex ,DVC)间的神经联系 ,应用室旁核内微量注入胃动素的方法观察清醒大鼠胃运动的变化。结果 :①下丘脑室旁核有胃动素免疫阳性细胞 ,在饥饿组和十二指肠灌酸组 ,阳性细胞数有明显增加 (P <0 .0 1)。②迷走背核注入辣根过氧化物酶 (horseradishperoxidase ,HRP) ,在室旁核发现HRP标记细胞 ,证实室旁核与DVC间的纤维联系。③清醒大鼠室旁核内微量注射胃动素可使胃运动的幅度和频率明显增加 (P <0 .0 5 ) ,切断双侧膈下迷走神经后 ,胃动素对胃运动的作用消失。结论 :下丘脑室旁核内胃动素可增强胃运动 ,其作用可能是通过下丘脑 延髓迷走复合体 迷走神经实现的     

应激对大鼠血清胃泌素的影响

迷走神经兴奋,通过其胆碱能纤维和蛙皮素肽能纤维促进胃泌素释放。为研究应激反应时胃泌素的释放机理,本工作以束缚_-寒冷刺激为应激模型,测定了对照组、假手术组、阿托品组和迷走神经切断组大鼠应激前、后血清胃泌素的含量。 材料和方法实验采用杂种雄性大鼠26只,体歪 200～250g,随机分成对照、假手术、皮下注射阿托品(5mg/kg,应激前30min)和膈下迷走神经切断4组。实验前24h禁食,可自由饮水。在乙醚麻醉下,常规消     

兔延髓闩部尼可刹米敏感区的研究

本实验用家兔51只,乌拉坦麻醉(0.5g/kg体重),切断双侧颈迷走神经,三碘季铵酚制动(4mg/kg体重),用人工呼吸维持通气。在延髓闩部局部给予尼可剎米,观察膈神经和延髓吸气性单位放电的变化。结果如下:1.在延髓闩部表浅脑组织局部给予微量尼可剎米后,膈神经放电及孤束核区吸气性单位放电的节律都明显增快。2.在延髓闩部给予生理盐水,缓冲液(pH=6.35),或咖啡因、吗啡等药物,对膈神经放电都无明显影响。用的卡因处理闩部或将闩部损毁后,尼可剎米的上述效应不再出现。以上结果提示延髓闩部对尼可剎米有特殊的敏感性。     

心外膜应用腺苷时c—fos在脊髓延髓和丘脑中的表达

在１２只切断两侧缓冲神经和迷走神经的麻醉大鼠,观察了心外膜应用腺苷对脊髓,延髓和丘脑ｃ－ｆｏｓ原部基因表达的影响。结果显示：心外膜应用腺苷组大鼠,动脉血压和心率无明显变化;脊髓Ｔ３节段背角,延髓巨细胞旁外侧核以及丘脑的腹后外侧核,后核,中央外侧核和束旁核等部位Ｆｏｓ蛋白样免疫阳性反应神经元显著增加;而在溶剂对照组大鼠,仅见少数ＦＬＩ细胞。     

刺激兔丘脑不同核团和胼胝体引起的膈神经放电效应

实验在33例清醒、肌肉麻痹和切断双侧迷走神经的家兔上进行,观察了刺激丘脑不同核团(VIL,VL,VPM 和 MI)和胼胝体纤维以激活皮层时膈神经的放电效应。当在吸气相(膈神经放电时)给予上述核团及胼胝体纤维电脉冲刺激,可使膈神经放电短暂抑制,随后的呼气相缩短、吸气相提前出现。如果在呼气相刺激上述核团,也能使该呼气时相缩短,随后的吸气时相提前出现。当在皮层接受 VL 投射的局部区域给予回苏灵后,再刺激 VL,皮层诱发电位增大,除使原先的膈神经放电效应更为明显外,还可在呼气相刺激时引起膈神经即刻的短暂放电。以上实验结果提示,当用回苏灵使皮层活动加强后,刺激丘脑 VL 引起的膈神经放电效应明显增强。损毁红核或切断皮层下行传导束但保留皮层脊髓束后,刺激丘脑引起的膈神经放电效应均不受影响,表明传入冲动激活皮层后引起的膈神经放电效应可能主要经皮层脊髓束下传,而皮层红核脊髓束不起重要作用。     

家兔脑内微量注射或脊髓珠网膜下腔注射氟安定的呼吸抑制作用

实验在49只局部麻醉、肌肉麻痹、切断双侧颈迷走神经的家兔上进行。观察到一侧孤束核(NTS)区微量注射氟安定,使对侧膈神经放电平均幅度减低,呼吸频率加快。事先在NTS区微量注射GABA 受体拮抗剂印防己毒素,可阻断氟安定的减低膈神经放电平均幅度的作用。在脑桥头端横断脑干出现长吸式呼吸的免上,一侧NTS区微量注射氟安定,也使对侧膈神经放电平均幅度减低,但呼吸频率减慢。在脑桥结合臂旁内侧核(NPBM)区微量注射氟安定,使呼吸频率明显减慢,吸气和呼气时程延长,这效应可被毒扁豆碱阻断。脊髓蛛网膜下腔注射氟安定,使膈神经放电平均幅度减低,血压下降,这效应可被印防己毒素阻断。结果提示,NPBM 的存在与呼吸频率加快有关;而氟安定作用于NPBM区,却减慢呼吸频率,其机制可能是抗胆碱能作用。氟安定直接作用于NTS 区或脊髓使膈神经放电平均幅度减低、血压下降,其机制可能与激活GABA 受体有关。     

迷走神经切除对大鼠胃内UCP2 mRNA表达及胃酸分泌的影响

目的:观察整体大鼠胃酸分泌与ATP水平之间的关系及迷走神经对解偶联蛋白2(UCP2)mRNA表达的调节.方法:制备大鼠高选择性迷走神经切断模型.采用滴定法检测大鼠胃酸酸度,荧光测定法检测胃体组织内ATP含量,应用Northern blot法检测分析UCP2mRNA表达.结果:迷走神经切断后24 h,大鼠胃酸酸度显著降低,胃体组织内ATP含量下降.与假手术组相比,胃体组织UCP2 mRNA表达显著增加.结论:迷走神经切断后24 h大鼠胃体组织ATP含量下降;迷走神经下调胃体组织UCP2 mRNA表达.结果提示大鼠迷走神经可能通过抑制UCP2 mRNA表达,提高ATP含量,为质子泵泌酸提供能量来源.     

大鼠下丘脑室旁核神经元对电刺激迷走神经的反应

用玻璃微电极记录了93只大鼠的1059个PVH单位的电活动,观察了电刺激颈部迷走神经对PVH单位自发放电的效应和所引起的PVH单位的诱发反应。电刺激迷走神经分别使46个及10个PVH单位呈诱发兴奋和抑制反应。给予迷走神经以不同强度的刺激时,发现PVH神经元对激活A和C两类纤维的强刺激反应,而对仅激活A类纤维的弱刺激则不反应。PVH单位对电刺激坐骨神经或迷走神经的反应有以下几种:对迷走神经和坐骨神经刺激均作出兴奋或抑制反应;仅对迷走刺激作出兴奋或兴奋-抑制反应,而对坐骨神经刺激不反应;对坐骨神经刺激作出兴奋反应,而对迷走神经刺激不反应。讨论了迷走神经到室旁核的中枢传导特点以及内脏传入和躯体传入信息在PVH单位会聚的可能意义。     

C型钠尿肽及其受体在急性肺损伤大鼠肺组织的表达变化及其意义

目的了解C型钠尿肽及其受体NPRB在急性肺损伤大鼠肺组织中的表达变化规律。方法采用LPS注射建立ALI大鼠动物模型。将动物分为生理盐水组(N组),LPS干预1 h组(LPS 1 h组),LPS干预3 h组(LPS 3 h组),LPS干预6 h组(LPS 6 h组),通过RT-PCR检测各组大鼠肺组织CNP及NPRB mRNA的表达情况,以及免疫组化检测各组大鼠NPRB的表达变化,以生理盐水组作为阴性对照。结果正常大鼠肺组织可表达CNP及NPRB,LPS干预后,CNP显著升高,LPS 6 h达到高峰,与对照组比较有显著性差异(P0.05);相反,NPRB在LPS干预后出现表达降低,与对照组比较有显著性差异(P0.05)。结论CNP与NPRB的表达变化可能是导致肺损伤加重的重要原因之一。     

钙蛋白酶抑制剂Calpeptin在脓毒症膈肌功能障碍中的作用研究

摘要 目的：探究钙蛋白酶抑制剂Calpeptin在脓毒症膈肌功能障碍中的保护作用及其分子机制。方法：通过腹腔内注射8 mg/kg LPS的方法构建大鼠脓毒症模型,将雄性SD大鼠分为3组（n=6/组）：正常对照组（Con组）、脓毒症组（Sepsis组）和钙蛋白酶抑制剂预处理组（Calpeptin组）。处死大鼠,快速分离大鼠膈肌组织,采用苏木精-伊红(HE)染色法检测膈肌组织病理学改变,通过实时荧光定量PCR法（qRT-PCR）分别检测膈肌组织中钙蛋白酶μ-Calpain、凋亡相关基因天冬氨酸特异性半胱氨酸蛋白酶-3（Caspase-3）、自噬相关蛋白Beclin-1、肿瘤坏死因子-α（TNF-α）和白介素-6（IL-6）mRNA表达水平。结果：与正常对照组相比,LPS处理24 h的脓毒症组大鼠膈肌组织HE染色未见明显膈肌萎缩改变,但膈肌收缩力下降,这与我们以往的研究结果一致。qRT-PCR法检测到脓毒症组大鼠膈肌组织中上述基因mRNA表达量明显增加（P<0.05）,而Calpeptin预处理后,上述基因mRNA表达水平显著下降（P<0.05）。结论：脓毒症时膈肌发生功能障碍,钙蛋白酶抑制剂Calpeptin可显著减轻LPS诱导的炎症、凋亡、自噬的激活。     

经脂多糖（LPS）处理免疫应答大鼠离体脑片视上核神经元对细胞因？…

实验采用离体脑片全细胞膜片箝记录方法,观察了细胞因子白介素－１β（ＩＬ－１β）和ＩＬ－２对大鼠离体脑片视上核神经元膜电位及自发放电的影响,以期探明免疫应答大鼠视上核神经元对细胞因子敏感性的变化。结果显示,用１００Ｕ／ｍｌ ＩＬ－１β藻流脑片,正常对照的（ｎ＝１５）和脂多糖（ｌｉｐｏｐｏｌｙｓａｃｃｈｙａｒｉｄｅ ＬＰＳ）腹腔注射９ｄ的大鼠视上核神经元（ｎ＝２０）超极化,同时伴有自发放电频率的下降;     

Neonatal endotoxin exposure changes neuroendocrine, cardiovascular function and mortality during polymicrobial sepsis in adult rats

Our aim was to investigate whether neonatal LPS challenge may improve hormonal, cardiovascular response and mortality, this being a beneficial adaptation when adult rats are submitted to polymicrobial sepsis by cecal ligation and puncture (CLP). Fourteen days after birth, pups received an intraperitoneal injection of lipopolysaccharide (LPS; 100μg/kg) or saline. After 8-12 weeks, they were submitted to CLP, decapitated 4, 6 or 24h after surgery and blood was collected for vasopressin (AVP), corticosterone and nitrate measurement, while AVP contents were measured in neurohypophysis, supra-optic (SON) and paraventricular (PVN) nuclei. Moreover, rats had their mean arterial pressure (MAP) and heart rate (HR) evaluated, and mortality and bacteremia were determined at 24h. Septic animals with neonatal LPS exposure had higher plasma AVP and corticosterone levels, and higher c-Fos expression in SON and PVN at 24h after surgery when compared to saline treated rats. The LPS pretreated group showed increased AVP content in SON and PVN at 6h, while we did not observe any change in neurohypophyseal AVP content. The nitrate levels were significantly reduced in plasma at 6 and 24h after surgery, and in both hypothalamic nuclei only at 6h. Septic animals with neonatal LPS exposure showed increase in MAP during the initial phase of sepsis, but HR was not different from the neonatal saline group. Furthermore, neonatally LPS exposed rats showed a significant decrease in mortality rate as well as in bacteremia. These data suggest that neonatal LPS challenge is able to promote beneficial effects on neuroendocrine and cardiovascular responses to polymicrobial sepsis in adulthood.     

Role of the hypothalamic PVN in the reflex reduction in mesenteric blood flow elicited by hyperthermia

The hypothalamic paraventricular nucleus (PVN) is an important integrative center in the brain. In the present study, we investigated whether the PVN is a key region in the mesenteric vasoconstriction that normally accompanies an increase in core body temperature. Anesthetized rats were monitored for blood pressure, heart rate, mesenteric blood flow, and vascular conductance. In control rats, elevation of core body temperature to 41 degrees C had no significant effect on blood pressure, increased heart rate, and reduced mesenteric blood flow by 21%. In a separate group of rats, muscimol was microinjected bilaterally (1 nmol/side) into the PVN. Compared with the control group, there was no significant difference in the blood pressure and heart rate responses elicited by the increase in core body temperature. In contrast to control animals, however, mesenteric blood flow did not fall in the muscimol-treated rats in response to the elevation in core body temperature. In a separate group, in which muscimol was microinjected into regions outside the PVN, elevating core body temperature elicited the normal reduction in mesenteric blood flow. The results suggest that the PVN may play a key role in the reflex decrease in mesenteric blood flow elicited by hyperthermia.     

TLR4/P38/JNK信号通路在海马神经元凋亡中的作用

目的：探讨Toll样受体4（TLR4）/P38/JNK信号通路在海马神经元凋亡中的作用及其机制,为神经退行性疾病（ND）的发病机制与防治研究提供新的实验依据。方法：采用体外培养7 d的新生大鼠海马神经元,免疫荧光双标法鉴定海马神经元纯度。用TLR4配体脂多糖（LPS）或TLR4抗体预处理海马神经元,以激活或阻断TLR4的作用。实验1设正常对照组、LPS组及TLR4抗体+ LPS组;免疫荧光法检测P-P38,P-JNK的表达。实验2分为6组：正常对照组,LPS组,TLR4抗体+ LPS组,SB202190（抑制P38） + LPS组,SP600125（抑制JNK） + LPS组,PD98059（抑制ERK） + LPS组;分别用TLR4抗体、P38、JNK及ERK的抑制剂预处理海马神经元后再给以LPS刺激24 h,Western blot法检测Bcl-2,Bax,Active-caspase-3的表达变化;流式细胞术检测海马神经元凋亡率。结果：LPS组海马神经元P-P38、P-JNK的表达明显高于正常对照组（P < 0. 01）,TLR4抗体+ LPS组P-P38,P-JNK表达显著低于LPS组（P <0.01）。与正常对照组相比,LPS组海马神经元Bcl-2/Bax表达减少、Active-caspase-3表达增加,海马神经元凋亡率增加（P < 0.01）。而TLR4抗体+ LPS组、SB202190 + LPS组、SP600125 + LPS组Bcl-2/Bax显著高于LPS组、Active cas-pase-3显著低于LPS组（P < 0.01）,海马神经元凋亡率显著低于LPS组（P < 0. 05,P < 0. 01）。PD98059 + LPS组与LPS组海马神经元凋亡率无明显差异。结论：①海马神经元中有TLR4介导的P38/JNK信号通路。②海马神经元TLR4激活后,P-P38、P-JNK表达增加,使Bcl-2/Bax的比例降低和Active-caspase-3表达增加,从而促进海马神经元的凋亡。海马神经元凋亡过程中有TLR4介导的P38/JNK信号通路的参与。     

Vagotomy Affects Lipopolysaccharide-Induced Changes of Urocortin 2 Gene Expression in the Brain and on the Periphery

The corticotropin-releasing hormone family of peptides is involved in regulating the neuroendocrine stress response. Also, the vagus nerve plays an important role in the transmission of immune system-related signals to brain structures, thereby orchestrating the neuroendocrine stress response. Therefore, we investigated gene expression of urocortin 2 (Ucn2) and c-fos, a markers of neuronal activity, within the hypothalamic paraventricular nucleus (PVN), a brain structure involved in neuroendocrine and neuroimmune responses, as well as in the adrenal medulla and spleen in vagotomized rats exposed to immune challenge. In addition, markers of neuroendocrine stress response activity were investigated in the adrenal medulla, spleen, and plasma. Intraperitoneal administration of lipopolysaccharide (LPS) induced a significant increase of c-fos and Ucn2 gene expression in the PVN, and adrenal medulla as well as increases of plasma corticosterone levels. In addition, LPS administration induced a significant increase in the gene expression of tyrosine hydroxylase (TH) and phenylethanolamine N-methyltransferase (PNMT) in the adrenal medulla. In the spleen, LPS administration increased gene expression of c-fos, while gene expression of TH and PNMT was significantly reduced, and gene expression of Ucn2 was not affected. Subdiaphragmatic vagotomy significantly attenuated the LPS-induced increases of gene expression of c-fos and Ucn2 in the PVN and Ucn2 in the adrenal medulla. Our data has shown that Ucn2 may be involved in regulation of the HPA axis in response to immune challenge. In addition, our findings indicate that the effect of immune challenge on gene expression of Ucn2 is mediated by vagal pathways.

     

Adrenalectomy enhances endotoxemia-induced hypophagia: higher activation of corticotrophin-releasing-factor and proopiomelanocortin hypothalamic neurons

Inflammatory and infectious processes evoke neuroendocrine and behavioral changes known as acute-phase response that includes activation of the hypothalamo-pituitary-adrenal (HPA) axis and reduction of food intake. Besides its action as the most important ACTH secretagogue, corticotrophin-releasing factor (CRF), synthesized in the paraventricular nucleus (PVN), is also involved in the control of food intake. Alpha-melanocyte stimulating hormone (α-MSH) in the arcuate nucleus also plays a role in the energy homeostasis, possessing anorexigenic effects. To investigate the participation of neuropeptides involved in the regulation of food intake during endotoxemia, we administrated lipopolysaccharide (LPS) in sham-operated and adrenalectomized (ADX) male Wistar rats to evaluate food intake, hormone responses and Fos-CRF and Fos-α-MSH immunoreactivity in the PVN and arcuate nucleus, as well as CRF and POMC mRNA expression in these hypothalamic nuclei. In sham-operated rats, treatment with LPS (100 µg/kg) showed lower food intake, higher plasma ACTH and corticosterone levels, as well as an increase in Fos-CRF double labeled neurons and CRF mRNA expression in the PVN, with no changes in Fos-α-MSH immunoreactivity and POMC mRNA expression in the arcuate nucleus, compared to saline treated rats. After LPS treatment, ADX rats showed further increase in plasma ACTH levels, marked decrease of food intake, higher Fos-CRF immunoreactive neurons in the PVN and CRF mRNA expression, as well as an increase in Fos-α-MSH immunoreactivity and POMC mRNA expression in the arcuate nucleus, compared to sham-operated rats treated with LPS. In conclusion, the present data indicate that the marked hypophagia during endotoxemia following ADX is associated with an increased activation of CRF and POMC neurons in the hypothalamus and an increased mRNA expression of these neuropeptides.     

束缚应激对大鼠下丘脑室旁核、视上核一氧化氮合酶活性的影响

目前已知下丘脑是应激反应的关键性调节中枢,下丘脑内一氧化氮是否参与应激反应尚未见报道。本文运用ＮＡＤＰＨ－ｄ酶组化技术和计算机图象分析方法,对束缚应激大鼠下丘脑室旁核（ＰＶＮ）和视上核（ＳＯＮ）一氧化氮合酶（ＮＯＳ）阳性神经元的相对切面面积和平均灰度进行了分析。结果显示,大鼠在急性束缚应激４小时后,其下丘脑ＰＶＮ和ＳＯＮ内的ＮＯＳ阳性神经元的平均灰度值与正常大鼠比较均明显降低（Ｐ＜０．００１）;ＳＯＮ的ＮＯＳ阳性神经元的相对切面面积明显大于正常大鼠（Ｐ＜０．００１）,但ＰＶＮ的ＮＯＳ阳性神经元的相对切面面积未见明显改变（Ｐ＞０．０５）。以上结果说明束缚应激使大鼠下丘脑ＰＶＮ和ＳＯＮ的ＮＯＳ活性增强     

Gastric distension-induced release of 5-HT stimulates c-fos expression in specific brain nuclei via 5-HT3 receptors in conscious rats

We examined c-fos expression in specific brain nuclei in response to gastric distension and investigated whether 5-HT released from enterochromaffin (EC) cells was involved in this response. The role of 5-HT3 receptors in this mechanism was also addressed. Release of 5-HT was examined in an ex vivo-perfused stomach model, whereas c-fos expression in brain nuclei induced by gastric distension was examined in a freely moving conscious rat model. Physiological levels of gastric distension stimulated the vascular release of 5-HT more than luminal release of 5-HT, and induced c-fos expression in the nucleus of the solitary tract (NTS), area postrema (AP), paraventricular nucleus (PVN), and supraoptic nucleus (SON). The c-fos expression in all these brain nuclei was blocked by truncal vagotomy as well as by perivagal capsaicin treatment, suggesting that vagal afferent pathways may mediate this response. Intravenous injection of 5-HT3 receptor antagonist granisetron blocked c-fos expression in all brain nuclei examined, although intracerebroventricular injection of granisetron had no effect, suggesting that 5-HT released from the stomach may activate 5-HT3 receptors located in the peripheral vagal afferent nerve terminals and then induce brain c-fos expression. c-fos Positive cells in the NTS were labeled with retrograde tracer fluorogold injected in the PVN, suggesting that neurons in the NTS activated by gastric distension project axons to the PVN. The present results suggest that gastric distension stimulates 5-HT release from the EC cells and the released 5-HT may activate 5-HT3 receptors located on the vagal afferent nerve terminals in the gastric wall leading to neuron activation in the NTS and AP and subsequent activation of neurons in the PVN and SON.     

Cardiovascular and renal sympathetic activation by blood-borne TNF-alpha in rat: the role of central prostaglandins

In pathophysiological conditions, increased blood-borne TNF-alpha induces a broad range of biological effects, including activation of the hypothalamic-pituitary-adrenal axis and sympathetic drive. In urethane-anesthetized adult Sprague-Dawley rats, we examined the mechanisms by which blood-borne TNF-alpha activates neurons in paraventricular nucleus (PVN) of hypothalamus and rostral ventrolateral medulla (RVLM), two critical brain regions regulating sympathetic drive in normal and pathophysiological conditions. TNF-alpha (0.5 microg/kg), administered intravenously or into ipsilateral carotid artery (ICA), activated PVN and RLVM neurons and increased sympathetic nerve activity, arterial pressure, and heart rate. Responses to intravenous TNF-alpha were not affected by vagotomy but were reduced by mid-collicular decerebration. Responses to ICA TNF-alpha were substantially reduced by injection of the cyclooxygenase inhibitor ketorolac (150 microg) into lateral ventricle. Injection of PGE(2) (50 ng) into lateral ventricle or directly into PVN increased PVN or RVLM activity, respectively, and sympathetic drive, with shorter onset latency than blood-borne TNF-alpha. These findings suggest that blood-borne cytokines stimulate cardiovascular and renal sympathetic responses via a prostaglandin-dependent mechanism operating at the hypothalamic level.     

Participation of neuronal NO-synthase in regulation of hypothalamus vasopressinergic neurons of rat pups at early stages of postnatal ontogeny

To reveal character of interaction of catecholamines (CA) and NO in regulation of development and of the functional state of vasopressinergic (VP-ergic) neurons of supraoptic (SON) and paraventricular (PVN) nuclei, the female rats were injected intraperitoneally with the inhibitor of CA synthesis α-methyl-p-tyrosine, daily, from the 13th to the 20th days of pregnancy. Rat pups born by the females administered with saline at the same period of pregnancy as well as intact pups and adult rats were used as control. Expression of neuronal NO-synthase (nNOS) in neurons of SON and PVN of rat pups at early stages of postnatal development was found to be significantly higher than the definitive level, which allows suggesting participation of NO in development of hypothalamic VP-ergic neurons. The revealed differences of periods of the maximal nNOS expression in the SON and PVN neurons have permitted suggesting development of SON to be completed earlier than that of PVN. The pups exposed to stress at the last third of embryonic development had a long-lasting effect on the state of VP-ergic neurons of the pups after birth. The nNOS expression in neurons does not change, which suggests that NO is not involved in regulation of VP-ergic neurons after exposure to stress at early stages of ontogenesis. A decrease of CA level in the brain at the last third of embryogenesis led to a long preserved decrease of the functional activity of VP-ergic neurons. The nNOS expression in VP-ergic neurons of SON and PVN rose substantially under effect of a compensatory enhancement of tyrosine hydroxylase (TH) expression in neurons of SON and of an increase of the level of CA-ergic innervation of PVN. Thus, we have shown that a decrease of CA level in the embryonic brain leads to an increase of nNOS expression of hypothalamic VP-ergic neurons of rat pups after birth and that the character of NO action on function of VP-ergic neurons does not differ from that of adult animals as soon as at early stages of ontogenesis.