下丘脑腹内侧核损毁对大鼠nesfatin-1/NUCB2表达的影响

目的:观察下丘脑腹内侧核(VMH)损毁对大鼠脂肪组织nesfatin-1/NUCB2表达的影响及其机制。方法:电损毁VMH,观察大鼠体重和脂肪组织变化,采用Western blot检测脂肪组织中nesfatin-1/NUCB2表达改变。腹腔注射6-羟多巴胺(50 mg/kg)以阻断交感神经;持续外周注射卡巴胆碱(180μg/kg)用以模拟VMH损毁,观察其对大鼠皮下脂肪nesfatin-1/NUCB2表达的影响。结果:与对照组和假手术组比较,VMH损毁后大鼠体重明显增加(P0.05),皮下脂肪(P0.05)和肠系膜脂肪(P0.05)也显著增多;Western blot分析结果显示,nesfatin-1/NUCB2在胰腺和肝脏中表达较多,但皮下、肠系膜脂肪和肩胛间棕色脂肪组织(i BAT)中表达较少,骨骼肌(腓肠肌)中鲜有表达;与对照组和假手术组比较,VMH损毁组大鼠nesfatin-1/NUCB2在肝脏、胰腺、骨骼肌和i BAT中表达无显著差异(P0.05),皮下脂肪(P0.05)和肠系膜脂肪(P0.05)nesfatin-1/NUCB2表达显著增多与对照组相比,6-羟多巴胺组nesfatin-1/NUCB2表达显著升高(t=3.43,P0.05),而卡巴胆碱组nesfatin-1/NUCB2表达无显著差异(t=0.37,P=0.72)。结论:VMH损毁后大鼠脂肪组织nesfatin-1/NUCB2表达改变可能通过抑制交感神经活动介导。     

Background activity of neurons of the supraoptic hypothalamic nucleus in rats under conditions of vibrational stimulation and electromagnetic extrahigh-frequency irradiation

We analyzed background impulse activity of neurons of the supraoptic nucleus of the rat hypothalamus in the course of 15-day-long isolated action of generalized vibrational stimulation and combination of such stimulation with irradiation of the animal’s head with low-intensity extrahigh-frequency (EHF, millimeter-range) electromagmetic waves. The distributions of the neurons by the level of regularity and dynamics of spike trains, separate frequency ranges of impulsation, and pattern of interspike interval (ISI) histograms were estimated. We also calculated the mean frequency of discharges and coefficient of variation of ISIs. A trend toward decreases in the deviations of some parameters of neuronal spike activity generated by supraoptic neurons, which were evident within early time intervals of isolated action of vibration (5 to 10 days), was observed under the influence of EHF electromagnetic irradiation; thus, the latter factor probably exerts a sedative effect. Neirofiziologiya/Neurophysiology, Vol. 39, No. 6, pp. 433–442, November–December, 2007.     

Dynamics of characteristics of electrical activity recorded from tropho-and ergotropic zones of the rat hypothalamus in long-term emotional stress

We examined the dynamics of the spectral powers and indices of frequency components of background field electrical activity recorded from tropho-and ergotropic zones of the rat hypothalamus (electrohypothalamogram, EHtG) in the course of long-term (21 weeks) emotional stress induced by a zooconflict situation. Low-frequency delta-range (0.5 to 3.5 Hz) oscillations dominated in EHtGs recorded from both hypothalamic zones of both control and stressed animals. The integral power of EHtG oscillations underwent significant changes within the observation period; it considerably increased on the 6th to 9th week, dropped within the 12th to 18th week, and, after this (up to the 21st week) again increased, i.e., the dynamics, in general, were threephase. The dynamics of the power of separate frequency components of EHtG showed certain similarities to the dynamics of the integral power. Changes in the EHtG power in stressed animals were characterized by a shorter duration and greater rate; the powers of all EHtG components in these animals were lower than in control ones within a greater part of the observation period. The dynamics of the normalized powers and of the indices of different EHtG rhythms in stressed and control animals, especially the dynamics of dominating oscillations of the delta and theta ranges, were to a certain extent opposite. Our data show that changes in the EHtG can be electrographic correlates of subsequent phases of a long-lasting stress reaction of the organism in the course of the experiment; specific features of manifestation of these modifications in the tropho-and ergotropic hypothalamic zones are related to a certain specificity of the hormonal/transmitter mechanisms in the structures under study. Neirofiziologiya/Neurophysiology, Vol. 39, No. 1, pp. 69–80, January–February, 2007.     

Maternal attenuation of hypothalamic paraventricular nucleus norepinephrine switches avoidance learning to preference learning in preweanling rat pups

Infant rats learn to prefer stimuli paired with pain, presumably due to the importance of learning to prefer the caregiver to receive protection and food. With maturity, a more 'adult-like' learning system emerges that includes the amygdala and avoidance/fear learning. The attachment and 'adult-like' systems appear to co-exist in older pups with maternal presence engaging the attachment system by lowering corticosterone (CORT). Specifically, odor-shock conditioning (11 odor-0.5 mA shock trials) in 12-day-old pups results in an odor aversion, although an odor preference is learned if the mother is present during conditioning. Here, we propose a mechanism to explain pups ability to 'switch' between the dual learning systems by exploring the effect of maternal presence on hypothalamic paraventricular nucleus (PVN) neural activity, norepinephrine (NE) levels and learning. Maternal presence attenuates both PVN neural activity and PVN NE levels during odor-shock conditioning. Intra-PVN NE receptor antagonist infusion blocked the odor aversion learning with maternal absence, while intra-PVN NE receptor agonist infusion permitted odor aversion learning with maternal presence. These data suggest maternal control over pup learning acts through attenuation of PVN NE to reduce the CORT required for pup odor aversion learning. Moreover, these data also represent pups' continued maternal dependence for nursing, while enabling aversion learning outside the nest to prepare for pups future independent living.     

Novel Interaction of Class IIb Histone Deacetylase 6 (HDAC6) with Class IIa HDAC9 Controls Gonadotropin Releasing Hormone (GnRH) Neuronal Cell Survival and Movement

The impact of histone deacetylases (HDACs) in the control of gonadotropin releasing hormone (GnRH) neuronal development is unknown. We identified an increase in many HDACs in GT1-7 (differentiated) compared with NLT (undifferentiated) GnRH neuronal cell lines. Increased HDAC9 mRNA and protein and specific deacetylase activity in GT1-7 cells suggested a functional role. Introduction of HDAC9 in NLT cells protected from serum withdrawal induced apoptosis and impaired basal neuronal cell movement. Conversely, silencing of endogenous HDAC9 in GT1-7 cells increased apoptosis and cell movement. Comparison of WT and mutant HDAC9 constructs demonstrated that the HDAC9 pro-survival effects required combined cytoplasmic and nuclear localization, whereas the effects on cell movement required a cytoplasmic site of action. Co-immunoprecipitation demonstrated a novel interaction of HDAC9 selectively with the Class IIb HDAC6. HDAC6 was also up-regulated at the mRNA and protein levels, and HDAC6 catalytic activity was significantly increased in GT1-7 compared with NLT cells. HDAC9 interacted with HDAC6 through its second catalytic domain. Silencing of HDAC6, HDAC9, or both, in GT1-7 cells augmented apoptosis compared with controls. HDAC6 and -9 had additive effects to promote cell survival via modulating the BAX/BCL2 pathway. Silencing of HDAC6 resulted in an activation of movement of GT1-7 cells with induction in acetylation of α-tubulin. Inhibition of HDAC6 and HDAC9 together resulted in an additive effect to increase cell movement but did not alter the acetylation of αtubulin. Together, these studies identify a novel interaction of Class IIa HDAC9 with Class IIb HDAC6 to modulate cell movement and survival in GnRH neurons.     

不同强度电针刺激对失眠大鼠下丘脑orexinA的影响研究

目的 探讨电针对失眠大鼠下丘脑食欲素A（orexinA）的影响及不同强度电针对orexinA的效应差异。方法将SD大鼠随机分为正常对照组（normalcontrol,NC）、失眠模型组（insomniamodel,IM）、强刺激电针组（strongstimulativeeleetroacupuncture,SSEA）、弱刺激电针组（weakstimulativeelectroacupuncture,WSEA）。除正常对照组外,其余各组大鼠均用对氯苯丙氨酸（PCPA）建立大鼠失眠模型,选穴“百会”、“足三里”、“三阴交”,并用不同强度电针治疗。5d后,用逆转录一聚合酶链反应（RT-PCR）检测下丘脑orexinAmRNA表达,采用免疫组织化学技术观察下丘脑orexinA阳性神经元表达。结果与正常对照组比较,失眠模型组大鼠下丘脑orexinAmRNA表达显著升高（P〈0．01）,orexinA阳性神经元染色较深,且表达量较多;与失眠模型组相比,两电针组大鼠下丘脑orexinAmRNA表达明显下降（P〈0．01）,orexi—nA阳性神经元染色较浅,表达量较少,强刺激电针组作用更为明显。结论电针可以改善失眠大鼠下丘脑异常增多的orexinA,调节睡眠-觉醒周期,且强刺激电针组效果较好。