GABA介导杏仁外侧核对皮层A Ⅰ区神经元声反应的抑制:在体微电泳研究

在SD大鼠上应用多顺利完成微电极方法,观察微电泳CABA及其受体的拮抗剂或激动剂对杏仁外侧核（LA）抑制皮层AⅠ神经元声反应效应的影响。结果显示,电泳GABA能抑制皮层AⅠ区神经元的电活动,电泳GABAA受体拮抗剂bicuculline（BIC）则能易化其反应;电刺激LA能抑制皮层AⅠ区听神经元声反应,电泳GABA产生类拟于刺激LA的抑制效应;LA对皮层AⅠ区神经的抑制效应能被BIC所翻转,而不能被什氨酸受体拮抗剂strychnine所翻转,电泳GABAB型受体例激动剂baclofen对神经元声反应无影响。上术结果表明,GABA可能是介民LA抑制皮层AⅠ区神经元声反应的最终递质,并且是通过GABAA受体作用的。     

刺激面神经核对前包钦格复合体呼吸神经元放电活动的影响及其递质机制

实验选用健康成年SD大鼠,观察电刺激面神经核对前包钦格复合体(pre-—Boetzinger complex,PBC)呼吸神经元(RNs)放电活动的影响,并观察微电泳6-氰基-7-硝基喹喔啉-2,3-二酮(CNQX)、荷包牡丹碱(BIC)、士的宁(Stry)和阿托品(Atr)对电刺激面神经核引起的PBCRNs放电变化的拮抗效应,以进一步探讨面神经核是否参与呼吸调节及其可能的神经机制。在12只面运动神经元逆行溃变大鼠同侧PBC内共记录到各类RNs116个,电刺激溃变侧面神经核时,前吸气(Pre-I)神经元(24／26个)和吸气(I)神经元(30／35个)主要表现为兴奋,呼气(E)神经元(20／22个)和吸气-呼气(I-E)跨时相神经元(28／33个)表现为抑制。CNQx可完全或部分拮抗电刺激面神经核对Pre-I(18／24)和I(23／27)神经元的兴奋效应;Stry可拮抗电刺激面神经核对Pre-I(12／18)和I(14／23)神经元的瞬时抑制效应以及对I-E(20／28)和E(9／16)神经元的抑制效应;BIC可拮抗电刺激面神经核对I—E(22／25)和E(9／9)神经元的抑制效应;微电泳Atr对各类RNs的放电变化无明显作用。这些结果表明,面神经核非运动神经元可能通过向PBC的纤维投射,以Glu、GABA和Gly为神经递质或调质,调节PBC RNs的活动,从而参与对呼吸运动的调节。     

c-Myc localization within the nucleus: evidence for association with the PML nuclear body

Definitive localization of c-Myc within the nucleus is important to fully understand the regulation and function of this oncoprotein. Studies of c-Myc distribution, however, have produced conflicting results. To overcome technical challenges inherent in c-Myc cytology, we use here three methods to visualize c-Myc and in addition examine the impact of proteasome inhibition. EYFP or HA-tagged Myc was reintroduced by stable transfection into myc null diploid rat fibroblasts, replacing endogenous Myc with tagged Myc expressed at or near normal levels. This tagged Myc is shown to functionally replace the endogenous Myc by restoration of normal cell morphology and growth rate. We were able to confirm key findings using antibodies to the endogenous c-Myc and/or its partner, Max. Contrary to some published reports, by all three methods the c-Myc protein in rat fibroblasts distributes predominantly throughout the nucleus in a dispersed granular pattern, avoiding the nucleolus. Importantly, however, several findings provide evidence for an unanticipated relationship between c-Myc and PML nuclear bodies, which is enhanced under conditions of proteasome inhibition. Evidence of Max concentration within PML bodies is shown both with and without proteasome inhibition, strengthening the relationship between PML bodies and Myc/Max. Some accumulation of Myc and Max in nucleoli upon proteasome inhibition is also observed, although co-localization of ubiquitin was only seen with PML bodies. This work provides a comprehensive study of c-Myc distribution and also presents the first evidence of a relationship between turnover of this oncoprotein and PML nuclear bodies, known to break down in certain cancers.     

Extending the folding nucleus of ubiquitin with an independently folding beta-hairpin finger: hurdles to rapid folding arising from the stabilisation of local interactions

The N-terminal beta-hairpin sequence of ubiquitin has been implicated as a folding nucleation site. To extend and stabilise the ubiquitin folding nucleus, we have inserted an autonomously folding 14-residue peptide sequence beta4 which in isolation forms a highly populated beta-hairpin (>70%) stabilised by local interactions. NMR structural analysis of the ubiquitin mutant (Ubeta4) shows that the hairpin finger is fully structured and stabilises ubiquitin by approximately 8kJmol(-1). Protein engineering and kinetic (phi(F)-value) analysis of a series of Ubeta4 mutants shows that the hairpin extension of Ubeta4 is also significantly populated in the transition state (phi(F)-values >0.7) and has the effect of templating the formation of native contacts in the folding nucleus of ubiquitin. However, at low denaturant concentrations the chevron plot of Ubeta4 shows a small deviation from linearity (roll-over effect), indicative of the population of a compact collapsed state, which appears to arise from over-stabilisation of local interactions. Destabilising mutations within the native hairpin sequence and within the engineered hairpin extension, but not elsewhere, eliminate this non-linearity and restore apparent two-state behaviour. The pitfall to stabilising local interactions is to present hurdles to the rapid and efficient folding of small proteins down a smooth folding funnel by trapping partially folded or misfolded states that must unfold or rearrange before refolding.     

Mapping the areas sensitive to long-term endotoxin tolerance in the rat brain: a c-fos mRNA study

We have recently found that a single endotoxin administration to rats reduced the hypothalamic-pituitary-adrenal response to another endotoxin administration 4 weeks later, which may be an example of the well-known phenomenon of endotoxin tolerance. However, the time elapsed between the two doses of endotoxin was long enough to consider the above results as an example of late tolerance, whose mechanisms are poorly characterized. To know if the brain plays a role in this phenomenon and to characterize the putative areas involved, we compared the c-fos mRNA response after a final dose of endotoxin in animals given vehicle or endotoxin 4 weeks before. Endotoxin caused a widespread induction of c-fos mRNA in the brain, similar to that previously reported by other laboratories. Whereas most of the brain areas were not sensitive to the previous experience with endotoxin, a few showed a reduced response in endotoxin-pretreated rats: the parvocellular and magnocellular regions of the paraventricular hypothalamic nucleus, the central amygdala, the lateral division of the bed nucleus and the locus coeruleus. We hypothesize that late tolerance to endotoxin may involve plastic changes in the brain, likely to be located in the central amygdala. The reduced activation of the central amygdala in rats previously treated with endotoxin may, in turn, reduce the activation of other brain areas, including the hypothalamic paraventicular nucleus.     

Effect of Moxibustion on Dopaminergic and Serotonergic Systems of Rat Nucleus Accumbens

Acupuncture and moxibustion are traditional medical treatments that have come to play important roles in complementary and alternative medicines. Moxibustion also has a long history as a folk remedy in Japan, particularly due to the technical simplicity and selective efficacy on certain types of disease and distress. This study examined the effects of moxibustion focusing on the brain reward system, particularly in the nucleus accumbens. The effects of moxibustion stimulation at various sites and frequencies on monoamine levels of adult male Sprague-Dawley rats were examined using high-preformance liquid chromatography of dissected nucleus accumbens tissues. The rats weighing 290–310 g were divided into 3 groups according to the moxibustion point used: hindlimb, lumbar or parietal points. Each group was further divided into 3 subgroups, with stimulation for 10 consecutive days, for 1 day, or sham treatment (control). On each day of stimulation, 5 moxibustion cones with a peak temperature of 200°C were applied consecutively. Stimulation of any point on 1 day only did not change dopamine or serotonin levels, but lumbar stimulation significantly increased the metabolic turnover of dopamine. Conversely, stimulation for 10 consecutive days resulted in significantly decreased serotonin levels for hindlimb and parietal stimulations, and significantly increased 5-hydroxyindolacetic acid/serotonin ratio for hindlimb stimulation. These results suggest that the metabolic turnover of serotonin release may be accentuated by moxibustion in a reward-related brain area. Moxibustion over consecutive days, especially that to peripheral regions, appears most efficient to influence on monoamine levels in the nucleus accumbens. Special issue dedicated to Dr. Simo S. Oja     

Nucleocytoplasmic shuttling of the West Nile virus RNA‐dependent RNA polymerase NS5 is critical to infection

West Nile virus (WNV) is a single‐stranded, positive sense RNA virus of the family Flaviviridae and is a significant pathogen of global medical importance. Flavivirus replication is known to be exclusively cytoplasmic, but we show here for the first time that access to the nucleus of the WNV strain Kunjin (WNV_KUN) RNA‐dependent RNA polymerase (protein NS5) is central to WNV_KUN virus production. We show that treatment of cells with the specific nuclear export inhibitor leptomycin B (LMB) results in increased NS5 nuclear accumulation in WNV_KUN‐infected cells and NS5‐transfected cells, indicative of nucleocytoplasmic shuttling under normal conditions. We used site‐directed mutagenesis to identify the nuclear localisation sequence (NLS) responsible for WNV_KUN NS5 nuclear targeting, observing that mutation of this NLS resulted in exclusively cytoplasmic accumulation of NS5 even in the presence of leptomycin B. Introduction of NS5 NLS mutations into FLSDX, an infectious clone of WNV_KUN, resulted in lethality, suggesting that the ability of NS5 to traffic into the nucleus in integral to WNV_KUN replication. This study thus shows for the first time that NLS‐dependent trafficking into the nucleus during infection of WNV_KUN NS5 is critical for viral replication. Excitingly, specific inhibitors of NS5 nuclear import reduce WNV_KUN virus production, proving the principle that inhibition of WNV_KUN NS5 nuclear import is a viable therapeutic avenue for antiviral drug development in the future.     

性激素反馈调节下丘脑ARC和AVPV中kisspeptin-GPR54信号通路的核团差异

下丘脑-垂体-性腺（HPG）轴是调控生殖系统的发育和功能的重要内分泌系统。下丘脑中促性腺激素释放激素（GnRH）神经元,能够接收各种神经传导物质和神经调节物质的信号输入,引起HPG轴的级联反应。下丘脑弓状核(ARC）和前腹侧脑室周围核团(AVPV）中的kisspeptin-GPR54信号通路,可以调控GnRH的分泌和释放,影响性腺激素的分泌。近年来研究发现,性激素能够对下丘脑kisspeptin-GPR54信号通路产生反馈调节,且具有核团差异性。本文就性激素在下丘脑ARC和AVPV中对kisspeptin-GPR54信号通路反馈调节的差异性进行了综述,探讨下丘脑中不同核团对性激素刺激作用产生的不同反应。