A selective 5-HT1 agonist,RU 24969, increases locus coeruleus catechol metabolic and neuronal activity

Locus coeruleus activity was monitored by either in vivo electrochemistry, post-mortem HPLC, or single unit activity, after systemic administration of RU 24969, a potent serotonin-1 agonist. Whatever the methodology, activation of the locus coeruleus appeared after RU 24969 injection. Catechol oxidation current, assessed by in vivo differential pulse voltammetry and single unit activity in the locus coeruleus showed simultaneous increases after RU 24969. The increase in catechol oxidation current after RU 24969 was dose dependent (ED₅₀ = 1.4 mg kg⁻¹ of i.p. RU 24969). This increased activity was also observed on microdissected locus coeruleus as shown by the increased levels of dopamine and 3,4-dihydroxyphenylacetic acid measured with high performance liquid chromatography. Furthermore, RU 24969 treatment decreased 5-hydroxyindolacetic acid/serotonin ratio in the same microdissected locus coeruleus. This increased locus coeruleus catechol metabolic activity was suppressed by making lesions in the serotonergic systems with 5,7-dihydroxytryptamine. By contrast, neither 8-OHDPAT nor methysergide produced significant changes in the catechol oxidation current recorded in the locus coeruleus.     

Locus coeruleus fibre growth in oculo induced by trigeminotomy

Locus coeruleus from fetal donors was homologously grafted to the anterior eye chambers of adult rats whose eyes were sympathetically denervated. After intraocular maturation, outgrowth of noradrenaline-containing fibres from the locus coeruleus neurons on the host iris was studied by Falck--Hillarp fluorescence histochemistry.In control animals locus coeruleus grafts produce a halo of noradrenaline-containing nerve fibres around the graft, covering approximately one third of the surface of the host iris. Sensory denervation of host eyes carrying maturated locus coeruleus grafts was produced by intracranial lesions of the trigeminal nerve. Such lesions induced a rapid growth response in the grafted locus coeruleus neurons, leading within three weeks to complete innervation of the host iris. It was concluded that removal of non-sympathetic, non-parasympathetic nerve fibres on the host iris elicits a strong fibre-growth response in the grafted locus coeruleus.     

Monoamine Metabolism in the Locus Coeruleus Measured Concurrently with Behavior During Opiate Withdrawal: An In Vivo Microdialysis Study in Freely Moving Rats

Abstract: Using microdialysis, changes in monoamine metabolism were monitored in the locus coeruleus of freely moving rats during opiate withdrawal concomitantly with behavioral symptoms. Rats were infused with morphine (2 mg/kg/h, s.c.) or saline for 5 days and challenged with naltrexone (100 mg/kg, s.c.) on day 6. Following naltrexone challenge, the classic behavioral symptoms of morphine withdrawal were observed in rats treated with morphine but not in saline-infused rats. In morphine-dependent rats, naltrexone induced a marked increase (280%) in dialysate concentrations of 3,4-dihydroxyphenylacetic acid, an index of the functional activity of the noradrenergic neurons in the locus coeruleus. The local concentrations of the serotonin metabolite 5-hydroxyindoleacetic acid were also increased (70%) during morphine withdrawal. Taken together, these results (a) confirm in unanesthetized rats the hypothesis of an activation by opiate withdrawal of noradrenergic neurons in the locus coeruleus and (b) suggest an increase in serotonergic transmission in the same nucleus during morphine withdrawal.     

Biogenic amines in brain structures of rats of different zoo-social rank during immobilization stress]

The content of monoamines and their metabolites in different parts of the brain: mesencephalic reticular formation, locus coeruleus, sensomotor cortex was studied by high-performance liquid chromatography in rats with different zoo-social position. Content of dopamine and serotonin in the brain structures studied was found to be different in dominants and subdominants. Maximal changes of monoamines under immobilization stress were observed in dominants.     

Biochemical evidence for simultaneous activation of multiple locus coeruleus efferents

To test the hypothesis that all locus coeruleus projections are simultaneously activated when the locus coeruleus cells fire, the norepinephrine metabolite 3-methoxy-4-hydroxyphenethyleneglycol was assayed in four regions of the central nervous system innervated by the locus coeruleus after three treatments designed to increase locus coeruleus firing in rats. Electrical stimulation of the locus coeruleus, intraperitoneal piperoxan treatment, and electric footschock all significantly increased MHPG levels in rat cerebral cortex, cerebellum, hippocampus, and spinal cord. The magnitude of MHPG increase was greater after locus coeruleus stimulation than after footshock or piperoxan. No significant differences between increases in the above brain regions were found within each treatment group.     

Normal pharmacological and morphometric parameters in the noradrenergic hyperinnervated mutant mouse, “tottering”

Summary Pharmacological and anatomical analyses of central monoaminergic and cholinergic neurons were performed in the tottering mouse, an autosomal recessive neurologic gene mutation that results in an overproduction of axons of the locus coeruleus and an increase in norepinephrine content in specific terminal fields. Except for the previously reported increase in norepinephrine content, all pharmacological parameters measured, including tyrosine hydroxylase activity, norepinephrine turnover, serotonin content, and choline acetyltransferase activity, in targets hyperinnervated by the locus coeruleus were normal. Immunocytochemical staining for tyrosine hydroxylase demonstrated the pronounced hyperinnervation in the tottering brain, whereas both serotonin and choline acetyltransferase immunostaining were similar between tottering and wild type. The volume of 3 target areas that are hyperinnervated by the locus coeruleus in the tottering mouse, the hippocampus, cerebellum, and cochlear nuclei, were normal. In addition, neuronal number and somal size in the locus coeruleus were found to be unchanged in the mutant genotype. These data demonstrate several features of the effects of the tottering gene: 1) compensatory changes in several adrenergic pharmacological parameters do not occur in response to the hyperinnervation of targets by locus coeruleus axons; 2) neither direct effects of the tottering gene on, nor compensatory changes in, the extent of cholinergic or serotonergic innervation of several targets of the locus coeruleus appear to occur; and 3) the lack of changes in size of the targets of the locus coeruleus suggest that the hyperinnervation in the tottering mouse is due to a direct genetic alteration of axonal growth by the locus coeruleus neurons, rather than to selective shrinkage of targets in the presence of normal terminal arbors.     

大鼠PTSD后蓝斑核 β-catenin的表达下降伴随细胞凋亡

目的 探讨创伤后应激障碍( PTSD) 大鼠蓝斑神经元β-catenin(β-连环蛋白)的表达变化.方法 采用国际认定的SPS方法刺激建立大鼠PTSD模型,取成年健康雄性Wistar 大鼠100 只,随机分为连续单一刺激( single prolonged stress,SPS) 模型1 d、4 d、7 d、14 d 组和对照组,应用免疫组化、免疫印迹方法检测PTSD 大鼠蓝斑神经元β-catenin的表达变化;透射电镜观察PTSD大鼠蓝斑神经元的超微结构变化.结果 经SPS 刺激后大鼠蓝斑神经元细胞内β-catenin于1d开始逐渐减少,14d表达最少;蓝斑神经元出现细胞凋亡改变.结论 蓝斑神经元细胞凋亡可能是导致PTSD 患者蓝斑功能失调的重要原因之一.     

Afferent pathway from locus coeruleus to the nucleus solitarius

After the destruction of the nucleus tractas solitarii, just caudally to the writing pen by means of a stereotaxic instrument, the system of afferent fibres to the nucleus in question was investigated by the methods of Nauta and Fink--Heimer. The fibre terminals were revealed near locus coeruleus. Investigation of the locus coeruleus by Golgi method demonstrated that it usually has neurons of reticular type and transitional ones which resemble by their form the neurons specific for sensory formations. It is possible to conclude that locus coeruleus posesses connections of visceral origin which may play a part in the afferent influence of locus coeruleus on the brain cortex.     

BMPs, FGF8 and Wnts regulate the differentiation of locus coeruleus noradrenergic neuronal precursors

In the present study, we investigated the involvement of rhombomere 1 patterning proteins in the regulation of the major noradrenergic centre of the brain, the locus coeruleus. Primary cultures of rat embryonic day 13.5 locus coeruleus were treated with fibroblast growth factor-8, noggin and members of the bone morphogenetic and Wnt protein families. We show that bone morphogenetic proteins 2, 5 and 7 increase and noggin decreases the number of tyrosine hydroxylase-positive locus coeruleus neurons. Interestingly, from all Wnts expressed in the first rhombomere by embryonic day 12.5 in the mice, we only found expression of wnt5a mRNA in the vicinity of the locus coeruleus. In agreement with this finding, from all Wnts studied in vitro, only Wnt5a increased the number of tyrosine hydroxylase-positive neurons in locus coeruleus cultures. Finally, we also found that fibroblast growth factor-8 increased the number of tyrosine hydroxylase-positive cells in locus coeruleus cultures. Neither of the identified factors affected the survival of tyrosine hydroxylase-positive locus coeruleus noradrenergic neurons or the proliferation of their progenitors or neurogenesis. Instead, our results suggest that these patterning signals of rhombomere 1 may work to promote the differentiation of noradrenergic progenitors at later stages of development.     

蓝斑对迷走─心血管反射的影响

实验用家兔３６只,采用低频（５－８Ｈｚ）和高频（５０－１００Ｈｚ）电流刺激颈部迷走神经中枢端（ＶＡＳ）,建立迷走－减压和迷走－升压反射,两种频率电刺激均导致肾交感神经传出活动（ＲＳＡ）减少。以迷走－血压反射和迷走－交感反射为指标,连续电流刺激蓝斑（ＬＣ）或ＬＣ微量注射谷氨酸钠均抑制迷走－血压反射和迷走－交感反射。而连续电流刺激ＬＣ或ＬＣ微量注射谷氨酸钠本身均引起平均动脉血压升高和ＲＳＡ增加。本文对新近提出的对ＬＣ整体功能认识的理论,结合本文的结果进行了讨论     

蓝斑对迷走—心血管反射的影响

实验用家兔３６只,采用低频和高频电流刺激颈部迷走神经中枢端,建立迷走－减压和迷走－升压反射,两种频率电刺激均导致肾交感神经传出活动减少。以迷走－血压反射和迷走－交感反射为指标,连续电流刺激蓝斑或ＬＣ微量注射谷氨酸钠均抑制迷走－血压反射和迷走－交感反射。     

大鼠蓝斑核对迷走-迷走抑胃反射的加强作用

本文研究了蓝斑核对迷走-迷走抑胃反射的影响。实验结果表明,单独刺激迷走神经中枢端抑制胃电和胃运动,胃电慢波的振幅和胃内压分别下降到对照值的60.9％和45.7％,与对照值相比有明显的统计学意义(P<0.05)。刺激迷走神经中枢端的同时,以弱刺激刺激蓝斑核时,胃电慢渡的振幅和胃内压分别下降到对照值的42.1％和34.1％,与单独刺激迷走神经的效果相比较有非常显著的差异(P<0.01)。本文结果提示:蓝斑核的兴奋加强迷走-迷走抑胃反射。     

Association between the behavioral and neurochemical effects of amphetamine: Hemispheric asymmetry study

Effects of amphetamine on concentrations of dopamine, norepinephrine and serotonin in several monoamine-containing cell body and terminal regions were examined left and right separately in rats. Results suggest that amphetamine reduced the L-R asymmetry of most of these measures, and this effect is more significant in the cell body than in the terminal regions. Behaviorally, amphetamine also decreased L-R asymmetry of the spontaneous turning behavior in rats and this latter effect is most closely associated with the reductions of dopamine and norepinephrine asymmetries in the substantia nigra and reduction of norepinephrine asymmetry in the locus coeruleus.     

Effect of a high-frequency electrical current on the activity of the raphe nuclei and the locus coeruleus

Recovery cycles of primary evoked potentials to light flashes in the visual cortical area of waking rats were studied under conditions of pharmacological and electrical influences on serotonin (5-HT)- and noradren (NA)ergic brain systems. All factors used induced oscillations of the recovery cycles. Periods of oscillations were similar (300-400 ms) during pharmacological suppression of the NA-system and during high-frequency (500 Hz) electrical stimulation or lesion of locus coeruleus. Analogous influences on 5-HT-system were accompanied by oscillations of recovery cycles with a period of 200 ms. Mechanism of inhibitory action of high-frequency electrical stimulation on activity of monoaminergic systems is discussed.     

Atrial natriuretic peptide in the locus coeruleus and its possible role in the regulation of arterial blood pressure, fluid and electrolyte homeostasis.

Atrial natriuretic factor (ANP) is present in neuronal cells of the locus coeruleus and its vicinity in the pontine tegmentum and moderate amount of ANP is detectable in this area by radioimmunoassay. The ANP (both peripheral and brain-born) is known as a neuropeptide which may influence the body salt and water homeostasis and blood pressure by targeting both central and peripheral regulatory mechanisms. Whether this pontine ANP cell group is involved in any of these regulatory mechanisms, the effect of various types of hypertension and experimental alterations in the salt and water balance on ANP levels was measured by radioimmunoassay in the locus coeruleus of rats. Adrenalectomy, as well as aldosterone and dexamethasone treatments failed to alter ANP levels in the locus coeruleus. Reduced ANP levels were measured in spontaneously hypertensive (both young and adult) rats, and in diabetes insipidus (Brattleboro) rats with vasopressin replacement. In contrast to these situations, elevated ANP levels were found in rats with DOCA-salt or 1-kidney-1-clip hypertension. These data suggest a link between ANP levels in the locus coeruleus and fluid volume homeostasis. Whether this link is causal and connected with the major activity of locus coeruleus neurons (noradrenergic influence on brain regulatory activities) needs further informations.     

Generators of synchronous activity of the locus coeruleus during development

The locus coeruleus is thought to play an important role in the development of the central nervous system through a coordinated release of noradrenaline. The influence of the locus coeruleus on its diverse targets is strongly synchronized by the existence of electrical and chemical coupling between neurones, afferent supply of the nucleus from restricted sources and diffuse innervation of target areas. Extensive coupling between neonatal locus coeruleus neurones produces rhythmic synchronized electrical activity and distributes afferent synaptic activity throughout the entire nucleus. The strength of electrical coupling declines with age but appears to persist to a limited extent in the adult.     

Altered serotonin and dopamine metabolism in the CNS of serotonin 5-HT(1A) or 5-HT(1B) receptor knockout mice

Measurements of serotonin (5-HT), dopamine (DA), and noradrenaline, and of 5-HT and DA metabolites, were obtained by HPLC from 16 brain regions and the spinal cord of 5-HT(1A) or 5-HT(1B) knockout and wild-type mice of the 129/Sv strain. In 5-HT(1A) knockouts, 5-HT concentrations were unchanged throughout, but levels of 5-HT metabolites were higher than those of the wild type in dorsal/medial raphe nuclei, olfactory bulb, substantia nigra, and locus coeruleus. This was taken as an indication of increased 5-HT turnover, reflecting an augmented basal activity of midbrain raphe neurons and consequent increase in their somatodendritic and axon terminal release of 5-HT. It provided a likely explanation for the increased anxious-like behavior observed in 5-HT(1A) knockout mice. Concomitant increases in DA content and/or DA turnover were interpreted as the result of a disinhibition of DA, whereas increases in noradrenaline concentration in some territories of projection of the locus coeruleus could reflect a diminished activity of its neurons. In 5-HT(1B) knockouts, 5-HT concentrations were lower than those of the wild type in nucleus accumbens, locus coeruleus, spinal cord, and probably also several other territories of 5-HT innervation. A decrease in DA, associated with increased DA turnover, was measured in nucleus accumbens. These changes in 5-HT and DA metabolism were consistent with the increased aggressiveness and the supersensitivity to cocaine reported in 5-HT(1B) knockout mice. Thus, markedly different alterations in CNS monoamine metabolism may contribute to the opposite behavioral phenotypes of these two knockouts.     

Response of central monoaminergic neurons to lisuride: comparison with LSD.

The response of brain serotonergic (dorsal raphe), noradrenergic (locus coeruleus) and dopaminergic (pars compacta, substantia nigra) neurons to lisuride hydrogen maleate, a non-hallucinogenic ergot, was studied in the rat using extracellular single cell recording techniques. As has been previously reported for LSD, minute intravenous infusions of lisuride (1–5 μg/kg) produced a complete but reversible suppression of raphe unit spontaneous firing. A similar depressant response was noted when lisuride was applied to raphe units by microiontophoresis. In contrast, locus coeruleus neurons were accelerated by the drug at somewhat higher doses (25–50 μg/kg). Pars compacta neurons demonstrated a predominately depressant response to lisuride but many of the cells tested were only partially suppressed and a few units were accelerated. It is suggested that the marked alterations in central monoamine turnover which have been observed with lisuride are directly paralled by changes in impulse flow in monoaminergic neurons. The fact that lisuride has powerful suppressant effects on central serotonergic neurons but no psychotomimetic actions in man challenges the “serotonin theory” of hallucinogensis; however, other pharmacological properties may account for lisuride's lack of hallucinogenic effects. Further studies with lisuride may provide insight into those drug characteristics critical to the presence or absence of hallucinogenic action.     

Elevated Tyrosine Hydroxylase in the Locus Coeruleus of Suicide Victims

Abstract: The amounts of tyrosine hydroxylase protein in locus coeruleus from nine pairs of antidepressant-free suicide victims and age-matched, sudden-death control cases were determined by quantitative blot immunolabeling of cryostat-cut sections from the caudal portion of the nucleus. In each of the nine age-matched pairs, the concentration of tyrosine hydroxylase was greater in the sample from the suicide victim, with values ranging from 108 to 172% of the matched control value (\-x = 136%). By contrast, there were no differences in the concentrations of neuron-specific enolase protein in the same set of samples. Similarly, the number of neuromelanin-containing cells, counted in sections of locus coeruleus adjacent to those taken for blot immunolabeling analyses, did not differ between the two groups. These data indicate that locus coeruleus neurons from suicide victims contain higher than normal concentrations of tyrosine hydroxylase, thus raising the possibility that the expression of tyrosine hydroxylase in locus coeruleus may be relevant in the pathophysiology of suicide.