Exposure to ELF- magnetic field promotes restoration of sensori-motor functions in adult rats with hemisection of thoracic spinal cord

Clinically effective modalities of treatment for spinal cord injury (SCI) still remain unsatisfactory and are largely invasive in nature. There are reports of accelerated regeneration in injured peripheral nerves by extremely low-frequency pulsed electromagnetic field (ELF-EMF) in the rat. In the present study, the effect of (50 Hz), low-intensity (17.96 μT) magnetic field (MF) exposure of rats after-hemisection of T13 spinal cord (hSCI) was investigated on sensori-motor and locomotor functions. Rats were divided into hSCI (sham-exposed) and hSCI+MF (MF: 2 h/d X 6 weeks) groups. Besides their general conditions, locomotor function by Basso, Beattie, and Brenahan (BBB) score; motor responses to noxious stimuli by threshold of tail flick (TTF), simple vocalization (TSV), tail flick latency (TFL), and neuronal excitability by H-reflex were noted. It is found that, in the hSCI+MF group, a statistically significant improvement over the hSCI control group was noted in BBB score from post-SCI wk2 and TFL and TTF by post-hSCI wk1 and wk3, respectively. Correspondingly, TSV gradually restored by post-hSCI wk5.The threshold of H-reflex was reduced on ipsilateral side vs. contralateral side in hSCI and hSCI+MF group. A complete bladder control was dramatically restored on post-hSCI day4 (vs. day7 of hSCI group) and the survival rate was 100% in the hSCI+MF group (vs. 90% of hSCI group). The results of our study suggest that extremely low-frequency (50 Hz), low-intensity (17.96 μT) MF exposure for 2 h/d x 6wks promotes recovery of sensori-motor behavior including locomotion and bladder control both in terms of temporal pattern and magnitude in hemisection injury of (T13) spinal cord rats.     

Exposure to ELF- magnetic field promotes restoration of sensori-motor functions in adult rats with hemisection of thoracic spinal cord

Clinically effective modalities of treatment for spinal cord injury (SCI) still remain unsatisfactory and are largely invasive in nature. There are reports of accelerated regeneration in injured peripheral nerves by extremely low-frequency pulsed electromagnetic field (ELF-EMF) in the rat. In the present study, the effect of (50?Hz), low-intensity (17.96 μT) magnetic field (MF) exposure of rats after-hemisection of T13 spinal cord (hSCI) was investigated on sensori-motor and locomotor functions. Rats were divided into hSCI (sham-exposed) and hSCI+MF (MF: 2?h/d X 6 weeks) groups. Besides their general conditions, locomotor function by Basso, Beattie, and Brenahan (BBB) score; motor responses to noxious stimuli by threshold of tail flick (TTF), simple vocalization (TSV), tail flick latency (TFL), and neuronal excitability by H-reflex were noted. It is found that, in the hSCI+MF group, a statistically significant improvement over the hSCI control group was noted in BBB score from post-SCI wk2 and TFL and TTF by post-hSCI wk1 and wk3, respectively. Correspondingly, TSV gradually restored by post-hSCI wk5.The threshold of H-reflex was reduced on ipsilateral side vs. contralateral side in hSCI and hSCI+MF group. A complete bladder control was dramatically restored on post-hSCI day4 (vs. day7 of hSCI group) and the survival rate was 100% in the hSCI+MF group (vs. 90% of hSCI group). The results of our study suggest that extremely low-frequency (50?Hz), low-intensity (17.96 μT) MF exposure for 2?h/d x 6wks promotes recovery of sensori-motor behavior including locomotion and bladder control both in terms of temporal pattern and magnitude in hemisection injury of (T13) spinal cord rats.     

Extremely low frequency magnetic field protects injured spinal cord from the microglia- and iron-induced tissue damage

Spinal cord injury (SCI) is insult to the spinal cord, which results in loss of sensory and motor function below the level of injury. SCI results in both immediate mechanical damage and secondary tissue degeneration. Following traumatic insult, activated microglia release proinflammatory cytokines and excess iron due to hemorrhage, initiating oxidative stress that contributes to secondary degeneration. Literature suggests that benefits are visible with the reduction in concentration of iron and activated microglia in SCI. Magnetic field attenuates oxidative stress and promotes axonal regeneration in vitro and in vivo. The present study demonstrates the potential of extremely low frequency magnetic field to attenuate microglia- and iron-induced secondary injury in SCI rats. Complete transection of the spinal cord (T13 level) was performed in male Wistar rats and subsequently exposed to magnetic field (50 Hz,17.96 µT) for 2 h daily for 8 weeks. At the end of the study period, spinal cords were dissected to quantify microglia, macrophage, iron content and study the architecture of lesion site. A significant improvement in locomotion was observed in rats of the SCI + MF group as compared to those in the SCI group. Histology, immunohistochemistry and flow cytometry revealed significant reduction in lesion volume, microglia, macrophage, collagen tissue and iron content, whereas, a significantly higher vascular endothelial growth factor expression around the epicenter of the lesion in SCI + MF group as compared to SCI group. These novel findings suggest that exposure to ELF-MF reduces lesion volume, inflammation and iron content in addition to facilitation of angiogenesis following SCI.     

Release and effect ofγ-Aminobutyric acid (GABA) on rat pineal melatonin productionin vitro

1. 3H-gamma-Aminobutyric acid (GABA) release elicited by a depolarizing K+ stimulus or by noradrenergic transmitter was examined in rat pineals in vitro. 2. The release of 3H-GABA was detectable at a 20 mM K+ concentration in medium and increased steadily up to 80 mM K+. 3. In a Ca2+-free medium 3H-GABA release elicited by 30 mM K+, but not that elicited by 50 mM K+, became blunted. 4. Norepinephrine (NE; 10(-6)-10(-4) M) stimulated 3H-GABA release from rat pineal explants in a dose-dependent manner. 5. The activity of 10(-5) M NE on pineal GABA release was suppressed by equimolecular amounts of prazosin or phentolamine (alpha 1- and alpha 1/alpha 2-adrenoceptor blockers, respectively) and was unaffected by propranolol (beta-adrenoceptor blocker). 6. The alpha 1-adrenoceptor agonist phenylephrine (10(-7)-10(-5) M) and the beta-adrenoceptor agonist isoproterenol (10(-5) M) mimicked the GABA releasing activity of NE, while 10(-7) M isoproterenol failed to affect it; the alpha 2-adrenoceptor agonist clonidine (10(-7)-10(-5) M) did not modify 3H-GABA release. 7. The addition of 10(-4) M GABA or of the GABA transaminase inhibitor gamma-acetylenic GABA or aminooxyacetic acid inhibited the melatonin content and/or release to the medium in rat pineal organotypic cultures. 8. GABA at concentrations of 10(-5) M or greater partially inhibited the NE-induced increase in melatonin production by pineal explants. 9. The depressant effect of GABA on melatonin production was inhibited by the GABA type A receptor antagonist bicuculline; bicuculline alone increased the pineal melatonin content. Baclofen, a GABA type B receptor agonist, did not affect the pineal melatonin content or release. 10. The decrease in serotonin (5-HT) content of rat pineal explants brought about by NE was not modified by GABA; GABA by itself increased 5-HT levels. 11. These results indicate that (a) GABA is released from rat pineals by a depolarizing stimulus of K+ through a mechanism which is partially Ca2+ dependent; (b) NE releases rat pineal GABA via interaction with alpha 1-adrenoceptors; (c) GABA inhibits melatonin production in vitro via interaction with GABA type A receptor sites; and (d) GABA's effect on NE-induced melatonin release does not correlate with the lack of effect on the NE-induced decrease in pineal 5-HT content.     

GABA modulation of cholinergic transmission in rat oviduct

The effects of electrical stimulation, γ-aminobutyric acid (GABA), acetylcholine (ACh), norepinephrine (NE), 5-hydroxytryptamine (5-HT), GABA agonists and bicuculline were studied on spontaneous movements of isolated rat oviduct. The tissue did not respond to electrical stimulation or to GABA, NE and 5-HT when added to the incubation medium. ACh produced contractions related to its concentration which were maximal at the diestrous-1 phase when GABA caused a 20% rise in the ACh contraction. This effect was mimicked by GABA agonists whereas it was suppressed by bicuculline. β-Estradiol benzoate (EB) increased ACh contractions in diestrous-1 and in the late proestrous phases. GABA did not modify the EB effect. Progesterone did not modify ACh contractions in any of the studied phases. These findings suggest a possible modulatory role for GABA on ACh responses in the isolated rat oviduct.     

Effects of transmitters on pyramidal and nonpyramidal neurons in hippocampal slices

Investigations were performed on the effects of acetylcholine (ACh), norepinephrine (NE), 5-hydroxytryptamine (5-HT), and -aminobutyric acid (GABA) on the background firing of the three following groups of field CA₃ neurons in guinea pig hippocampal slices: nonpyramidal neurons of the stratum radiatum moleculare (NSR), stratum pyramidale cells with single spike discharges (SD units), and those with complex discharge patterns (CD units) within the same layer. The action of ACh and NE on presumed interneurons of the pyramidal layer (IPL) was also investigated; CD units were found to differ from the remaining groups, which reacted similarly to the transmitters tested. It was shown that NE, 5-HT, and GABA inhibited the activity of CD cells, while ACh produced inhibitory-activating response in 50% of these units. Both NE and ACh exerted a monophasic activating effect on NSR, ISP, and SD, however, while 5-HT and GABA induced activation in a proportion of NSR and SD cells, as well as inhibitory response. The excitatory effects produced by ACh, NE, and 5-HT on NSR persisted during blockade of synaptic transmission, indicating that associated afferent fibers may be acting directly on these cells.Institute of Biological Physics, Academy of Sciences of the USSR, Pushchino-on-Oka. Translated from Neirofiziologiya, Vol. 20, No. 1, pp. 64–74, January–February, 1988.     

In vitro release of endogenous monoamines and amino acids from several CNS regions of the rat

The in vitro release of endogenous norepinephrine (NE), dopamine (DA), serotonin (5-HT), GABA, glutamate (GLU), aspartate (ASP), glycine (GLY), taurine (TAU) and alanine (ALA) from superfused slices of cerebral cortex (CTX), striatum (STR), hippocampus (HIP), hypothalamus (HYPO), midbrain (MB), thalamus (THAL), nucleus accumbens (ACC), pons-medulla (PM) and spinal cord (SC) was studied. Under resting conditions or with 60 mM K⁺ in the absence of Ca²⁺, there was little or no release of NE, DA, 5-HT, GABA, GLU or ASP from any region. In most regions, there was a measurable resting release of ALA, GLY and TAU; of these three amino acids, only GLY in the PM and SC showed an increased release in the 60 mM K⁺ plus 2.5 mM Ca²⁺ medium. In 8 of the regions studied, the release of both GABA and GLU were stimulated by 60 mM K⁺ in the presence of 2.5 mM Ca²⁺. For the amino acids, no reliable data were obtained for release from the ACC because of its small size. The highest amount of K⁺-stimulated, Ca²⁺-dependent release of GABA was found with slices from the HYPO, THAL and MB while the highest amount of GLU was released from slices of STR, HIP and CTX. In those regions where reliable levels of K⁺-stimulated, Ca²⁺-dependent release of ASP were observed (STR, CTX, THAL), the amount of ASP was at least 5-fold lower than the values for GLU. A K⁺-stimulated, Ca²⁺-dependent release of NE, DA and 5-HT was observed for all 9 CNS regions studied. The highest release of (a) DA occurred from slices of CTX, STR and ACC; (b) NE was found in the HYPO and ACC; and (c) 5-HT occurred in the HYPO. The data (a) do not support a transmitter role for ALA and TAU in the CNS; (b) support a major transmitter function for GLY only in the PM and SC; and (c) support a transmitter role for GABA, GLU, NE, DA and 5-HT in the CNS regions examined (with the exception of GABA and GLU in the ACC where no data were obtained).     

Decreased 5-HT<Subscript>1A</Subscript> Receptor Gene Expression and 5-HT<Subscript>1A</Subscript> Receptor Protein in the Cerebral Cortex and Brain Stem during Pancreatic Regeneration in Rats

The present study was to investigate the role of central 5-HT and 5-HT_1A receptor binding and gene expression in a rat model of pancreatic regeneration using 60% pancreatectomy. The pancreatic regeneration was evaluated by 5-HT content and 5-HT_1A receptor gene expression in the cerebral cortex (CC) and brain stem (BS) of sham operated, 72 h and 7 days pancreatectomised rats. 5-HT content significantly increased in the CC (P < 0.01) and BS (P < 0.05) of 72 h pancreatectomised rats. Sympathetic activity was decreased as indicated by the significantly decreased norepinephrine (NE) and epinephrine (EPI) level (P < 0.001 and P < 0.05) in the plasma of 72 h pancreatectomised rats. 5-HT_1A receptor density and affinity was decreased in the CC (P < 0.01) and BS (P < 0.01). These changes correlated with a diminished 5-HT_1Areceptor mRNA expression in the brain regions studied. Our results suggest that the brain 5-HT through 5-HT_1A receptor has a functional role in the pancreatic regeneration through the sympathetic regulation.     

Antinociceptive properties of the 5-HT3 receptor antagonist in the model of inflammatory pain in rats of different age with prenatal deficit of serotonine and under stress

The role of peripheral 5-HT3 receptors in the nociceptive behavioral response and the effect of the 5-HT3 antagonist ondansetron on indices of acute and tonic pain were investigated in the formalin test in 25- and 90-day-old Wistar male rats. The experimental rats were prenatally exposed to 5-HT depletion (a single injection ofparachlorophenilalanine 400 mg/kg/2 ml, i. p.; ICN, USA to the dams on day 9 of pregnancy) and to stress (dams immobilization during the last week of pregnancy). Antinociceptive effects of ondansetron in the rats with both prenatal 5-HT deficiency and stress (experimental rats) and prenatal injection of saline solution and stress (control rats) were more obvious in the younger animals. Prenatal 5-HT deficiency attenuated the antinociceptive effect of ondansetron in licking patterns in the younder age group in acute pain, and in adults--in tonic pain. Thus, the data obtained in the rats with prenatal 5-HT deficiency and stress indicate involvement of 5-HT3 receptors in mediation of prolonged pain in the formalin test, and antinociceptive effect of ondansetron which is attenuated in animals with prenatal 5-HT deficiency and specifically depends on rat's age.     

Electroacupuncture modulates the intestinal microecology to improve intestinal motility in spinal cord injury rats

Spinal cord injury (SCI) is a disease involving gastrointestinal disorders. The underlying mechanisms of the potential protective effects of electroacupuncture (EA) and 5-hydroxytryptamine (5-HT) system on SCI remain unknown. We investigated whether EA improves gut microbial dysbiosis in SCI and regulates the 5-HT system. 16S rDNA gene sequencing was applied to investigate alterations in the gut microbiome of the rats. Faecal metabolites and the expression of the 5-HT system were detected. EA and faecal microbiota transplantation (FMT) treatment facilitated intestinal transmission functional recovery and restored the colon morphology of SCI rats. The composition of the intestinal microbiota, including numbers of phylum Proteobacteria, class Clostridia, order Bacteroidales, and genus Dorea, were amplified in SCI rats, and EA and FMT significantly reshaped the intestinal microbiota. SCI resulted in disturbed metabolic conditions in rats, and the EA and FMT group showed increased amounts of catechin compared with SCI rats. SCI inhibited 5-HT system expression in the colon, which was significantly reversed by EA and FMT treatment. Therefore, EA may ameliorate SCI by modulating microbiota and metabolites and regulate the 5-HT system. Our study provides new insights into the pathogenesis and therapy of SCI from the perspective of microbiota and 5-HT regulation.     

Topography of synaptosomal high affinity uptake systems.

We have tested the hypothesis that the glycoproteins in the cell membrane of axonal terminals are involved in high affinity uptake of neurotransmitters by studying the effects of lectin binding and trypsin treatment on this process in synaptosomes. Binding of two lectins, Concanavalin A and a lectin isolated from the lentil Lens culinaris, to synaptosomes does not change the uptake of six putative transmitters: L-glutamate, norepinephrine (NE), 5-hydroxytryptamine (5-HT), dopamine, choline (Ch), and γ-aminobutyrate (GABA). While trypsin digestion of surface proteins of synaptosomes has no effect on the uptake of NE, 5-HT, dopamine, Ch and GABA, it reduces the rate of uptake of L-glutamate. This reduction is not due to synaptosomal lysis or a profound conformational change of the synaptic plasma membrane since the maximal velocity of high affinity uptake is reduced drastically with little attendant change in K_m.     

臭椿生物碱canthin-6-one对小鼠镇静催眠作用的研究

摘要 目的：研究臭椿生物碱canthin-6-one对小鼠的镇静催眠作用。方法：选昆明小鼠随机分为空白组、地西泮阳性药物组、canthin-6-one低、中、高给药组（5、10、20 mg?kg^-1），采用阈上剂量和阈下剂量戊巴比妥钠诱导小鼠睡眠，记录入睡小鼠比例、睡眠潜伏期和睡眠持续时间。此外，酶联免疫法测定小鼠脑组织中5-HT、NE、DA和GABA含量。结果：中、高剂量canthin-6-one可使小鼠的站立次数和自主活动次数均明显减少（P＜0.05），可使阈上剂量戊巴比妥钠诱导的小鼠的睡眠潜伏期缩短（P＜0.05）；各剂量组可使阈下剂量戊巴比妥钠诱导的小鼠入睡率提高（P＜0.05）。此外，中、高剂量canthin-6-one也可降低小鼠脑组织中5-HT和NE含量，增加GABA含量（P＜0.05），对DA的含量有影响，但无统计学意义（P＞0.05）。结论：Canthin-6-one有明显的协同戊巴比妥钠改善睡眠作用，其作用与相关神经递质（5-HT、NE、GABA）具有密切关系。     

Cytochemical localization of Na+/K+-ATPase activity in cochlear strial marginal cells after various catecholamine administrations

Sodium/potassium-activated adenosine triphosphatase (Na+/K+-ATPase) activity in the kidney and brain is high, and is regulated by catecholamines. Na+/K+-ATPase activity is also high in the basolateral infoldings of the strial marginal cells, where it aids in maintaining the characteristic electrolyte composition of the endolymph. To clarify the involvement of humoral control in strial function, particularly the role of catecholamines, the K+-dependent p-nitrophenylphosphatase (K+-NPPase) activity of strial marginal cells was investigated in guinea pigs using a cerium-based cytochemical method. The effects of reserpine, serotonin (5-HT), norepinephrine (NE), epinephrine (EP), both alone and in combination, were studied. High doses of reserpine cause depletion of sympathetic substances. Strial K+-NPPase activity was decreased after reserpine or dopamine treatment, and was increased after 5-HT, NE, and EP treatment. After reserpinization, repeated treatment with 5-HT, NE, or EP led to detectable strial enzyme activity. Thus, exogenous 5-HT, NE, and EP were able to restore strial K+-NPPase activity in the reserpine-treated animals. These results suggested that biogenic amines regulate strial K+-NPPase activity. Thus, the function of the stria vascularis may be regulated by the opposing actions of these catecholamines, and 5-HT.     

Decreased serotonin level during pregnancy alters morphological and functional characteristics of tonic nociceptive system in juvenile offspring of the rat

Serotonin (5-HT) contributes to the prenatal development of the central nervous system, acting as a morphogen in the young embryo and later as a neurotransmitter. This biologically active agent influences both morphological and biochemical differentiation of raphe neurons, which give rise to the descending serotonergic paths that regulate the processing of acutely evoked nociceptive inputs. The involvement of 5-HT in the prenatal development of tonic nociceptive system has not been studied. In the present study we evaluated the effects of a single injection (400 mg/kg, 2 ml, i.p.) of the 5-HT synthesis inhibitor, para-chlorophenylalanine (pCPA), given to pregnant rats during the critical period fetal serotonin development. The functional integrity of the tonic nociceptive response was investigated in 25 day old rats using the classic formalin test. Morphological analysis of brain structures involved in formalin-induced pain and 5-HT levels in the heads of 12-day embryos were also evaluated. Embryonic levels of 5-HT were significantly lowered by the treatment. The juvenile rats from pCPA-treated females showed altered brain morphology and cell differentiation in the developing cortex, hippocampus, raphe nuclei, and substantia nigra. In the formalin test, there were significant decreases in the intensity and duration of the second phase of the formalin-induced response, characterizing persistent, tonic pain. The extent of impairments in the brain structures correlated positively with the level of decrease in the behavioral responses. The data demonstrate the involvement of 5-HT in the prenatal development of the tonic nociceptive system. The decreased tonic component of the behavioral response can be explained by lower activity of the descending excitatory serotonergic system originating in the raphe nuclei, resulting in decreased tonic pain processing organized at the level of the dorsal horn of the spinal cord.     

Musa methylated DNA sequences associated with tolerance toMycosphaerella fijiensis toxins

DNA methylation is an epigenetic phenomenon associated with gene silencing in transgenic plants, retrotransposons and virus infection. Expression analysis of specific genes in Arabidopsis methylation mutants showed an association between DNA methylation and gene expression. To determine whether DNA methylation is associated with resistance to black Sigatoka (BS) andMycosphaerella fijiensis (MF), we used anin vitro assay of mesophyll cell suspensions of reference cultivars with known resistance to BS. Methylation of CC^mGG sequences was evaluated by methylation-sensitive amplification polymorphism (MSAP) markers of reference cultivars and somaclonal variants to identify molecular markers associated with resistance to MF toxins and BS. Four MSAP markers were associated with resistance (MAR) to MF toxins. The MSAP markers show a high degree of sequence similarity with resistance gene analog and with retrotransposon sequences. The MSAP markers are useful as molecular indicators of tolerance to MF toxins and resistance to BS.     

Acid stimulation (sour taste) elicits GABA and serotonin release from mouse taste cells

Several transmitter candidates including serotonin (5-HT), ATP, and norepinephrine (NE) have been identified in taste buds. Recently, γ-aminobutyric acid (GABA) as well as the associated synthetic enzymes and receptors have also been identified in taste cells. GABA reduces taste-evoked ATP secretion from Receptor cells and is considered to be an inhibitory transmitter in taste buds. However, to date, the identity of GABAergic taste cells and the specific stimulus for GABA release are not well understood. In the present study, we used genetically-engineered Chinese hamster ovary (CHO) cells stably co-expressing GABA(B) receptors and Gαqo5 proteins to measure GABA release from isolated taste buds. We recorded robust responses from GABA biosensors when they were positioned against taste buds isolated from mouse circumvallate papillae and the buds were depolarized with KCl or a stimulated with an acid (sour) taste. In contrast, a mixture of sweet and bitter taste stimuli did not trigger GABA release. KCl- or acid-evoked GABA secretion from taste buds was Ca(2+)-dependent; removing Ca(2+) from the bathing medium eliminated GABA secretion. Finally, we isolated individual taste cells to identify the origin of GABA secretion. GABA was released only from Presynaptic (Type III) cells and not from Receptor (Type II) cells. Previously, we reported that 5-HT released from Presynaptic cells inhibits taste-evoked ATP secretion. Combined with the recent findings that GABA depresses taste-evoked ATP secretion, the present results indicate that GABA and 5-HT are inhibitory transmitters in mouse taste buds and both likely play an important role in modulating taste responses.     

Serotonin-1A Receptor Polymorphism (rs6295) Associated with Thermal Pain Perception

Background

Serotonin (5-HT) is highly involved in pain regulation and serotonin-1A (5-HT1A) receptors are important in determining central 5-HT tone. Accordingly, variation in the 5-HT1A receptor gene (HTR1A) may contribute to inter-individual differences in human pain sensitivity. The minor G-allele of the HTR1A single nucleotide polymorphism (SNP) rs6295 attenuates firing of serotonergic neurons and reduces postsynaptic expression of the receptor. Experiments in rodents suggest that 5-HT1A-agonism modulates pain in opposite directions at mild compared to high noxious intensities. Based upon this and several other similar observations, we hypothesized that G-carriers would exhibit a relative hypoalgesia at mild thermal stimuli but tend towards hyperalgesia at higher noxious intensities.

Methods

Fourty-nine healthy individuals were selectively genotyped for rs6295. Heat- and cold-pain thresholds were assessed along with VAS-ratings of a range of suprathreshold noxious heat intensities (45°C–49°C). Nociceptive-flexion reflex (NFR) thresholds were also assessed.

Results

Volunteers did not deviate significantly from Hardy-Weinberg equilibrium. G-carriers were less sensitive to threshold-level thermal pain. This relative hypoalgesia was abolished at suprathreshold noxious intensities where G-carriers instead increased their ratings of heat-pain significantly more than C-homozygotes. No differences with regard to NFR-thresholds emerged.

Conclusion/Significance

To the best of our knowledge this is the first study of human pain perception on the basis of variation in HTR1A. The results illustrate the importance of including a range of stimulus intensities in assessments of pain sensitivity. In speculation, we propose that an attenuated serotonergic tone may be related to a ‘hypo- to hyperalgesic’ response-pattern. The involved mechanisms could be of clinical interest as variation in pain regulation is known to influence the risk of developing pain pathologies. Further investigations are therefore warranted.     

Arginine vasopressin induces periaqueductal gray release of enkephalin and endorphin relating to pain modulation in the rat

Previous study has proven that microinjection of arginine vasopressin (AVP) into periaqueductal gray (PAG) raises the pain threshold, in which the antinociceptive effect of AVP can be reversed by PAG pretreatment with V2 rather than V1 or opiate receptor antagonist. The present work investigated the AVP effect on endogenous opiate peptides, oxytocin (OXT) and classical neurotransmitters in the rat PAG. The results showed that AVP elevated the concentrations of leucine-enkephalin (L-Ek), methionine-enkephalin (M-Ek) and beta-endorphin (beta-Ep), but did not change the concentrations of dynorphinA(1-13) (DynA(1-13)), OXT, classical neurotransmitters including achetylcholine (Ach), choline (Ch), serotonin (5-HT), gamma-aminobutyric acid (GABA), glutamate (Glu), dopamine (DA), norepinephrine (NE) and epinephrine (E), and their metabolic products in PAG perfusion liquid. Pain stimulation increased the concentrations of AVP, L-EK, M-Ek, beta-Ep, 5-HT and 5-HIAA (5-HT metabolic product), but did not influence the concentrations of DynA(1-13), OXT, the other classical neurotransmitters and their metabolic products. PAG pretreatment with naloxone - an opiate receptor antagonist completely attenuated the pain threshold increase induced by PAG administration of AVP, but local pretreatment of OXT or classical neurotransmitter receptor antagonist did not influence the pain threshold increase induced by PAG administration of AVP. The data suggested that AVP in PAG could induce the local release of enkephalin and endorphin rather than dynophin, OXT and classical neurotransmitters to participate in pain modulation.     

An Inhibitor of Acetolactate Synthase from a Microbe

Such stress factors as mechanical (vibration), thermal (unfavorable temperature), optical (light), and starvation reduced the larval growth of the red flour beetle (Triholium castaneum Herbst). Various biogenic amines, including octopamine (OA), dopamine (DA), serotonin (5-HT), epinephrine (E), norepinephrine (NE), their precursors, and metabolites, in whole-body T. castaneum were measured by high-performance liquid chromatography coupled with electrochemical detection (ECD). Tyrosine occurred in the highest concentration, followed by OA, tryptophan, and 3,4-dihydroxymandelic acid. The amount of OA was much higher than that of tyramine (a precursor of OA in the biosynthetic pathway) and of synephrine (N-methyl OA). DA, 5-HT, E, NE, and their related substances occurred in extremely low quantities compared with OA. Insects were stressed by vibrating at 1, 10, 100, or 1000Hz, optically under a 24-h light (15W, 50Hz) photoperiod, thermally by changing the incubation temperature from an initial value of 30°C, or by starvation, which resulted in dramatic changes of levels of biogenic amines, including OA.     

Time-dependent changes in brain biogenic amine dynamics following castration in male rats

—Alterations in whole-brain and hypothalamic levels of serotonin (5-HT), 5-hydroxyindoleacetic acid (5-HIAA), norepinephrine (NE), dopamine (DA) as well as the turnover rates of NE and DA of adult male rats were analysed fluorometrically at either 3 weeks or 6 weeks following castration. Significant increases were observed in whole-brain (minus hypothalamus) 5-HIAA levels and hypothalamic DA levels, fractional rate constants and utilization rates at the 3 but not the 6 week intervals. Elevated levels of 5-HT were observed at both time intervals while an increase in whole-brain DA was seen only at the 6 week interval. Whole brain NE turnover rates of castrated animals did not differ significantly from those of sham-castrate control animals at either test interval. However, a tendency toward increased hypothalamic NE turnover rates was seen in the castrated animals. These biochemical changes resulted in decreased NE/5-HT and DA/5-HT ratios for the castrate rats as compared to controls. The results are discussed in relation to emotional and aggressive behavior and are interpreted as being consistent with the hypothesis purporting an inhibitory role for 5-HT and excitatory role for NE and DA in sex-specific behavior patterns including aggression.