Effects of ischemia on cholinergic neurotransmission and electrolyte content in newborn pig lumbar spinal cord

The biochemical changes of the elements of cholinergic neurotransmission (choline acetyltransferase, ChAT; acetylcholinesterase, AChE; butyrylcholinesterase, BuChE; and muscarinic cholinergic receptors, mAChR) as well as the electrolyte content were studied in ischemic lumbar spinal cord segments of newborn pigs. Ischemia was elicited by ligating the aorta for 30 min. Although no significant changes were observed in the sodium, potassium and calcium content of ischemic spinal cords, the calcium content was slightly elevated, to 119.3% of the control value. Whereas significant depletions were observed in both AChE and ChAT activities (to 69.1 and 87.7% of the control value, respectively), there was no significant change in BuChE activity as compared to the control value. The mAChR were also decreased, from 33.25 +/- 2.2 to 27.18 +/- 1.9 fmol/mg protein, while the Kd value was not significantly altered. It is concluded that even a relatively brief interruption of the oxygen supply can cause severe damage in the lumbar spinal cord of the newborn pig, affecting the cholinergic neurotransmission elements. This animal model might be suitable for studying the effects of hypoxia in newborns and children during chest operations involving the descending aorta.     

ABRA在不同年龄大鼠腰段脊髓中的表达变化

目的检测Actin binding Rho activator（ABRA）在不同年龄大鼠腰段脊髓中的表达变化。方法采用Western blot定量检测不同年龄大鼠腰段脊髓中ABRA蛋白水平表达变化,采用免疫荧光染色显示不同年龄大鼠腰髓中ABRA细胞定位。结果Western blot显示ABRA在新生鼠腰段脊髓中表达显著高于成年鼠及老年鼠。免疫荧光染色显示ABRA广泛表达于神经元的胞核、胞浆和突起,在腰髓前角,与前角运动神经元存在共定位,在腰髓后角,与小的NeuN阳性感觉神经元存在共定位。腰髓前角、后角的阳性细胞计数均显示新生鼠ABRA＋NeuN双阳性细胞占总ABRA阳性细胞百分比显著低于成年鼠及老年鼠。结论ABRA广泛表达于腰髓中的神经元,ABRA在新生鼠腰髓中表达最强,随年龄的增长呈现明显的时相变化,提示ABRA可能参与了腰髓中神经元的发育和成熟。     

Proteomic analysis of spinal protein expression in rats exposed to repeated intrathecal morphine injection

Repeated administration of morphine for treating severe chronic pain may lead to neuroadaptive changes in the spinal cord that are thought to underlie molecular mechanisms of the development of morphine tolerance and physical dependence. Here, we employed a 2-D gel-based proteomic technique to detect the global changes of the spinal cord protein expression in rats that had developed morphine tolerance. Morphine tolerance at the spinal cord level was induced by repeated intrathecal injections of morphine (20 microg/10 microL) twice daily for 5 days and evaluated by measurements of paw withdrawal latencies and maximal possible analgesic effect at day 5. After behavioral tests, the lumbar enlargement segments of spinal cord were harvested and proteins resolved by 2-DE. We found that eight proteins were significantly up-regulated or down-regulated in spinal cord after morphine tolerance development, including proteins involved in targeting and trafficking of the glutamate receptors and opioid receptors, proteins involved in oxidative stress, and cytoskeletal proteins, some of which were confirmed by Western blot analysis. Morphine-induced expressional changes of these proteins in the spinal cord might be involved in the central mechanisms that underlie the development of morphine tolerance. It is very likely that these identified proteins may serve as potential molecular targets for prevention of the development of morphine tolerance and physical dependence.     

Arylamidase activity in the rabbit spinal cord after ligation of the abdominal aorta

Effect of ischaemia, induced by abdominal aorta occlusion, and subsequent survival on the activity of arylamidases was studied in the lumbar and cervical spinal cord of the rabbit. No effect of 40 min ischaemia on the activity of arylamidases was found either in homogenates or in subcellular fractions of the spinal cord. In the lumbar spinal cord a moderate decrease in arylamidase activity was observed after 1 day of survival and a marked decrease was found after 4 days. The decrease were localized in the microsomal and, particularly, in the cytosole fraction. No changes were found in the cervical spinal cord at the corresponding intervals.     

孤啡肽受体对痛觉调控作用的研究进展

孤啡肽受体是继经典的mu阿片受体、kappa阿片受体和delta阿片受体之后发现的又一类新型阿片受体,不仅在结构上具有同上述阿片受体相类似的特征,而且可介导相同或相似的细胞内生物学反应.孤啡肽受体对痛觉反应具有独特的调控模式.一方面,在背根神经节以及脊髓水平,孤啡肽受体主要介导镇痛效应,并且在脊髓水平还与其他阿片受体有协同效应以增强镇痛效果.另一方面,在脊髓上水平,孤啡肽受体往往产生痛敏而拮抗了其他阿片受体的镇痛效应.此外孤啡肽受体对痛觉的调控在不同物种间也表现一定的差异性.这为进一步阐明内源性阿片系统的痛觉调控作用提供一定的理论依据.     

人和大鼠脊髓内的心钠素样物质

应用特异的心钠素免疫金银染色和放射免疫测定法,证明在人和大鼠脊髓内亦存在有心钠素样物质。心钠素免疫金银染色发现在人脊髓各段均有心钠素免疫反应阳性的神经元广泛分布。这些神经元主要位于脊髓腹角,同时脊髓背角和侧角亦有少量分布。应用对照吸收试验,其心钠素免疫反应阳性颗粒便消失或明显减少。心钠素放射免疫测定发现,从大鼠颈髓到胸、腰、骶髓均有心钠素样物质存在,其中以骶髓含量最高,为21.9±4.48ng/g组织;腰髓次之,为3.78±0.74ng/g组织;颈、胸髓含量最低,分别为0.58±0.14和0.46±0.21ng/g组织。应用凝胶过滤和高压液相层析证明,大鼠脊髓中心钠素亦以多分子形式存在,但以28个氨基酸的大鼠心房利纳多肽(rANP)为主。此外,对在体大鼠脊髓蛛网膜下腔灌流研究发现,高钾去极化刺激可使大鼠脊髓心钠素样物质释放。     

AMINO ACID AND SUBSTANCE P CONTENTS IN SPINAL CORD OF CATS WITH EXPERIMENTAL HIND-LIMB RIGIDITY PRODUCED BY OCCLUSION OF SPINAL CORD BLOOD SUPPLY

Abstract— Experimental hind-limb rigidity of spinal origin was produced in cats by temporary occlusion of thoracic aorta and internal mammary arteries. In the lumbar segments (L6- S1) of these rigid cats, the monosynaptic reflex recorded from ventral roots was enhanced whereas the polysynaptic reflexes as well as the dorsal root reflexes were almost abolished. On morphological examination of the lumbar spinal cord, the number of interneurons was greatly reduced, whereas the small sized cells, presumably glial cells, were increased by about two times. Ventral horn motoneurons were also reduced. The lumbar spinal cords of the rigid cats were analysed for amino acid and substance P contents. Four major amino acids, aspartate, glutamate, glycine and GABA, were definitely reduced in both grey and white matter except that the glutamate level in the dorsal white was within the normal range. Content and distribution pattern of substance P were not altered in the lumbar cord of the rigid cats. These results are consistent with the notions that GABA occurs in the dorsal horn interneurons subserving primary afferent depolarisation, and that substance P is concentrated in primary afferent fibre terminals. The implications of the decrease of aspartate, glutamate and glycine in the spinal cord of rigid cats are discussed.     

Effects of Peripheral Axotomy on Cholecystokinin Neurotransmission in the Rat Spinal Cord

Abstract : Because cholecystokinin (CCK) acts as a "functional" endogenous opioid antagonist, it has been proposed that changes in central CCKergic neurotransmission might account for the relative resistance of neuropathic pain to the analgesic action of morphine. This hypothesis was addressed by measuring CCK-related parameters 2 weeks after unilateral sciatic nerve section in rats. As expected, significant decreases (-25-38%) in the tissue concentrations and in vitro release of both substance P and calcitonin gene-related peptide were noted in the dorsal quadrant of the lumbar spinal cord on the lesioned side. In contrast, the tissue levels and in vitro release of CCK were unchanged in the same area in lesioned rats. Measurements in dorsal root ganglia at L4-L6 levels revealed no significant changes in proCCK mRNA after the lesion. However, sciatic nerve section was associated with a marked ipsilateral increase in both CCK-B receptor mRNA levels in these ganglia (+70%) and the autoradiographic labeling of CCK-B receptors by [³H]pBC 264 (+160%) in the superficial layers of the lumbar dorsal horn. Up-regulation of CCK-B receptors rather than CCK synthesis and release probably contributes to increased spinal CCKergic neurotransmission in neuropathic pain.     

100Hz电针刺受时大鼠脑和脊髓k受体结构特性的改变

西方采用放射配体结合实验研究了１００ＨＺ电针耐受发生发展过程中大鼠脑和脊髓Ｋ受体结构特性的变化。大鼠每天给予１００ＨＺ电针１次,连续７ｄ。分别在电针的第１、３、５、７天取不同脑区进行观察。     

Calcitonin gene-related peptide (CGRP) in normotensive and spontaneously hypertensive rats

With the techniques of specific radioimmunoassay and gel filtration it was found that CGRP was distributed in various tissues of normotensive (WKY) and spontaneously hypertensive rats (SHR) with the highest concentration in the lumbar spinal cord (1197 +/- 94.8 pg/mg tissue) and the lowest in the auricle (15.0 +/- 2.1 pg/mg tissue). In comparison with WKY, CGRP concentration in the plasma was decreased and in the abdominal aorta and hypothalamus was increased in SHR. Gel filtration revealed only one major CGRP molecular form in the tissues. In addition, CGRP reduced the mean arterial pressure (MAP) in SHR in a dose-dependent manner. These data suggest that CGRP may play an important role in the pathogenesis of hypertension and its possible therapy.     

Asymmetric distribution of peptide regulators of muscle tonus and substance P in the spinal cord of rats with unilateral hyperactivity of the lumbar enlargement neurons

The injection of tetanus toxin in m. gastrocnemius of the left or right hind limb of rats evokes ipsilateral hyperactivity of lumbar neurons in the spinal cord. In this case the lumbar enlargement extract after its intracisternal injection to healthy animals increases the duration of hind limb passive extension on the side where the donor neurons are hyperactive. The extract of the spinal cord of healthy rats was ineffective. Proteolysis of the extract with pronase or co-injection of opiate antagonist--naloxone--completely eliminated the lateralized changes in the muscular tone of the recipient. Substances that cause the unilateral changes in the muscular tone of the recipient are believed to be peptides. They are assumed to be involved in the functioning of endogenous opioid system. The level of substance P in the donor spinal cord was elevated bilaterally, but was higher in the hyperactive half of the spinal cord.     

缺血预处理对缺血再灌注后兔脊髓磷酸腺苷代谢的影响

目的：研究缺血参处理对缺血再灌注后兔脊髓磷酸腺苷代谢的影响。方法：往置入腹主动脉的Swan-Ganz导管气囊内注气造成兔腰髓缺血模型。将实验兔分为假手术组、缺血组和预处理组。应用反相高效液相色谱方法（reverse phase HPLC),对缺血再灌注后不同时间点腰髓组织中磷酸腺苷（ATP、ADP、AMP）的含量进行检测。结果：和假手术组相比,缺血组兔再灌后各时间点腰髓组织ATP含量有明显下降（P＜0．01）。与缺血组相应时间点相比,预处理组兔再灌注后腰髓组织ATP含量明显提高（P＜0．01）。结论：缺血预处理显著提高缺血再灌注后兔脊髓组织ATP含量,这可能是缺血预处理对脊髓缺血再灌注损伤产生保护作用的机制之一。     

Pain and neurotransmitters

1. To study physiological roles of substance P (SP), gamma-aminobutyric acid (GABA), enkephalins and other endogenous substances, we developed several kinds of isolated spinal cord preparations of newborn rats. 2. In these preparations, various slow responses of spinal neurons evoked by stimulation of primary afferent C fibers were depressed by a tachykinin antagonist, spantide. These results together with many other lines of evidence suggest that SP and neurokinin A serve as pain transmitters in a subpopulation of primary afferent C fibers. 3. Some C-fiber responses in various isolated spinal cord preparations were depressed by GABA, muscimol, and opioid peptides. In contrast, bicuculline (GABA antagonist) and naloxone (opioid antagonist) potentiated the "tail pinch potential," i.e., a nociceptive response of the ventral root evoked by pinch stimulation of the tail in isolated spinal cord-tail preparation of the newborn rat. The latter results support the hypothesis that some primary afferents activate inhibitory spinal interneurons which release GABA and enkephalins as transmitters to modulate pain inputs.     

Opioids evoke postural asymmetry in rats: the side of the flexed paw depends on the type of opioid agonist

Opioid kappa-agonists bremazocine and dynorphin (1-13), sigma-agonist SKF 10.047 and delta-agonist D-Ala2, D-Leu5-enkephalin (DADL) induce postural asymmetry of rats hind limbs under subarachnoidal administration below the level of spinal cord section (T3-T4). The side of the flexed leg depends on the opioid agonist type: bremazocine and dynorphin (1-13) induce predominantly right flexion. SKF 10.047--the left flexion, but not in all doses, DADL--in small doses (1 and 100 pg per animal)--of the right one, in larger doses (up to 10 ng per animal)--of the left one. Saline and opiate mu-agonist morphine do not induce postural asymmetry. Opiate antagonist naloxone prevents asymmetry development when injected prior opioid agonists, and also decreases the number of asymmetries induced by these agonists. Naloxone alone does not influence the per cent of animals with pose asymmetry. The opioid receptors are involved in asymmetry development. The revealed ability of opioid kappa-, delta- and sigma-agonists may be based on lateralization of opioid receptors in the rat spinal cord.     

High-frequency, but not low-frequency, transcutaneous electrical nerve stimulation reduces aspartate and glutamate release in the spinal cord dorsal horn

Transcutaneous electrical nerve stimulation (TENS) is a commonly utilized non-pharmacological treatment for pain. Studies show that low- and high-frequency TENS utilize opioid, serotonin and/or muscarinic receptors in the spinal cord to reduce hyperalgesia induced by joint inflammation in rats. As there is an increase in glutamate and aspartate levels in the spinal cord after joint inflammation, and opioids reduce glutamate and aspartate release, we hypothesized that TENS reduces release of glutamate and aspartate in animals with joint inflammation by activation of opioid receptors. Using microdialysis and HPLC with fluorescence detection, we examined the release pattern of glutamate and aspartate in the dorsal horn in response to either low-frequency (4 Hz) or high-frequency (100 Hz) TENS. We examined the effects of TENS on glutamate and aspartate release in animals with and without joint inflammation. High-frequency, but not low-frequency, TENS significantly reduced spinal glutamate and aspartate in animals with joint inflammation compared with levels in those without joint inflammation. The reduced release of glutamate and aspartate by high-frequency TENS was prevented by spinal blockade of delta-opioid receptors with naltrindole. Thus, we conclude that high-frequency TENS activates delta-opioid receptors consequently reducing the increased release of glutamate and aspartate in the spinal cord.     

Effect of chronic ethanol treatment and subsequent ischaemia on phospholipids and cholesterol in the rabbit spinal cord

Rabbits received ethanol p.o. (0.96 g. ml-1, 2.88 g.kg-1) for 30 days. Ischaemia was induced by abdominal aorta ligation for 40 min in animals with or without ethanol treatment. The content of total (TPL) and individual phospholipids, i.e. ethanolamine (PE), choline (PC), serine (PS), phospholipids and sphingomyelin (SM), as well as unesterified cholesterol (UC) was determined in the gracilis fascicle (Fg), and the dorsal (Dp) and ventral (Vp) part of the lumbar and cervical spinal cord. Chronic ethanol treatment resulted in a statistically significant decrease in the PE content in Dp of cervical spinal cord. Cholesterol content was increased in all parts of the spinal cord studied (increased UC/TPL molar ratio). Ischaemia of the spinal cord induced a significant decrease in PI. In ethanolic animals ischaemia decreased the PS content in Dp and Vp of ischaemized lumbar spinal cord. The combined effect of ischaemia and chronic ethanol did not result in a cumulative pattern of changes suggesting a partially opposite influence of both stimuli on lipid metabolism as well as its altered regulation after chronic ethanol treatment in the spinal cord.     

ErbB transmembrane tyrosine kinase receptors are expressed by sensory and motor neurons projecting into sciatic nerve.

Adult spinal cord motor and dorsal root ganglion (DRG) sensory neurons express multiple neuregulin-1 (NRG-1) isoforms that act as axon-associated factors promoting neuromuscular junction formation and Schwann cell proliferation and differentiation. NRG-1 isoforms are also expressed by muscle and Schwann cells, suggesting that motor and sensory neurons are themselves acted on by NRG-1 isoforms produced by their peripheral targets. To test this hypothesis, we examined the expression of the NRG-1 receptor subunits erbB2, erbB3, and erbB4 in rat lumbar DRG and spinal cord. All three erbB receptors are expressed in these tissues. Sciatic nerve transection, an injury that induces Schwann cell expression of NRG-1, alters erbB expression in DRG and cord. Virtually all DRG neurons are erbB2- and erbB3-immunoreactive, with erbB4 also detectable in many neurons. In spinal cord white matter, erbB2 and erbB4 antibodies produce dense punctate staining, whereas the erbB3 antibody primarily labels glial cell bodies. Spinal cord dorsal and ventral horn neurons, including alpha-motor neurons, exhibit erbB2, erbB3, and erbB4 immunoreactivity. Spinal cord ventral horn also contains a population of small erbB3+/S100beta+/GFAP- cells (GFAP-negative astrocytes or oligodendrocytes). We conclude that sensory and motor neurons projecting into sciatic nerve express multiple erbB receptors and are potentially NRG-1 responsive.     

缺血预处理对兔脊髓缺血再灌注损伤水通道蛋白-4表达的影响

目的探讨缺血预处理（IPC）对兔脊髓缺血再灌注损伤后水通道蛋白-4（AQP-4）表达的影响。方法日本大耳白兔72只,随机分为3组：假手术组（S组）、脊髓缺血再灌注损伤组（I／R组）和缺血预处理组（IPC组）。I／R组和IPC组阻断腹主动脉30min造成脊髓缺血再灌注损伤,IPC组在损伤前短暂阻断腹主动脉5min二次实施预处理,S组暴露肾动脉下腹主动脉但不阻断。分别于再灌注损伤后4h和24h进行神经功能评分,并取L4—6脊髓缺血节段,计算脊髓组织含水量,免疫组化法测定脊髓组织中AQP-4表达水平。结果与S组比较,I／R组神经运动功能评分降低,脊髓组织含水量增加,AQP-4表达增加（P〈0．05）。与I／R组比较,IPC组神经运动功能评分增高,脊髓组织含水量降低,AQP-4表达减少（P〈0．05）。结论IPC可抑制脊髓损伤后AQP-4的表达,进而减轻脊髓水肿,保护缺血再灌注损伤的脊髓。     

Retinoid receptors in chronic degeneration of the spinal cord: observations in a rat model of amyotrophic lateral sclerosis

Changes in distribution and expression of retinoid receptors may be part of a spinal cord protective response to acute injury and to chronic degeneration. In this study, we have combined RNA and protein expression analysis to characterize the expression profile of retinoid receptors in the lumbar spinal cord of the superoxide dismutase 1 G93A mutant rat model of amyotrophic lateral sclerosis, a fatal neurodegenerative disorder causing extensive motor neuron loss. We also report a nonsignificant change in RNA expression of binding proteins and metabolizing enzymes for retinol and retinoic acid in the mutant rat spinal cord at end-stage disease. Only retinoid X receptor beta (RXRbeta), and to a lesser extent retinoic acid receptor beta and alpha (RARbeta/alpha) were reliably detected in lumbar spinal cord at an early pre-symptomatic phase and throughout the disease progression. The expression of RXRbeta in lamina II neurons in the dorsal horn of transgenic and wild type (WT) animals was associated with extensive astrocyte staining in end-stage lumbar spinal cord from transgenic rats. RARbeta and RARalpha diffuse staining of large motor neurons in the pre-symptomatic transgenic and in the WT lumbar cord appear to decline in end-stage disease, when a selective and strong gamma motor neuron RARalpha staining becomes evident. As gliosis and motor neuron loss are key pathogenic features in amyotrophic lateral sclerosis, the selective expression of retinoid receptors in astrocytes and motor neurons may provide further clues to the role of retinoid signalling in neurodegeneration and suggest new treatment strategies based on retinoid-modulating agents.