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1.
Li TN  Li QJ  Li WB  Sun XC  Li SQ 《中国应用生理学杂志》2004,20(3):291-295,F008
目的:探讨CGRP受体拮抗剂CGRP8-37对甲醛炎性痛大鼠自发痛反应及脊髓后角NOS表达和NO含量的影响.方法:大鼠足底注射甲醛制造炎性痛模型;计数缩足反射次数反映自发痛程度;NADPH-d组织化学法观察脊髓后角NOS表达;硝酸还原酶法测定NO-3/NO-2含量以反映NO含量.结果:足底注射甲醛后,动物出现自发痛反应行为.足底注射甲醛后24 h,双侧脊髓后角NOS表达及NO含量明显增加.预先鞘内注射CGRP8-37可使甲醛诱导的自发性缩足反射次数明显减少,并可明显抑制甲醛炎性痛诱导的脊髓后角NOS表达及NO含量的增加.结论:甲醛炎性痛时,脊髓后角CGRP受体激活可促进NOS活性表达及NO的产生.  相似文献   

2.
Glutamate (Glu) is the primary excitatory neurotransmitter in the central nervous system and plays a critical role in the neuroplasticity of nociceptive networks. We aimed to examine the role of spinal astroglia in the modulation of glutamatergic neurotransmission in a model of chronic psychological stress-induced visceral hyperalgesia in male Wistar rats. We assessed the effect of chronic stress on different glial Glu control mechanisms in the spinal cord including N-methyl-d-aspartate receptors (NMDARs), glial Glu transporters (GLT1 and GLAST), the Glu conversion enzyme glutamine synthetase (GS), and glial fibrillary acidic protein (GFAP). We also tested the effect of pharmacological inhibition of NMDAR activation, of extracellular Glu reuptake, and of astrocyte function on visceral nociceptive response in naive and stressed rats. We observed stress-induced decreased expression of spinal GLT1, GFAP, and GS, whereas GLAST expression was upregulated. Although visceral hyperalgesia was blocked by pharmacological inhibition of spinal NMDARs, we observed no stress effects on NMDAR subunit expression or phosphorylation. The glial modulating agent propentofylline blocked stress-induced visceral hyperalgesia, and blockade of GLT1 function in control rats resulted in enhanced visceral nociceptive response. These findings provide evidence for stress-induced modulation of glia-controlled spinal Glu-ergic neurotransmission and its involvement in chronic stress-induced visceral hyperalgesia. The findings reported in this study demonstrate a unique pattern of stress-induced changes in spinal Glu signaling and metabolism associated with enhanced responses to visceral distension.  相似文献   

3.
Previous experiments have suggested that nitric oxide plays an important role in nociceptive transmission in the spinal cord. In order to explore the involvement of glia in the NO-mediated nociceptive transmission, the present study was undertaken to investigate the effect of fluorocitrate (FC), an inhibitor of glial metabolism, on NOS expression and activity and NO production in the spinal cord during the process of peripheral inflammatory pain and hyperalgesia induced by formalin test in rats. Sixty adult male Sprague–Dawley rats were randomly assigned into sham, formalin, formalin + normal saline (NS), and formalin + FC groups. The NOS expression, NOS activity and NO production was detected by NADPH-d histochemistry staining, NOS and NO assay kit, respectively. It was found that formalin test significantly up-regulated NOS expression and activity and NO production in the laminae I–II of the dorsal horn and the grey matter around the central canal in the lumbar spinal cord at 1 h after the formalin test. Selective inhibition of glia metabolism with intrathecal administration of FC (1 nmol) significantly inhibited the up-regulation in NOS expression and activity and NO production normally induced by the formalin test, which was represented with decreases in the number and density of the NADPH-d positive cells in the dorsal horn and grey matter around the central canal, and decrease in density of NADPH-d positive neuropil in the dorsal horn in formalin + FC group compared with formalin group. The results suggested that glia may be involved in the NO-mediated nociceptive transmission in the spinal cord. X.-C. Sun, W.-N. Chen and S.-Q. Li contributed equally to this work.  相似文献   

4.
5.
PAM (protein associated with Myc) is a potent inhibitor of adenylyl cyclases (ACs) which is primarily expressed in neurones. Here we describe that PAM is highly expressed in dorsal horn neurones and motoneuron of the spinal cord, as well as in neurones of dorsal root ganglia in adult rats. PAM mRNA expression is differentially regulated during development in both spinal cord and dorsal root ganglia of rats, being strongest during the major respective synaptogenic periods. In adult rats, PAM expression was up-regulated in the spinal cord after peripheral nociceptive stimulation using zymosan and formalin injection, suggesting a role for PAM in spinal nociceptive processing. Since PAM inhibited Galphas-stimulated AC activity in dorsal root ganglia as well as spinal cord lysates, we hypothesized that PAM may reduce spinal nociceptive processing by inhibition of cAMP-dependent signalling. Accordingly, intrathecal treatment with antisense but not sense oligonucleotides against PAM increased basal and Galphas-stimulated AC activity in the spinal cord and enhanced formalin-induced nociceptive behaviour in adult rats. Taken together our findings demonstrate that PAM is involved in spinal nociceptive processing.  相似文献   

6.
目的:观察甲醛炎性痛是否可诱导脊髓神经元凋亡以及一氧化氮(NO)对甲醛炎性痛诱导的大鼠痛反应以及脊髓神经元凋亡的影响。方法:采用行为学方法观察大鼠自发痛反应,流式细胞术检测脊髓神经元凋亡率。结果:与正常大鼠比较,甲醛炎性痛可诱导大鼠脊髓神经元凋亡率明显增加,于注射甲醛后3d时最为明显。预先鞘内注射NOS抑制剂L-NAME可剂量依赖性抑制足底注射甲醛诱导的大鼠第一相和第二相痛反应,并可剂量依赖性抑制足底注射甲醛诱导的脊髓神经元凋亡过程;正常大鼠鞘内注射L-Arg也可诱发出伤害性反应和脊髓神经元凋亡。结论:甲醛炎性痛可诱导脊髓神经元发生凋亡,于注射甲醛后3d神经元凋亡最为明显;炎性痛诱导的NO产生增多促进了脊髓伤害性信息传递过程,并在炎性痛诱导的脊髓神经元凋亡过程中发挥促进作用。  相似文献   

7.
Decreased GABAergic synaptic strength ('disinhibition') in the spinal dorsal horn is a crucial mechanism contributing to the development and maintenance of pathological pain. However, mechanisms leading to disinhibition in the spinal dorsal horn remain elusive. We investigated the role of glial glutamate transporters (GLT-1 and GLAST) and glutamine synthetase in maintaining GABAergic synaptic activity in the spinal dorsal horn. Electrically evoked GABAergic inhibitory post-synaptic currents (eIPSCs), spontaneous IPSCs (sIPSCs) and miniature IPSCs were recorded in superficial spinal dorsal horn neurons of spinal slices from young adult rats. We used (2S,3S)-3-[3-[4-(trifluoromethyl)benzoylamino]benzyloxy]aspartate (TFB-TBOA), to block both GLT-1 and GLAST and dihydrokainic acid to block only GLT-1. We found that blockade of both GLAST and GLT-1 and blockade of only GLT-1 in the spinal dorsal horn decreased the amplitude of GABAergic eIPSCs, as well as both the amplitude and frequency of GABAergic sIPSCs or miniature IPSCs. Pharmacological inhibition of glial glutamine synthetase had similar effects on both GABAergic eIPSCs and sIPSCs. We provided evidence demonstrating that the reduction in GABAergic strength induced by the inhibition of glial glutamate transporters is due to insufficient GABA synthesis through the glutamate-glutamine cycle between astrocytes and neurons. Thus, our results indicate that deficient glial glutamate transporters and glutamine synthetase significantly attenuate GABAergic synaptic strength in the spinal dorsal horn, which may be a crucial synaptic mechanism underlying glial-neuronal interactions caused by dysfunctional astrocytes in pathological pain conditions.  相似文献   

8.

Background

Clearance of synaptically released glutamate, and hence termination of glutamatergic neurotransmission, is carried out by glutamate transporters, most especially glutamate transporter-1 (GLT-1) and the glutamate-aspartate transporter (GLAST) that are located in astrocytes. It is becoming increasingly well appreciated that changes in the function and expression of GLT-1 and GLAST occur under different physiological and pathological conditions. Here we investigated the plasticity in expression of GLT-1 and GLAST in the spinal dorsal horn using immunohistochemistry following partial sciatic nerve ligation (PSNL) in rats.

Results

Animals were confirmed to develop hypersensitivity to mechanical stimulation by 7 days following PSNL. Baseline expression of GLT-1 and GLAST in naive animals was only observed in astrocytes and not in either microglia or neurons. Microglia and astrocytes showed evidence of reactivity to the nerve injury when assessed at 7 and 14 days following PSNL evidenced by increased expression of OX-42 and GFAP, respectively. In contrast, the total level of GLT-1 and GLAST protein decreased at both 7 and 14 days after PSNL. Importantly, the cellular location of GLT-1 and GLAST was also altered in response to nerve injury. Whereas activated astrocytes showed a marked decrease in expression of GLT-1 and GLAST, activated microglia showed de novo expression of GLT-1 and GLAST at 7 days after PSNL and this was maintained through day 14. Neurons showed no expression of GLT-1 or GLAST at any time point.

Conclusion

These results indicate that the expression of glutamate transporters in astrocytes and microglia are differentially regulated following nerve injury.  相似文献   

9.
The formalin test has been proposed as an animal model of pain produced by tissue injury. Although biphasic nociceptive responses to formalin injection have been well documented, low concentrations (0.125 and 0.5%) of formalin injected into the mouse hindpaw produced only the phasic (acute) paw-licking response, lasting the first 5 min after the formalin injection. To explore the involvement of nitric oxide (NO) in the spinal cord and peripheral system during the acute phase of the formalin test, we examined the effect of intrathecal (i.t.) or intraplantar (i.pl.) injection of L-N(G)-nitro arginine methyl ester (L-NAME), a NO synthase inhibitor in mice. Pretreatment with L-NAME (160 nmol), injected i.t., resulted in a significant inhibition of the paw-licking response induced by 0.125 and 0.5% of formalin. L-Arginine (600 mg/kg, i.p.) but not D-arginine (600 mg/kg, i.p.) reversed the antinociceptive effect of L-NAME on the acute nociceptive response induced by low concentrations of formalin. The i.pl. injection of L-NAME (160 nmol) produced a significant decrease of the late (tonic) phase response evoked by 2.0% formalin without affecting the early (acute) phase response. Similar results have been reported in the case of i.t. injected L-NAME as assayed by the 2.0% formalin test. L-NAME (160 nmol), injected into the plantar paw, gave no significant effect on the acute nociceptive response induced by a low concentration of formalin (0.125%). These results suggest that NO in the spinal cord may be involved in not only the late phase response of the formalin (2.0%)-induced paw-licking, but also at least the acute phase response induced by low concentrations (0.125 and 0.5%) of formalin, while peripheral NO has little effect on the early (acute) phase nociceptive response evoked by formalin (0.125--2.0%) injection.  相似文献   

10.
Maintenance of low extracellular glutamate ([Glu](O)) preventing excitotoxic cell death requires fast removal of glutamate from the synaptic cleft. This clearance is mainly provided by high affinity sodium-dependent glutamate transporters. These transporters can, however, also be reversed and release glutamate to the extracellular space in situations with energy failure. In this study the cellular localisation of the glutamate transporters GLAST and GLT-1 in organotypic hippocampal slice cultures was studied by immunofluorescence confocal microscopy, under normal culture conditions, and after a simulated ischemic insult, achieved by oxygen and glucose deprivation (OGD). In accordance with in vivo findings, GLAST and GLT-1 were primarily expressed by astrocytes under normal culture conditions, but after OGD some damaged neurons also expressed GLAST and GLT-1. The potential damaging effect of inhibition of the glutamate transporters by DL-threo-beta-benzyloxyaspartate (DL-TBOA) was studied using cellular uptake of propidium iodide (PI) as a quantitative marker for the cell death. Addition of DL-TBOA for 48 h was found to induce significant cell death in all hippocampal regions, with EC(50) values ranging from 38 to 48 microM for the different hippocampal subregions. The cell death was prevented by addition of the glutamate receptor antagonists NBQX and MK-801, together with an otherwise saturating concentration of DL-TBOA (100 microM). Finally, the effect of inhibition of glutamate release, via reverse operating transporters during OGD, was investigated. Addition of a sub-toxic (10 microM) dose of DL-TBOA during OGD, but not during the subsequent 48 h recovery period, significantly reduced the OGD-induced PI uptake. It is concluded: (1) that the cellular expression of the glutamate transporters GLAST and GLT-1 in hippocampal slice cultures in general corresponds to the expression in vivo, (2) that inhibition of the glutamate transporters induces cell death in the slice cultures, and (3) that partial inhibition during simulation of ischemia by OGD protects against the induced PI uptake, most likely by blocking the reverse operating transporters otherwise triggered by the energy failure.  相似文献   

11.
Nociception evoked prostaglandin (PG) release in the spinal cord considerably contributes to the induction of hyperalgesia and allodynia. To evaluate the relative contribution of cyclooxygenase-1 (COX-1) and COX-2 in this process we assessed the effects of the selective COX-1 inhibitor SC560 and the selective COX-2 inhibitor celecoxib on formalin-evoked nociceptive behaviour and spinal PGE(2) release. SC560 (10 and 20 mg/kg) significantly reduced the nociceptive response and completely abolished the formalin-evoked PGE(2) raise. In contrast, celecoxib (10 and 20 mg/kg) was ineffective in both regards, i.e. the flinching behaviour was largely unaltered and the formalin-induced PGE(2) raise as assessed using microdialysis was only slightly, not significantly reduced. This suggests that the formalin-evoked rapid PG release was primarily caused by COX-1 and was independent of COX-2. Mean free spinal cord concentrations of celecoxib during the formalin assay were 32.0 +/- 4.5 nM, thus considerably higher than the reported IC50 for COX-2 (3-7 nM). Therefore, the lack of efficacy of celecoxib is most likely not to be a result of poor tissue distribution. COX-2 mRNA and protein expression in the spinal cord were not affected by microdialysis alone but the mRNA rapidly increased following formalin injection and reached a maximum at 2 h. COX-2 protein was unaltered up to 4 h after formalin injection. The time course of COX-2 up-regulation suggests that the formalin-induced nociceptive response precedes COX-2 protein de novo synthesis and may therefore be unresponsive to COX-2 inhibition. Considering the results obtained with the formalin model it may be hypothesized that the efficacy of celecoxib in early injury evoked pain may be less than that of unselective NSAIDs.  相似文献   

12.
Sphingosine 1-Phosphate (S1P) modulates various cellular functions such as apoptosis, cell differentiation, and migration. Although S1P is an abundant signaling molecule in the central nervous system, very little is known about its influence on neuronal functions. We found that S1P concentrations were selectively decreased in the cerebrospinal fluid of adult rats in an acute and an inflammatory pain model. Pharmacological inhibition of sphingosine kinases (SPHK) decreased basal pain thresholds and SphK2 knock-out mice, but not SphK1 knock-out mice, had a significant decrease in withdrawal latency. Intrathecal application of S1P or sphinganine 1-phosphate (dihydro-S1P) reduced the pain-related (nociceptive) behavior in the formalin assay. S1P and dihydro-S1P inhibited cyclic AMP (cAMP) synthesis, a key second messenger of spinal nociceptive processing, in spinal cord neurons. By combining fluorescence resonance energy transfer (FRET)-based cAMP measurements with Multi Epitope Ligand Cartography (MELC), we showed that S1P decreased cAMP synthesis in excitatory dorsal horn neurons. Accordingly, intrathecal application of dihydro-S1P abolished the cAMP-dependent phosphorylation of NMDA receptors in the outer laminae of the spinal cord. Taken together, the data show that S1P modulates spinal nociceptive processing through inhibition of neuronal cAMP synthesis.  相似文献   

13.
Protein kinase C (PKC) regulates the activity and/or cell surface expression of several different neurotransmitter transporters, including subtypes of glutamate transporters. In the present study, the effects of pharmacological inhibitors of PKC were studied in primary astrocyte cultures that express the glutamate aspartate transporter (GLAST) subtype of glutamate transporter. We found that general inhibitors of PKC, bisindolylmaleimide I (Bis I), bisindolylmaleimide II (Bis II), staurosporine and an inhibitor of classical PKCs, Gö6976, had no effect on Na+‐dependent glutamate transport activity. However, rottlerin, a putative specific inhibitor of PKCδ, decreased transport activity with an IC50 value (less than 10 µm ) that is comparable to that reported for inhibition of PKCδ. The effect of rottlerin was very rapid (maximal effect within 5 min) and was due to a decrease in the capacity (Vmax) for transport. Rottlerin also caused a drastic loss of GLAST immunoreactivity within 5 min, suggesting that rottlerin accelerates GLAST degradation/proteolysis. Rottlerin had no effect on cell surface or total expression of the transferrin receptor, providing evidence that the effect on GLAST cannot be attributed to a non‐specific internalization/degradation of plasma membrane proteins. Down‐regulation of PKCδ with chronic phorbol ester treatment did not block rottlerin‐mediated inhibition of transport activity. These results suggest a novel mechanism for regulation of the GLAST subtype of glutamate transporter and indicate that there is a rottlerin target that is capable of controlling the levels of GLAST by controlling the rate of degradation or limited proteolysis. It appears that the target for rottlerin may not be PKCδ.  相似文献   

14.
In absence epilepsy, epileptogenic processes are suspected of involving an imbalance between GABAergic inhibition and glutamatergic excitation. Here, we describe alteration of the expression of glutamate transporters in rats with genetic absence (the Genetic Absence Epilepsy Rats from Strasbourg: GAERS). In these rats, epileptic discharges, recorded in the thalamo-cortical network, appear around 40 days after birth. In adult rats no alteration of the protein expression of the glutamate transporters was observed. In 30-day-old GAERS protein levels (quantified by western blot) were lower in the cortex by 21% and 35% for the glial transporters GLT1 and GLAST, respectively, and by 32% for the neuronal transporter EAAC1 in the thalamus compared to control rats. In addition, the expression and activity of GLAST were decreased by 50% in newborn GAERS cortical astrocytes grown in primary culture. The lack of modification of the protein levels of glutamatergic transporters in adult epileptic GAERS, in spite of mRNA variations (quantified by RT-PCR), suggests that they are not involved in the pathogeny of spike-and-wave discharges. In contrast, the alteration of glutamate transporter expression, observed before the establishment of epileptic discharges, could reflect an abnormal maturation of the glutamatergic neurone-glia circuitry.  相似文献   

15.
Wu SX  Wang W  Wang YY  Ni TS  Li YQ  Yew DT 《Neuro-Signals》2002,11(4):224-230
Oligodeoxynucleotide complementary to c-fos mRNA was applied to characterize its effect on the spinal cord Fos expression and relevant nociceptive behaviors challenged by subcutaneous injection of bee venom to the rat hind paw. Nociceptive behavioral responses (spontaneous pain and hyperalgesia) following bee venom (0.2 mg/50 microl) injection were assessed in adult male Sprague-Dawley rats receiving intrathecal administration of c-fos antisense oligodeoxynucleotide (ASO, 50 microg/10 microl), sense oligodeoxynucleotide (SO, 50 microg/10 microl) and saline (10 microl) 4 h prior to bee venom injection. The lumbar spinal cord expression of Fos protein 2 h after bee venom injection in the ASO-, SO- and saline-treated animals was observed by immunohistochemistry. The results showed that pretreatment of c-fos ASO markedly reduced the flinching response and primary thermal hyperalgesia, but without significant effects on mechanical hyperalgesia and secondary thermal hyperalgesia. At the same time, ASO treatment also significantly decreased the expression of Fos protein within the lumbar region of the spinal cord ipsilateral to the injection. The results provide further evidence that Fos protein contributes to the activation of the spinal dorsal horn neurons and the generation and/or maintenance of spontaneous pain and primary thermal hyperalgesia induced by subcutaneous injection of bee venom.  相似文献   

16.
GPR103 is one of the orphan G protein-coupled receptors. Recently, an endogenous ligand for GPR103, 26RFa, was identified. Many 26RFa binding sites have been observed in various nuclei of the brain involved in the processing of pain such as the parafascicular thalamic nucleus, the locus coeruleus, the dorsal raphe nucleus, and the parabrachial nucleus. In the present study, the effects of intracerebroventricular injection of 26RFa were tested in the rat. Intracerebroventricular injection of 26RFa significantly decreased the number of both phase 1 and phase 2 agitation behaviors induced by paw formalin injection. This analgesic effect of 26RFa on the phase 1 response, but not phase 2 response, was antagonized by BIBP3226, a mixed antagonist of neuropeptide Y Y1 and neuropeptide FF receptors. Intracerebroventricular injection of 26RFa has no effect in the 52.5 °C hot plate test. Intracerebroventricular injection of 26RFa had no effect on the expression of Fos-like immunoreactivity induced by paw formalin injection in the superficial layers of the spinal dorsal horn. These data suggest that (1) 26RFa modulates nociceptive transmission at the supraspinal site during a formalin test, (2) the mechanism 26RFa uses to produce an analgesic effect on the phase 1 response is different from that on the phase 2 response, and (3) intracerebroventricularly injected 26RFa dose not directly inhibit the nociceptive input to the spinal cord.  相似文献   

17.
Abstract: The glutamate transporters in the plasma membranes of neural cells secure termination of the glutamatergic synaptic transmission and keep the glutamate levels below toxic concentrations. Astrocytes express two types of glutamate transporters, GLAST (EAAT1) and GLT1 (EAAT2). GLT1 predominates quantitatively and is responsible for most of the glutamate uptake activity in the juvenile and adult brain. However, GLT1 is severely down-regulated in amyotrophic lateral sclerosis, a progressive neurodegenerative disease. Furthermore, selective loss of this transporter occurs in cultured astroglia. Expression of GLAST, but not of GLT1, seems to be regulated via the glutamate receptor signalling. The present study was undertaken to examine whether neuronal factors, other than glutamate, influence the expression of astroglial glutamate transporters. The expression of GLT1 and GLAST was examined in primary cultures of cerebellar granule neurons, cortical neurons, and astrocytes under different experimental conditions, including those that mimic neuron-astrocyte interactions. Pure astroglial cultures expressed only GLAST, whereas astrocytes grown in the presence of neurons expressed both GLAST (at increased levels) and GLT1. The induction of GLT1 protein and its mRNA was reproduced in pure cortical astroglial cultures supplemented with conditioned media from cortical neuronal cultures or from mixed neuron-glia cultures. This treatment did not change the levels of GLAST. These results suggest that soluble neuronal factors differentially regulate the expression of GLT1 and GLAST in cultured astroglia. Further elucidation of the molecular nature of the secreted neuronal factors and corresponding signalling pathways regulating the expression of the astroglial glutamate transporters in vitro may reveal mechanisms important for the understanding and treatment of neurological diseases.  相似文献   

18.
目的 比较免疫复合物所致疼痛模型与甲醛致炎性疼痛模型的大鼠疼痛行为、局部炎症反应及巨噬细胞游走抑制因子在不同模型不同部位的表达,探讨免疫复合物所致疼痛的病理机制.方法 成年SD清洁级大鼠15只,随机分为正常对照组,甲醛组及免疫复合物组,每组5只.分别在大鼠右后足底注入20 μL PBS、甲醛及免疫复合物.于30 min、1h、2h、4h、8h、12 h测定疼痛行为.并于12 h后采血、取大鼠局部皮肤及脊髓测定巨噬细胞游走抑制因子(MIF)表达.结果 疼痛行为变化:在甲醛致炎后大鼠立刻出现明显的自发痛,疼痛阈值明显下降,注射足高度肿胀并于1h达高峰后逐渐缓解.免疫复合物组的疼痛阈值低峰在4h后,并持续至8h后逐渐缓解,注射足肿胀不明显.皮肤及脊髓的MIF表达在甲醛组明显增加(P<0.05),在免疫复合物组中无明显改变.结论 MIF参与炎症性疼痛病理过程,但无证据参与免疫复合物所致疼痛.抗原抗体复合物所致疼痛与甲醛炎性痛病理机制有一定区别.  相似文献   

19.
Following our recent observations of inactivity and slowed movement in neuromedin U knockout (NMU KO) mice, we compared nociceptive reflexes and environmental adaptation in NMU KO and wild-type mice. Hot plate and formalin tests revealed that reflexes to heat and pain were significantly decreased in NMU KO mice. Conversely, intracerebroventricular injection of NMU into wild-type mice stimulated nociceptive reflexes in a dose-dependent manner. After NMU injection, increased c-Fos expression was observed in a wide range of locations in hypothalamus, brainstem, and spinal cord. NMU mRNA expression increased in the spinal cord, but not in the hypothalamus, 2 and 4 h after formalin injection. When their light-dark cycle was advanced or retarded by 5 h, NMU KO mice required a longer time to re-entrain into the new light-dark cycle than did wild-type mice. Wild-type mice displayed increased blood pressure after their environmental temperature was changed from 23 to 37 degrees C, whereas no such increase was observed in NMU KO mice. Blood corticosterone levels were significantly increased after 10 min of immobilization stress in wild-type mice, but not in NMU KO mice. These results suggest that endogenous NMU may be involved in reflexes and adaptation to environmental stimuli.  相似文献   

20.
MK—801降低炎性痛在鼠脊髓NOS表达和NO含量   总被引:15,自引:2,他引:13  
Zeng JB  Li WB  Li QJ  Chen XL  Zhou AM  Ling YL 《生理学报》2001,53(1):55-60
用NADPH-d组织化学法,观察鞘内注射NMDA受体拮抗剂MK-801对大鼠右后掌皮下注射甲醛诱发的炎症性痛及痛过敏过程中脊髓后角一氧化氮合酶(NOS)表达的影响,同时测定一氧化氮(NO)代谢终产物  相似文献   

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