BACKGROUND: Expression of Fos in neurons of periaqueductal gray (PAG) is used to reflect the excitability. However, changes of expression of Fos in neurons of PAG are caused by injured electrostimulation after simu...BACKGROUND: Expression of Fos in neurons of periaqueductal gray (PAG) is used to reflect the excitability. However, changes of expression of Fos in neurons of PAG are caused by injured electrostimulation after simulated weightlessness, and the relationship between pretreatment and injection of succinylcholine has not been determined yet. OBJECTIVE : To investigate the changes of expression of Fos in PAG induced by injured electrostimulation pretreatment and injection of succinylcholine at 2 weeks after simulated weightlessness.DESIGN: Observational and controlled animal study.SETTING: Department of Physiology, Medical School, Xi'an Jiaotong University; Key Laboratory of Environment and Genes Related to Diseases, Ministry of Education. MATERIALS: A total of 24 adult female SD rats, of clean grade and weighing 180-220 g, were selected in this study. METHODS: The experiment was completed in the Experimental Animal Center of Xi'an Jiaotong University.① All rats were randomly divided into 2 groups according to body mass: simulated weightlessness group and control group with 12 in each group. And then, each group was also divided into 3 subgroups: electrostimulation group, succinylcholine-pretreatment group and succinylcholine-injection group with 4 in each subgroup. ②The model of weightlessness was simulated by tail-suspended female rats, which were described and modified by Cheng Jie. Rats in normal control group were given the same interventions as simulated weightlessness group except for tail-suspended. ③ Experimental method: The rats in electrostimulation group were given nociceptive stimulus by a pair of subcutaneous electrodes inserted into 1 and 5 claw of left hindlimb. The stimulus (current: 10 mA; duration: 1 ms; interval: 1 s) lasted for 30 minutes. The rats in succinylcholine-pretreatment group received stimulus after intravenous administration of succinylcholine, rats in succinylcholine-injection group were not given stimulus, just received succinylcholine. ④ All rats were perfused and fixed after 2 hours from the end of stimulation. The brains were removed, and serial frozen sections of midbrain were stained using immunocytochemical method, observed and taken photos under light-microscope. The number and morphological characters of Fos-immunoreactive (Fos-IR) neurons in ventrolateral part of PAG were investigated. MAIN OUTCOME MEASURES: The alterations in number and morphological characters of Fos-IR neurons in ventrolateral PAG of all rats.RESULTS: A total of 24 rats were involved in the final analysis. ① The morphological changes of Fos-IR neurons: The expressions of Fos in ventrolateral part of PAG were observed in both control and simulated weightlessness groups rats after being given nociceptive stimulus. As compared with control group, Fos-IR neurons in simulated weightlessness group were dyed lightly, cellular integrity was impaired, and cellular verge was unclear. ② The numbers of Fos-IR neurons: In control group, the numbers of Fos-IR neurons in ventrolateral part of PAG in simulated weightlessness group were obviously lower than succinylcholine-pretreatment group, but obviously higher than succinylcholine-injection group (46.94±3.38, 71.06±8.96 and 35.04±4.62, respectively, P 〈 0.05). In 14-day simulated weightlessness group, the numbers of Fos-IR neurons in electrostimulation group were also obviously lower than succinylcholine-pretreatment group, and obviously higher than succinylcholine-injection group (27.77±3.27, 32.91±2.99 and 11.75±1.00, respectively, P 〈 0.05). The numbers of Fos-IR neurons in all subgroups in control group were obviously higher than those subgroups in simulated weightlessness group. Compared with electrostimulation group, the percentage of expression of Fos in ventrolateral part of PAG responsed to nociceptive stimulus after administration of succinylcholine (SCH) was increased to 51.83% in control group and 18.51% in simulated weightlessness group.CONCLUSION :① The expression of Fos in neurons in ventrolateral part of PAG were increased by the pretreatment of SCH before nociceptive stimulus.② Nociceptive stimulus could increase the expression of Fos in neurons in ventrolateral part of PAG. ③ The numbers of Fos-IR neurons in ventrolateral part of PAG were decreased obviously after 2-week simulated weightlessness.展开更多
The objective of this study was to explore whether there was a functional link between trigeminal proprioception and the oculomotor system mediated through jaw muscle afferents.Electromyography(EMG) was undertaken o...The objective of this study was to explore whether there was a functional link between trigeminal proprioception and the oculomotor system mediated through jaw muscle afferents.Electromyography(EMG) was undertaken of the levator palpebrae(LP) and superior rectus(SR),and Fos expression was detected in the brainstem following consecutive down-stretching of the lower jaw at 2-4 Hz in rats.Retrograde tracing was undertaken of the interstitial nucleus of Cajal and Darkschewitsch nucleus(INC/DN) pre-oculomotor neurons.FMG-like responses were recorded from the LP/SR during down-stretching of the lower jaw at 2-4 Hz in 3 out of 11 rats.Fos expression was induced by consecutive down-stretching of the lower jaw at 2-4 Hz for 20-30 seconds.Interestingly,Fos expression was distributed mainly in the bilateral INC/DN area.We also examined Fos-like immunoreactivity in central mesencephalic and paramedian pontine reticular formation that harbors premotor neurons controlling horizontal eye movement,but no Fos-like staining was observed therein.By injection of retrograde tracers into the oculomotor nucleus combined with Fos immunostaining,double labeled pre-oculomotor neurons were visualized to distribute in the INC/DN.In conclusions,there may exist a trigeminal proprioceptive-oculomotor system neural circuit through jaw muscle afferents in rats.Judging from Fos distribution pattern,this pathway might be related to vertical and torsional eye movements.展开更多
Subjective: To investigate the mechanisms of electroacupuncture (EA) in regulating the gastric activity in rats. Methods: 64 SD rats were randomly divided into group A and B, both of which were further divided into EA...Subjective: To investigate the mechanisms of electroacupuncture (EA) in regulating the gastric activity in rats. Methods: 64 SD rats were randomly divided into group A and B, both of which were further divided into EA subgroup a and b (n=8×2), sciatotomy+EA subgroup a and b (n=8×2), vagotomy+EA subgroup a and b (n=8×2) and control subgroup a and b (n=8×2). Rats of the 4 subgroups of group A were used for observing changes of c fos expression, while those of the 4 subgroups of group B used for analyzing changes of electrogastrogram (EGG). Left Zusanli (ST 36) was punctured and stimulated for 30 min using a 6805 A EA Therapeutic Apparatus by setting the parameters as intermittent waves, frequency of 50 Hz and strength of 20 V. Changes of c fos expression in the nucleus of tractus solitarius (NTS) and dorsal motor nucleus of vagus (DMV) of the medullary bulb were detected by using immunohistochemical method and the effect of EA on EGG using electrophysiological method in 846 mixture anesthetized rats. Results: After EA of Zusanli(ST 36), the expression of c fos in NTS and DMV changed significantly and marked changes were observed in the gastric electro activity. Conclusion: Electro acupuncture can regulate gastric activity by activating neurons of NTS and DMV.展开更多
基金the National Natural Science Foundation of China, No. 30300106
文摘BACKGROUND: Expression of Fos in neurons of periaqueductal gray (PAG) is used to reflect the excitability. However, changes of expression of Fos in neurons of PAG are caused by injured electrostimulation after simulated weightlessness, and the relationship between pretreatment and injection of succinylcholine has not been determined yet. OBJECTIVE : To investigate the changes of expression of Fos in PAG induced by injured electrostimulation pretreatment and injection of succinylcholine at 2 weeks after simulated weightlessness.DESIGN: Observational and controlled animal study.SETTING: Department of Physiology, Medical School, Xi'an Jiaotong University; Key Laboratory of Environment and Genes Related to Diseases, Ministry of Education. MATERIALS: A total of 24 adult female SD rats, of clean grade and weighing 180-220 g, were selected in this study. METHODS: The experiment was completed in the Experimental Animal Center of Xi'an Jiaotong University.① All rats were randomly divided into 2 groups according to body mass: simulated weightlessness group and control group with 12 in each group. And then, each group was also divided into 3 subgroups: electrostimulation group, succinylcholine-pretreatment group and succinylcholine-injection group with 4 in each subgroup. ②The model of weightlessness was simulated by tail-suspended female rats, which were described and modified by Cheng Jie. Rats in normal control group were given the same interventions as simulated weightlessness group except for tail-suspended. ③ Experimental method: The rats in electrostimulation group were given nociceptive stimulus by a pair of subcutaneous electrodes inserted into 1 and 5 claw of left hindlimb. The stimulus (current: 10 mA; duration: 1 ms; interval: 1 s) lasted for 30 minutes. The rats in succinylcholine-pretreatment group received stimulus after intravenous administration of succinylcholine, rats in succinylcholine-injection group were not given stimulus, just received succinylcholine. ④ All rats were perfused and fixed after 2 hours from the end of stimulation. The brains were removed, and serial frozen sections of midbrain were stained using immunocytochemical method, observed and taken photos under light-microscope. The number and morphological characters of Fos-immunoreactive (Fos-IR) neurons in ventrolateral part of PAG were investigated. MAIN OUTCOME MEASURES: The alterations in number and morphological characters of Fos-IR neurons in ventrolateral PAG of all rats.RESULTS: A total of 24 rats were involved in the final analysis. ① The morphological changes of Fos-IR neurons: The expressions of Fos in ventrolateral part of PAG were observed in both control and simulated weightlessness groups rats after being given nociceptive stimulus. As compared with control group, Fos-IR neurons in simulated weightlessness group were dyed lightly, cellular integrity was impaired, and cellular verge was unclear. ② The numbers of Fos-IR neurons: In control group, the numbers of Fos-IR neurons in ventrolateral part of PAG in simulated weightlessness group were obviously lower than succinylcholine-pretreatment group, but obviously higher than succinylcholine-injection group (46.94±3.38, 71.06±8.96 and 35.04±4.62, respectively, P 〈 0.05). In 14-day simulated weightlessness group, the numbers of Fos-IR neurons in electrostimulation group were also obviously lower than succinylcholine-pretreatment group, and obviously higher than succinylcholine-injection group (27.77±3.27, 32.91±2.99 and 11.75±1.00, respectively, P 〈 0.05). The numbers of Fos-IR neurons in all subgroups in control group were obviously higher than those subgroups in simulated weightlessness group. Compared with electrostimulation group, the percentage of expression of Fos in ventrolateral part of PAG responsed to nociceptive stimulus after administration of succinylcholine (SCH) was increased to 51.83% in control group and 18.51% in simulated weightlessness group.CONCLUSION :① The expression of Fos in neurons in ventrolateral part of PAG were increased by the pretreatment of SCH before nociceptive stimulus.② Nociceptive stimulus could increase the expression of Fos in neurons in ventrolateral part of PAG. ③ The numbers of Fos-IR neurons in ventrolateral part of PAG were decreased obviously after 2-week simulated weightlessness.
基金partially supported by Natural Sciences Research Funding 2006C225 and 2009K0174 from Shaanxi Province awarded to Dr.Liang HC
文摘The objective of this study was to explore whether there was a functional link between trigeminal proprioception and the oculomotor system mediated through jaw muscle afferents.Electromyography(EMG) was undertaken of the levator palpebrae(LP) and superior rectus(SR),and Fos expression was detected in the brainstem following consecutive down-stretching of the lower jaw at 2-4 Hz in rats.Retrograde tracing was undertaken of the interstitial nucleus of Cajal and Darkschewitsch nucleus(INC/DN) pre-oculomotor neurons.FMG-like responses were recorded from the LP/SR during down-stretching of the lower jaw at 2-4 Hz in 3 out of 11 rats.Fos expression was induced by consecutive down-stretching of the lower jaw at 2-4 Hz for 20-30 seconds.Interestingly,Fos expression was distributed mainly in the bilateral INC/DN area.We also examined Fos-like immunoreactivity in central mesencephalic and paramedian pontine reticular formation that harbors premotor neurons controlling horizontal eye movement,but no Fos-like staining was observed therein.By injection of retrograde tracers into the oculomotor nucleus combined with Fos immunostaining,double labeled pre-oculomotor neurons were visualized to distribute in the INC/DN.In conclusions,there may exist a trigeminal proprioceptive-oculomotor system neural circuit through jaw muscle afferents in rats.Judging from Fos distribution pattern,this pathway might be related to vertical and torsional eye movements.
文摘Subjective: To investigate the mechanisms of electroacupuncture (EA) in regulating the gastric activity in rats. Methods: 64 SD rats were randomly divided into group A and B, both of which were further divided into EA subgroup a and b (n=8×2), sciatotomy+EA subgroup a and b (n=8×2), vagotomy+EA subgroup a and b (n=8×2) and control subgroup a and b (n=8×2). Rats of the 4 subgroups of group A were used for observing changes of c fos expression, while those of the 4 subgroups of group B used for analyzing changes of electrogastrogram (EGG). Left Zusanli (ST 36) was punctured and stimulated for 30 min using a 6805 A EA Therapeutic Apparatus by setting the parameters as intermittent waves, frequency of 50 Hz and strength of 20 V. Changes of c fos expression in the nucleus of tractus solitarius (NTS) and dorsal motor nucleus of vagus (DMV) of the medullary bulb were detected by using immunohistochemical method and the effect of EA on EGG using electrophysiological method in 846 mixture anesthetized rats. Results: After EA of Zusanli(ST 36), the expression of c fos in NTS and DMV changed significantly and marked changes were observed in the gastric electro activity. Conclusion: Electro acupuncture can regulate gastric activity by activating neurons of NTS and DMV.
