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BACKGROUND:Inhibitory control and drug craving are the core elements of evaluating drug withdrawal in methamphetamine addicts,which has attracted much attention in academic circles.As we all know,in order to achieve complete abstinence from drug addiction,the key is to restore the damaged inhibition and control function of drug addicts and effectively reduce the craving for drugs. OBJECTIVE:To systematically analyze the relationship between exercise and methamphetamine abstinence inhibitory control and drug craving,to find out an effective exercise intervention scheme that can promote methamphetamine abstinence,and to further explore the internal mechanism of exercise,in order to provide theoretical support and applied reference for the future use of exercise in drug withdrawal. METHODS:CNKI,WanFang,VIP,Web of Science,and PubMed databases were searched for relevant literature using the keywords of"exercise,physical activity,methamphetamine,inhibitory function,craving,addiction"in Chinese and"sport*,exercise,methamphetamine,drug craving,executive function,addiction"in English.According to the inclusion and exclusion criteria,86 documents were finally included for review. RESULTS AND CONCLUSION:In terms of inhibitory control in methamphetamine abstinent individuals,either acute and long-term moderate-intensity aerobic exercise or acute high-intensity interval training can significantly improve the inhibitory control capacity of methamphetamine abstinent individuals.For long-term aerobic exercise,aerobic group exercise or full-body comprehensive exercise is more effective.If the exercise format is power cycling,it is recommended to increase the frequency of exercise intervention.In terms of the drug craving intensity in methamphetamine abstinent individuals,acute moderate-intensity aerobic exercise and resistance training,as well as long-term moderate-intensity,high-intensity,or progressive load aerobic and resistance training,can effectively reduce the drug craving in methamphetamine abstinent individuals.Exercise exerts intrinsic regulatory effects on methamphetamine-mediated addiction.Exercise can influence the expression of tyrosine hydroxylase in the brain's ventral tegmental area,thereby stimulating the expression of dopamine receptor coupling proteins and promoting dopamine synthesis in the brain's reward regions,thereby compensating for dopamine depletion caused by methamphetamine addiction.Furthermore,exercise can also regulate protein kinase A inhibitors,affecting the protein kinase A signaling pathway mediated by dopamine D1 receptors,by inhibiting protein kinase A,thus affecting cAMP response element-binding protein and regulating methamphetamine addiction.Additionally,exercise can also,at the genetic level,affect the expression of the c-fos gene in the brain's nucleus accumbens region,activate a subset of glutamatergic neurons in this area,generate a rewarding effect,and thus improve methamphetamine addiction.Although current research has confirmed the relationship between exercise and methamphetamine addiction and has clarified the brain mechanisms underlying the effects of exercise,whether there are other brain regulatory pathways for the effects of exercise remains to be explored through more scientifically rigorous animal or human experiments,starting from the cellular or molecular level.
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@#Abstract: Flubromazolam (Flub) is a novel psychoactive substance of benzodiazepines and the mechanism underlying its addiction still remains elusive. This study investigated the reward effect of Flub using conditioned place preference (CPP) mouse model. The neuronal activity was evaluated by c-Fos expression, and the neural circuit was tracked by virus tracing. This study also investigated the regulatory effect of neural circuits on Flub-induced reward effects through chemogenetic approach. The results showed that, at the dose of 3 mg/kg, Flub significantly increased CPP score and c-Fos expression in dopaminergic (DA) neurons of ventral tegmental area (VTA). Inhibition of VTA dopaminergic neuron activity dramatically decreased Flub-induced CPP score. Virus tracing verified GABAergic neuronal projection of medial rostrum tegmental nucleus (RMTg) to VTA dopaminergic neurons. Activation of RMTgGABA→VTADA circuit or blockade of benzodiazepine receptors (BZR) in RMTg significantly decreased Flub-induced CPP score. These results indicate that Flub produced reward effect via BZR-mediated RMTgGABA→VTADA circuit.
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Food addiction refers to the individual dependence on certain specific foods (high-calorie foods) to the extent that it becomes difficult to control and manifests a series of addictive-like behavioral changes. Food addiction is an important factor in the development of human obesity and is also a core factor that most people cannot maintain weight loss or adhere to restrictive diets to maintain a healthy weight. A deeper understanding of food addiction and its neurobiological mechanisms will provide accurate targets for intervening in food addiction to improve obesity. Food addiction is characterized by compulsive, chronic and repetitive nature. The Yale Food Addiction Scale (YFAS), a scale specifically designed to assess food addiction, was developed in 2009 by modeling all the DSM-IV for substance dependence to be applicable to eating behavior. In 2016, Gearhardt developed the Yale Food Addiction Scale 2.0, which contains 35 survey questions, to align the YFAS scale with the diagnostic criteria for addictive disorders in the fifth edition of the Diagnostic and Statistical Manual of Mental Disorders. One of the most valid and used animal models for food addiction is the mouse food self-administration model. The mouse food self-administration model was modified according to the rat cocaine addiction model, and the food addiction status of the animals was evaluated based on three behaviors: persistence of feeding response, feeding motivation, and compulsive feeding. Studies have shown that the neural circuits of the lateral hypothalamus-ventral tegmental area-nucleus accumbens and ventral tegmental area-prelimbic-nucleus accumbens are key neurobiological mechanisms that regulate food addiction. Dopaminergic neurons in the ventral tegmental area project to the nucleus accumbens (NAc) to facilitate food reinforcement, food reward, and food addiction. The corticotropin-releasing factor (CRF) secreted by the hypothalamus may mediate chronic stress-induced VTA-nucleus accumbens reward system dysfunction and promote food addiction in mice. Meanwhile, the nucleus accumbens receives glutamatergic projections from the prelimbic cortex, an integral part of the reward system. Specific inhibition of the PL-NAc neural circuit develops a food addiction-susceptible phenotype in mice. Furthermore, dopaminergic projections from the ventral tegmental area to the prelimbic cortex specifically inhibited the PL-NAc neural circuit to promote a food-addicted phenotype in mice. Additionally, neurotensin-positive neurons in the lateral septum (LSNts) project to the tuberal nucleus (TU) via GABA signaling to suppress hedonic feeding.
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Objective:To investigate the alterations of resting-state functional connectivity (RSFC) in ventral tegmental area (VTA) and substantia nigra (SN) among male smokers, and its correlation with clinical characteristics of smoking.Methods:The resting-state functional magnetic resonance data of 131 subjects recruited from January 2014 to December 2018 were analyzed retrospectively, including 76 smokers (smoking group) and 55 non-smokers (control group). VTA/SN was selected as regions of interest (ROI), and then calculated RSFC between VTA/SN and the whole brain.Based on SPM12 software, independent sample t-test was conducted to compare the differences in RSFC between smoking group and control group.Based on SPSS 22.0 software, Pearson correlation analysis was used to investigate the relationships between the RSFC of brain regions with significant differences and Fagerstr?m test for nicotine dependence (FTND) score, pack-year of smokers. Results:Compared with control group, the results showed decreased RSFC between VTA and the brain regions related default mode network (DMN)(including posterior cingulate cortex, right anterior cuneiform lobe, bilateral superior temporal gyrus, right middle temporal gyrus and right inferior parietal lobule), and regions of limbic system(including right marginal lobe and right angular gyrus), right calcarine (MNI: x, y, z=24, -55, -14) and left insula(MNI: x, y, z=-35, -11, 9) in smoking group(GRF corrected, voxel level P<0.005, cluster level P<0.05). Taking SN as the seed, there was no significant difference between smoking group and control group ( P>0.05). RSFC of VTA-left superior temporal gyrus was positively correlated with pack-year( r=0.243, P=0.034) and FTND ( r=0.282, P=0.014). VTA-left insula RSFC was positively correlated with FTND ( r=0.316, P=0.006). Conclusion:The RSFC in the mesolimbic system and the VTA-DMN circuit exist abnormal changes in smokers.To some extent, it may explain the reward deficits and dysfunction of emotion regulation in smokers, which may provide clues for further understanding the mechanism of tobacco addiction.
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As a common emotional and psychogenic disorder, anxiety disorder seriously threats the human physical and mental health. Ventral tegmental area (VTA) is the canter of the mesocortical limbic circuit, with extensive bidirectional connections to forebrain areas, and plays important role in regulating reward, motivation, cognition, and disgust. Besides, VTA is involved in anxiety regulation by forming functional connections with multiple brain regions and connecting external stimulus information and feedback output behaviours. This article briefly summarizes the different cell subsets of VTA and its involvement in anxiety-related neural circuits.
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Itch is an unpleasant sensation that provokes the desire to scratch. While acute itch serves as a protective system to warn the body of external irritating agents, chronic itch is a debilitating but poorly-treated clinical disease leading to repetitive scratching and skin lesions. However, the neural mechanisms underlying the pathophysiology of chronic itch remain mysterious. Here, we identified a cell type-dependent role of the anterior cingulate cortex (ACC) in controlling chronic itch-related excessive scratching behaviors in mice. Moreover, we delineated a neural circuit originating from excitatory neurons of the ACC to the ventral tegmental area (VTA) that was critically involved in chronic itch. Furthermore, we demonstrate that the ACC→VTA circuit also selectively modulated histaminergic acute itch. Finally, the ACC neurons were shown to predominantly innervate the non-dopaminergic neurons of the VTA. Taken together, our findings uncover a cortex-midbrain circuit for chronic itch-evoked scratching behaviors and shed novel insights on therapeutic intervention.
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Mice , Animals , Gyrus Cinguli/physiology , Pruritus/pathology , Mesencephalon , Cerebral Cortex/pathology , Neurons/pathologyРеферат
Anxiety disorders,dopaminergic neurons and ventral tegmental area(VTA)are related closely.VTA dopaminergic neurons play an important role in the regulation of anxiety.Numerous research results in animals indicated that the VTA dopaminergic neurons,involving in multiple neural pathways,respectively regulate anxiety-like behavior in physiological or pathological condition.Dopamine,the main neurotransmitters in VTA regulates anxiety through dopamine D1 and D2 receptors.In addition,the VTA glutamate,GABA and acetylcholine also play directly or indirectly roles in regulating anxiety.The clinical imaging research showed that the integrity of dopaminergic VTA structural of anxiety disorder group is lower than healthy control.Current researches of VTA dopamine neurons involving in the regulation of anxiety-like behavior is developing at a high speed and deserving further exploration,which will further elucidate the pathogenesis and provide new ideas for prevention and treatment of anxiety disorders.
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Dopaminergic neurons in the ventral tegmental area (VTA) play an important role in cognition, emergence from anesthesia, reward, and aversion, and their projection to the cortex is a crucial part of the "bottom-up" ascending activating system. The prelimbic cortex (PrL) is one of the important projection regions of the VTA. However, the roles of dopaminergic neurons in the VTA and the VTADA-PrL pathway under sevoflurane anesthesia in rats remain unclear. In this study, we found that intraperitoneal injection and local microinjection of a dopamine D1 receptor agonist (Chloro-APB) into the PrL had an emergence-promoting effect on sevoflurane anesthesia in rats, while injection of a dopamine D1 receptor antagonist (SCH23390) deepened anesthesia. The results of chemogenetics combined with microinjection and optogenetics showed that activating the VTADA-PrL pathway prolonged the induction time and shortened the emergence time of anesthesia. These results demonstrate that the dopaminergic system in the VTA has an emergence-promoting effect and that the bottom-up VTADA-PrL pathway facilitates emergence from sevoflurane anesthesia.
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Animals , Rats , Anesthesia , Dopaminergic Neurons/metabolism , Receptors, Dopamine D1/metabolism , Sevoflurane/pharmacology , Ventral Tegmental Area/metabolismРеферат
OBJECTIVE@#To observe the changes of functional connectivity of brain pain-emotion regulation region in patients with cervical spondylosis of cervical type by functional magnetic resonance imaging (fMRI).@*METHODS@#Thirty-two subjects were selected. Of them, 16 patients with cervical spondylosis of cervical type were divided into an observation group and 16 healthy subjects into a control group. The patients in the observation group were treated with acupuncture at Tianzhu (BL 10), Jingbailao (EX-HN 15), Jianzhongshu (SI 15) and @*RESULTS@#In the observation group, the VAS score was (1.94±1.12) after the treatment, which was lower than (5.62±1.20) before treatment (@*CONCLUSION@#Pain involves the formation and expression of "pain-emotion-cognition". Acupuncture can systematically regulate the brain functional connections between cognitive regions such as dorsal prefrontal lobe and anterior cingulate gyrus and emotional regions such as insula and VTA in patients with cervical spondylosis of cervical type, suggesting that acupuncture has a multi-dimensional and comprehensive regulation effect on pain.
Тема - темы
Humans , Acupuncture Therapy , Brain/diagnostic imaging , Emotions , Magnetic Resonance Imaging , Pain , Spondylosis/therapyРеферат
Mesocorticolimbic dopaminergic (DA) neurons have been implicated in regulating nociception in chronic pain, yet the mechanisms are barely understood. Here, we found that chronic constructive injury (CCI) in mice increased the firing activity and decreased the KCNQ channel-mediated M-currents in ventral tegmental area (VTA) DA neurons projecting to the nucleus accumbens (NAc). Chemogenetic inhibition of the VTA-to-NAc DA neurons alleviated CCI-induced thermal nociception. Opposite changes in the firing activity and M-currents were recorded in VTA DA neurons projecting to the medial prefrontal cortex (mPFC) but did not affect nociception. In addition, intra-VTA injection of retigabine, a KCNQ opener, while reversing the changes of the VTA-to-NAc DA neurons, alleviated CCI-induced nociception, and this was abolished by injecting exogenous BDNF into the NAc. Taken together, these findings highlight a vital role of KCNQ channel-mediated modulation of mesolimbic DA activity in regulating thermal nociception in the chronic pain state.
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Morphine addiction causes the disturbance in the dopaminergic transmission. The activity of dopaminergic neurons in patients with stress depression is reduced. These studies indicate a strong correlation between morphine addiction and stress depression, which involvement of one or more common neurobiological mechanisms. The dysfunction of dopaminergic neurotransmission from the ventral tegmental area(VTA) to the nucleus accumbens (NAc), prefrontal cortex (mPFC), amygdala (Amy), hippocampus (Hip), and striatum (ST) plays an important role in regulating morphine addiction and stress depression. This article summarizes the mechanism of the dopaminergic transmission regulating morphine addiction and stress depression.
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Objective: To explore the correlation between bilateral anterior ventral tegmental area (aVTA) and depression-like behavior in rats. Methods The subjects in the study were aVTA-lesioned rats which were prepared by microinjecting 6-OHDA into their aVTA nucleus. Four weeks after the operation, all the rats were examined by behavior tests, including open-field test, sucrose preference test, and forced swimming test. We recorded and calculated the number of squares crossed, rearings, sucrose preference, immobility time. Immunohistochemistry method was used to observe the change of TH-positive neurons' number in bilateral aVTA and SNc of the 6-OHDA lesioned rats. Meanwhile, we analyzed and compared the changes of DA, 5-HT, NE levels in themPFC, LHb, STr and VHPC in the two groups of rats by high performance liquid chromatography with electrochemical detection (HPLC-ED). Results ① Bilateral aVTA lesions in the rats significantly decreased the number of squares crossed and rearings and sucrose preference, increased immobility time when compared with the sham-operated rats (P<0.001). ② In the lesioned rats, the aVTA of the bilateral injected side showed partial loss of TH-ir neurons when compared with the sham-operated rats, and the bilateral SNc in aVTA lesioned rats had a coherence of changing trend, showed a certain decrease (P<0.001). ③ Compared with sham-operated rats, bilateral aVTA 6-OHDA lesioned rats' 5-HT levels in the mPFC, STr, LHB and VHPC significantly decreased. Likewise, 6-OHDA lesioned rats' NA levels in the mPFC, striatum, and habenula vHPC significantly decreased, too(P<0.001). However, bilateral aVTA 6-OHDA lesioned rats' DA levels only in the striatum showed significantly decreased when compared to the sham-operated rats (P<0.001). Conclusion Bilateral aVTA is involved in depression-like behavior. DA neurons of the VTA and the changes of monoamine neurotransmitters of the limbic and limbic-related areas may be involved in the development of depression.
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Opioid addiction has high incidence and does great harm to individuals and society. The mesolimbic reward system plays an important role in opioid addiction. Previous studies have focused on functional adaptations in specific brain regions of the mesolimbic reward system, but the neuronal interactions in mesolimbic reward system underlying opioid addiction remain unknown. The paper reviews the neural circuit mechanisms in mesolimbic reward system involved in opioid addiction, in order to provide a broader vision for understanding the mechanisms of opioid addiction.
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Reinforcement omission effects (ROEs) are characterized by higher response rates after reinforcement omission than after reinforcement delivery. This pattern of behavior is interpreted in terms of motivational and attentional processes. Recent studies from our laboratory have shown that the amygdala, nucleus accumbens, and medial prefrontal cortex are involved in ROE modulation. Also, the literature has demonstrated a role of other areas such as substantia nigra pars compacta (SNc) and the ventral tegmental area (VTA) in processes related to surprising events, such as prediction error and presentation or omission of an event (exteroceptive stimulus and reinforcement). Since these structures send projections to areas related to ROE modulation such as the amygdala, nucleus accumbens, and prefrontal cortex, the objective of the present study was to determine whether the SNc and VTA also integrate the circuit involved in ROE modulation. Rats were trained on a fixed-interval 12 s with limited-hold 6 s signaled schedule of reinforcement (Pre-lesion training). After acquisition of stable performance, the rats received bilateral neurotoxic lesions of the SNc (Experiment 1) and VTA (Experiment 2). Following postoperative recovery, the rats were submitted to two refresher sessions (Post-lesion training). Subsequently, the training was changed from a 100 to a 50% schedule of reinforcement (Post-lesion testing). In both experiments, the results showed that there was no difference in performance between sham rats and rats with bilateral lesions of the SNc or the VTA.
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Animals , Male , Rats , Reinforcement, Psychology , Behavior, Animal/physiology , Substantia Nigra/injuries , Ventral Tegmental Area/injuries , Conditioning, Operant/physiology , Pars Compacta/injuries , Substantia Nigra/physiopathology , Rats, Wistar , Ventral Tegmental Area/physiopathology , Pars Compacta/physiopathology , Learning/physiologyРеферат
Objective: To investigate the effect of crocin carotenoid on BNDF and CREB gene expression in the brain ventral tegmental area (VTA) and the serum level of BDNF in morphine-treated rats compared to control. Methods: In this study, 40 male Wistar rats (200-250 g) were used in 5 experimental groups: 1) non morphine treat rats (control); 2) non morphine-treated rats with 25 mg/kg crocin carotenoid (i.p., for 21 d); 3) morphine treated rats (10 mg/kg twice a day, s.c., 21 d); 4 and 5) morphine-treated rats with 12.5 and 25 mg/kg crocin carotenoid, respectively. By the end of research, BDNF and CREB expression was determined by real-time-PCR method. ELISA analysis was also applied for assessing the serum BDNF level. Results: The data indicated that morphine treatment could cause a significant decrease in BDNF and CREB gene expression (P<0.01 and P<0.001, respectively) in brain VTA as well as serum level of BDNF (P<0.01) in comparison to control group. Treatment with 25 mg/kg crocin carotenoid caused a significant enhancement in BDNF and CREF gene expression (P<0.01 and P<0.05, respectively) and serum level of BDNF (P<0.01) in morphine-treated rats in comparison to morphine-treated group. Conclusions: Regarding to obtained results, crocin carotenoid can inhibit unfavorable effects of morphine on the neural system to some extent through enhancing BDNF and CREB gene expression in brain VTA and serum level of BDNF.
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<p><b>Background</b>Histopathology identified the anatomical and molecular abnormalities of brainstem nuclei in migraine patients. However, the exact whole brainstem structural changes in vivo have not yet been identified in medication-overuse headache (MOH) transformed from migraine. The aim of this study was to investigate the regional volume changes over the whole brainstem in the MOH patients using voxel-based morphometry (VBM) in vivo.</p><p><b>Methods</b>High-resolution three-dimensional structural images were obtained using a 3.0-Tesla magnetic resonance system from 36 MOH patients and 32 normal controls (NCs) who were consecutively recruited from the International Headache Center, Chinese People's Liberation Army General Hospital, from March 2013 to June 2016. VBM was used to assess the brainstem structural alteration in the MOH patients, and voxel-wise correlation was performed to evaluate the relationship with the clinical characteristics.</p><p><b>Results</b>The brainstem region with increased volume located in the left ventrolateral periaqueductal gray (MNI coordinate: -1, -33, -8), ventral tegmental area (MNI coordinate: 0, -22, -12), bilateral substantia nigra (MNI coordinate: -8, -16, -12, 9, -16, -12), and trigeminal root entry zone (MNI coordinate: -19, -29, -31; 19, -32, -29) in MOH patients compared with NCs. The headache visual analog scale score was positively related with the left rostral ventromedial medulla (RVM) (MNI coordinate: -1, -37, -56; cluster size: 20; r = 0.602) in the MOH patients.</p><p><b>Conclusions</b>The regional volume gain of brainstem could underlie the neuromechanism of impaired ascending and descending pathway in the MOH patients, and the left RVM volume alteration could imply the impaired tolerance of nociceptive pain input and could be used to assess the headache disability in the MOH patients.</p>
Тема - темы
Adult , Female , Humans , Male , Middle Aged , Young Adult , Brain Stem , Pathology , Headache , Headache Disorders, Secondary , Pathology , Imaging, Three-Dimensional , Magnetic Resonance Imaging , Migraine Disorders , PathologyРеферат
Objective: To investigate the effect of crocin carotenoid on BNDF and CREB gene expression in the brain ventral tegmental area (VTA) and the serum level of BDNF in morphine-treated rats compared to control. Methods: In this study, 40 male Wistar rats (200-250 g) were used in 5 experimental groups: 1) non morphine treat rats (control); 2) non morphine-treated rats with 25 mg/kg crocin carotenoid (i.p., for 21 d); 3) morphine treated rats (10 mg/kg twice a day, s.c., 21 d); 4 and 5) morphine-treated rats with 12.5 and 25 mg/kg crocin carotenoid, respectively. By the end of research, BDNF and CREB expression was determined by real-time-PCR method. ELISA analysis was also applied for assessing the serum BDNF level. Results: The data indicated that morphine treatment could cause a significant decrease in BDNF and CREB gene expression (P<0.01 and P<0.001, respectively) in brain VTA as well as serum level of BDNF (P<0.01) in comparison to control group. Treatment with 25 mg/kg crocin carotenoid caused a significant enhancement in BDNF and CREF gene expression (P<0.01 and P<0.05, respectively) and serum level of BDNF (P<0.01) in morphine-treated rats in comparison to morphine-treated group. Conclusions: Regarding to obtained results, crocin carotenoid can inhibit unfavorable effects of morphine on the neural system to some extent through enhancing BDNF and CREB gene expression in brain VTA and serum level of BDNF.
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Objective To investigate the effect of dopaminergic neurons of midbrain ventral tegmental area(VTA) in general anesthesia.Methods Forty adult healthy male SD rats were randomly divided into lesion group (n=20) and control group (n=20).The lesion group was given the bilateral infusion of specific dopaminergic neuron injury agent 6-OHDA in midbrain lateral VTA,while the control group received the same volume of normal saline at the same areas.The time of loss of righting reflex (LORR)loss and recovery of righting reflex(RORR)at postoperative 2 week were observed in each group.Results Compared with the control group,the LORR time in the lesion group was shortened and the RORR time was significantly prolonged under propofol-induced anesthesia (P<0.05).However,the LORR time under the isoflurane anesthesia had no statistically significant difference between the two groups(P>0.05),while the RORR time in the lesion group was increased(P<0.05).Conclusion Dopaminergic neurons in midbrain VTA might play different roles in the induction and recovery of different general anesthetics.
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Objepctive To explore the protective effect of modified recombinant human aFGF ( Mrh-aFGF) on the neurons in ventral tegmental area of rats with Parkinson’ s disease ( PD) . Methods The 54 SD rats were ramdomly divided into the control group,the model group and the treatment group,and there were 18 rats in each group. PD rats of the model group and the treatment group were induced by in-jecting 6-OHDA into the left substantia nigra compacta ( SNC) and ventral tegmental area ( VTA) to build the PD model. Rats in the treat-ment group were given Mrh-aFGF injection after lateral ventricle injection,and the behavioral changes of the rats were detected after apomor-phine injection. The morphologic features and pathological changes of neurons in the ventral tegmental area were observed by Nissl’ s staining and electronic microscope. Results Compared to the right VTA of PD rats,the number of neurons in left side ( the injured side) decreased significantly in the model group(P<0. 05). In the treatment group,the structure of left (the injured side) VTA was markedly improved and the number of neurons was increased one week,two weeks and four weeks after operation compared with the model group (P<0. 05). The neurons in the VTA of the model group were found to have karyopyknosis,endoplasmic reticulum,degranulation,mitochondria swelling,cristae disappear,pre-synaptic and post-synaptic membranes swelling,and synaptic cleft disappear. In the treatment group,the ultrastructure of the neurons in the VTA,such as nuclei,mitochondria,synaptic structure,kept well compared to the model group. Conclusion Mrh-aFGF could protect the neurons in the ventral tegmental area from the loss and improve the ultrastructure of the neurons of PD rats.
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Aim To investigate the inhibitory effects of urocortin2 (UCN2) on ventral tegmental area (VTA) nervous activity of morphine addiction rats and the mechanism. Methods Morphine addiction rats and the microiontophoresis method were used to observe the effects of UCN2 on VTA neuron′s spontaneous dis-charge changing rule, as well as the inhibitory effects of UCN2 on DA neuron′s cluster spontaneous dis-charge, to identify UCN2 and DA on the same VTA neuron. Morever, the inhibitor of corticotropin-regula-ting factor′s receptor ( CRF-2 R ) and the blocker of protein kinase A ( PKA ) , AST-2 B and H89 , were used to investigate the effects of UCN2 on VTA neuron′s of morphine addiction rats. Results UCN2 could inhibit the firing rate 82% (31/38) of the tested VTA neuron ( P<0. 01 ) , the discharge frequency changed from (20. 89 ± 2. 86) Hz to (13. 66 ± 3. 93) Hz (P<0. 01). Further, the inhibitor of PKA, AST-2B and H89 could ablolish the inhibitory effects of UCN2 . Morever, the excitatory firing of VTA neurons was at-tenuated by addition of UCN2 , while AST application could inhibit the UCN2′s inhibitory effects. Conclu-sion UCN2 could regulate the effects of VTA via PKA pathway and may thereby contribute to the improvement of drug addiction.