Your search keyword '"Zhou QQ"' showing total 29 results

1. Activation of P2X3 receptors in the cerebrospinal fluid-contacting nucleus neurons reduces formalin-induced pain behavior via PAG in a rat model.

Author

Liu PF, Fang HZ, Yang Y, Zhang QQ, Zhou QQ, Chen SS, Zhou F, and Zhang LC

Subjects

Adenosine Triphosphate metabolism, Animals, Cholera Toxin, Disease Models, Animal, Disinfectants toxicity, Formaldehyde toxicity, Injections, Intraventricular, Male, Neurons drug effects, Pain chemically induced, Pain drug therapy, Pain Measurement, Pain Threshold drug effects, Periaqueductal Gray drug effects, Periaqueductal Gray pathology, Phenols therapeutic use, Polycyclic Compounds therapeutic use, Purinergic P2X Receptor Agonists therapeutic use, Rats, Rats, Sprague-Dawley, Ribosome Inactivating Proteins, Type 1, Saporins, Cerebrospinal Fluid, Neurons metabolism, Pain metabolism, Periaqueductal Gray metabolism, Receptors, Purinergic P2X3 metabolism

Abstract

The cerebrospinal fluid (CSF)-contacting nucleus is implicated in the descending inhibitory pathway in pain processing, whereas the cellular and molecular mechanisms underpinning CSF-contacting nucleus regulating pain signals remains largely elusive. ATP is evidenced to inhibit pain transmission at supraspinal level by the mediation of the receptor P2X, wherein its subtype P2X3 is identified as the most potent. Our present experiment investigated the functionality of P2X3 receptors in CSF-contacting nucleus in the formalin-evoked inflammatory pain. Immunofluorescence and western blot revealed the expression of P2X3 receptors in the CSF-contacting nucleus and their upregulated expression subsequent to administration of formalin in rat model. ATP (a P2X3 receptor agonist, 100nmol/5µl) by intracerebroventricular (i.c.v.) administration ameliorated pain behaviors and enhanced c-Fos immunoreactivity in the neurons of the periaqueductal gray (PAG), both of which were discounted by pre-administration of A-317491 (a selective P2X3 receptor antagonist, 25nmol/5µl). After the CSF-contacting nucleus was ablated by cholera toxin subunit B-saporin, ATP failed to induce analgesia, with the c-Fos immunoreactivity in the PAG neurons remaining intact. Our results validated that P2X3 receptors in the CSF-contacting nucleus are pivotal in inflammatory pain processing via the activation of PAG neurons., (Copyright © 2017 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2017

2. Changes in gene expression and neuronal phenotype in brain stem pain modulatory circuitry after inflammation.

Author

Miki K, Zhou QQ, Guo W, Guan Y, Terayama R, Dubner R, and Ren K

Subjects

Action Potentials physiology, Animals, Electrophysiology, Gene Expression physiology, Inflammation physiopathology, Male, Neural Pathways, Neuronal Plasticity physiology, Pain immunology, Phenotype, Rats, Rats, Sprague-Dawley, Medulla Oblongata cytology, Medulla Oblongata physiology, Neurons physiology, Pain physiopathology, Receptors, N-Methyl-D-Aspartate genetics

Abstract

Recent studies indicate that descending pain modulatory pathways undergo time-dependent changes in excitability following inflammation involving both facilitation and inhibition. The cellular and molecular mechanisms of these phenomena are unclear. In the present study, we examined N-methyl-D-aspartate (NMDA) receptor gene expression and neuronal activity in the rostral ventromedial medulla (RVM), a pivotal structure in pain modulatory circuitry, after complete Freund's adjuvant (CFA)-induced hindpaw inflammation. The reverse transcription polymerase chain reaction analysis indicated that there was an upregulation of mRNAs encoding NMDA receptor subunits in the RVM after inflammation. The increase in the NR1, NR2A, and NR2B receptor mRNAs started at 5 h, maintained for 1-7 days (P < 0.05-0.001) and returned to the control level at 14 days after inflammation. Western blot analysis indicated that the protein translation products of the NR2A subunit were also increased (P < 0.01). In single-unit extracellular recordings, we correlated RVM neuronal activity with the paw withdrawal response in rats with inflammation. We describe these RVM cells as on-, off-, and neutral-like cells because of their similarity to previous studies in which neuronal responses were correlated with tail-flick nocifensive behavior in the absence of inflammation. In contrast to previous studies in the absence of inflammation, using tail flick as a behavioral correlate, fewer off-like cells in naïve animals exhibited a complete pause before the paw withdrawal to a noxious thermal stimulus. The percentage of cells showing a pause of activity after noxious stimulation was further reduced after inflammation (chi(2) P < 0.0001 vs. naïve rats). Continuous neuronal recordings (3-6.5 h) revealed a phenotypic switch of RVM neurons during the development of inflammation: 11/15 neutral-like cells initially unresponsive to noxious stimuli exhibited and maintained response profiles characteristic of pain modulatory neurons (became off-like: n = 5; became on-like: n = 6). Neutral-like cells recorded in noninflamed animals did not show response profile changes during continuous recordings (5-5.5 h, n = 7). A population study (n = 165) confirmed an increase in on- and off-like cells and a decrease in neutral-like cells at 24 h after inflammation as compared with naïve rats (P < 0.001). These results suggest that enhanced NMDA receptor activation mediates time-dependent changes in excitability of RVM pain modulatory circuitry. The functional phenotypic switch of RVM neurons provides a novel mechanism underlying activity-dependent plasticity and enhanced net descending inhibition after inflammation.

Published

2002

3. Activated PKA and PKC, but not CaMKIIalpha, are required for AMPA/Kainate-mediated pain behavior in the thermal stimulus model.

Author

Jones TL and Sorkin LS

Subjects

2-Amino-5-phosphonovalerate pharmacology, Animals, Area Under Curve, Blotting, Western methods, Capsaicin pharmacology, Diagnostic Imaging methods, Disease Models, Animal, Dose-Response Relationship, Drug, Enzyme Activation, Enzyme Inhibitors therapeutic use, Excitatory Amino Acid Antagonists pharmacology, Gene Expression Regulation drug effects, Gene Expression Regulation physiology, Hot Temperature, Hyperalgesia drug therapy, Hyperalgesia physiopathology, Immunohistochemistry methods, Male, Pain drug therapy, Pain Measurement methods, Phosphorylation drug effects, Physical Stimulation methods, Rats, Receptors, AMPA metabolism, Serine metabolism, Spider Venoms pharmacology, Spinal Cord drug effects, Cyclic AMP-Dependent Protein Kinases metabolism, Hyperalgesia metabolism, Pain metabolism, Protein Kinase C metabolism, Spinal Cord metabolism, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid metabolism

Abstract

Secondary mechanical allodynia resulting from a thermal stimulus (52.5 degrees C for 45s) is blocked by intrathecal (i.t.) pretreatment with calcium-permeable AMPA/KA receptor antagonists, but not NMDA receptor antagonists. Spinal sensitization is presumed to underlie thermal stimulus-evoked secondary mechanical allodynia. We investigated whether this spinal sensitization involves activation and phosphorylation of calcium-dependent protein kinases (PKA, PKC and CaMKIIalpha), and examined if the noxious stimulus increases phosphorylated AMPA GLUR1 (pGLUR1 Ser-845 and pGLUR1 Ser-831). Secondary mechanical allodynia after thermal stimulation was not altered by i.t. pretreatment with control vehicles (saline or 5% DMSO). Comparable allodynia was observed after pretreatment with a selective CaMKIIalpha inhibitor (17 and 34nmol KN-93). In marked contrast, pretreatment with either a PKA (10nmol H89) or PKC (30nmol chelerythrine) inhibitor blocked allodynia. Western immunoblot analyses supported behavioral findings and revealed a thermal stimulus-evoked increase in spinal phosphorylated PKA and PKC, but not CaMKIIalpha. There was no increase in any of the total protein kinases. Although thermal stimulation did not change either pGLUR1 Ser-845 or pGLUR1 Ser-831, it was associated with an increase in cytosolic total GLUR1. Pretreatment with a selective calcium-permeable AMPA/KA receptor antagonist (5nmol joro spider toxin), but not an NMDA receptor antagonist (25nmol d-2-amino-5-phosphonovalerate, AP-5), blocked thermal stimulus-evoked increases in phosphorylated PKA and PKC, in addition to increased cytosolic GLUR1. These findings indicate that spinal sensitization in the thermal stimulus model does not involve CaMKIIalpha activation or AMPA GLUR1 receptor phosphorylation, and differs from that occurring in NMDAr-dependent pain states.

Published

2005

4. The role of N-methyl-D-aspartate (NMDA) receptors in pain: a review.

Author

Petrenko AB, Yamakura T, Baba H, and Shimoji K

Subjects

Animals, Central Nervous System drug effects, Chronic Disease, Excitatory Amino Acid Agonists administration & dosage, Excitatory Amino Acid Agonists pharmacology, Humans, Peripheral Nervous System drug effects, Receptors, N-Methyl-D-Aspartate drug effects, Receptors, N-Methyl-D-Aspartate metabolism, Pain physiopathology, Receptors, N-Methyl-D-Aspartate physiology

Abstract

There is accumulating evidence to implicate the importance of N-methyl-D-aspartate (NMDA) receptors to the induction and maintenance of central sensitization during pain states. However, NMDA receptors may also mediate peripheral sensitization and visceral pain. NMDA receptors are composed of NR1, NR2 (A, B, C, and D), and NR3 (A and B) subunits, which determine the functional properties of native NMDA receptors. Among NMDA receptor subtypes, the NR2B subunit-containing receptors appear particularly important for nociception, thus leading to the possibility that NR2B-selective antagonists may be useful in the treatment of chronic pain.

Published

2003

5. The recent research progress in neurobiological characteristics and pain regulation of the cerebrospinal fluid-contacting nucleus.

Author

Wei, Jingqiu, Liu, He, Zhou, Fang, Lu, Xianfu, Zhang, Hongxing, and Zhang, Licai

Abstract

The ependymal epithelium forms the cerebrospinal fluid barrier, separating the brain and spinal cord from the cerebrospinal fluid. However, in specific regions of the central nervous system, there are neurons that directly interface with the cerebrospinal fluid, including neuronal bodies, dendrites, or axons, This constitutes what is referred to as the "cerebrospinal fluid contacting neurons system (CSF-CNS)". The research team led by Professor Zhang has successfully utilized cholera toxin subunit B coupled horseradish peroxidase complex (CB-HRP) to selectively label the specialized neuron system that interfaces with cerebrospinal fluid, pioneeringly designating it as the "cerebrospinal fluid-contacting nucleus", commonly referred to as the "CSF-contacting nucleus". For the first time, the discovery of the CSF-contacting nucleus provides compelling morphological evidence for the existence of a distinct neural structure within the brain parenchyma that establishes a connection with the cerebrospinal fluid, thereby suggesting its potential significance in facilitating material and information exchange between the brain parenchyma and cerebrospinal fluid. After conducting a comprehensive series of studies on the morphological structure, material expression, gene analysis and functional aspects of the CSF-contacting nucleus in rodents and non-human primates, it has been revealed that there are fibrous connections between the CSF-contacting nucleus and the cerebral cortex and subcortical nuclei being involved in the regulatory mechanisms of pain, cognition, learning and memory, emotion, addiction, stress and anxiety responses, visceral activity, olfaction, vision processing and perception, auditory processing, perception, motor control and coordination, homeostasis regulation including maintenance of body energy and fluid balance, as well as the control of sleep–wake cycles and synchronization of biological rhythms. Current experiments have confirmed that the CSF-contacting nucleus is related to pain, morphine dependence and withdrawal, learning and memory, as well as stress. This present article offers a comprehensive review of the neurobiological characteristics and recent advancements in pain regulation of the CSF-contacting nucleus. The aim is to provide novel insights into the investigation of pain regulation within bidirectional regulatory pathway between the brain and cerebrospinal fluid, with a specific focus on elucidating the role of the CSF-contacting nucleus as a bridge structure. Additionally, the objective of this research is to propose innovative strategies for pain management and associated disorders in the future. [ABSTRACT FROM AUTHOR]

Published

2024

6. Altered amygdala effective connectivity in migraine without aura: evidence from resting‐state fMRI with Granger causality analysis.

Author

Huang, Xiaobin, Zhang, Di, Wang, Peng, Mao, Cunnan, Miao, Zhengfei, Liu, Chunmei, Xu, Chenjie, Yin, Xindao, and Wu, Xinying

Subjects

FRONTAL lobe, TEMPORAL lobe, PAIN, MIGRAINE, FUNCTIONAL connectivity, MAGNETIC resonance imaging, DISEASE duration, AMYGDALOID body, HEADACHE, CAUSALITY (Physics)

Abstract

Background: Granger causality analysis (GCA) has been used to investigate the pathophysiology of migraine. Amygdala plays a key role in pain modulation of migraine attack. However, the detailed neuromechanism remained to be elucidated. We applied GCA to explore the amygdala-based directional effective connectivity in migraine without aura (MwoA) and to determine the relation with clinical characteristics. Methods: Forty-five MwoA patients and forty age-, sex-, and years of education-matched healthy controls(HCs) underwent resting-state functional magnetic resonance imaging (fMRI). Bilateral amygdala were used as seed regions in GCA to investigate directional effective connectivity and relation with migraine duration or attack frequency. Results: MwoA patients showed significantly decreased effective connectivity from right amygdala to right superior temporal gyrus, left superior temporal gyrus and right precentral gyrus compared with HCs. Furthermore, MwoA patients demonstrated significantly decreased effective connectivity from the left amygdala to the ipsilateral superior temporal gyrus. Also, MwoA patients showed enhanced effective connectivity from left inferior frontal gyrus to left amygdala. Effective connectivity outflow from right amygdala to right precentral gyrus was negatively correlated to disease duration. Conclusions: Altered directional effective connectivity of amygdala demonstrated that neurolimbic pain networks contribute to multisensory integration abnormalities and deficits in pain modulation of MwoA patients. [ABSTRACT FROM AUTHOR]

Published

2021

7. Differential alteration of fMRI signal variability in the ascending trigeminal somatosensory and pain modulatory pathways in migraine.

Author

Lim, Manyoel, Jassar, Hassan, Kim, Dajung J., Nascimento, Thiago D., and DaSilva, Alexandre F.

Subjects

BIOLOGICAL transport, CELLULAR signal transduction, MAGNETIC resonance imaging, MIGRAINE, SIGNAL processing, TRIGEMINAL neuralgia, SIGNAL peptides, PAIN threshold, SOMATOSENSORY disorders

Abstract

Background: The moment-to-moment variability of resting-state brain activity has been suggested to play an active role in chronic pain. Here, we investigated the regional blood-oxygen-level-dependent signal variability (BOLDSV) and inter-regional dynamic functional connectivity (dFC) in the interictal phase of migraine and its relationship with the attack severity. Methods: We acquired resting-state functional magnetic resonance imaging from 20 migraine patients and 26 healthy controls (HC). We calculated the standard deviation (SD) of the BOLD time-series at each voxel as a measure of the BOLD signal variability (BOLDSV) and performed a whole-brain voxel-wise group comparison. The brain regions showing significant group differences in BOLDSV were used to define the regions of interest (ROIs). The SD and mean of the dynamic conditional correlation between those ROIs were calculated to measure the variability and strength of the dFC. Furthermore, patients' experimental pain thresholds and headache pain area/intensity levels during the migraine ictal-phase were assessed for clinical correlations. Results: We found that migraineurs, compared to HCs, displayed greater BOLDSV in the ascending trigeminal spinal-thalamo-cortical pathways, including the spinal trigeminal nucleus, pulvinar/ventral posteromedial (VPM) nuclei of the thalamus, primary somatosensory cortex (S1), and posterior insula. Conversely, migraine patients exhibited lower BOLDSV in the top-down modulatory pathways, including the dorsolateral prefrontal (dlPFC) and inferior parietal (IPC) cortices compared to HCs. Importantly, abnormal interictal BOLDSV in the ascending trigeminal spinal-thalamo-cortical and frontoparietal pathways were associated with the patient's headache severity and thermal pain sensitivity during the migraine attack. Migraineurs also had significantly lower variability and greater strength of dFC within the thalamo-cortical pathway (VPM-S1) than HCs. In contrast, migraine patients showed greater variability and lower strength of dFC within the frontoparietal pathway (dlPFC-IPC). Conclusions: Migraine is associated with alterations in temporal signal variability in the ascending trigeminal somatosensory and top-down modulatory pathways, which may explain migraine-related pain and allodynia. Contrasting patterns of time-varying connectivity within the thalamo-cortical and frontoparietal pathways could be linked to abnormal network integrity and instability for pain transmission and modulation. [ABSTRACT FROM AUTHOR]

Published

2021

8. Medial Orbitofrontal De-Activation During Tonic Cold Pain Stimulation: A fMRI Study Examining the Opponent-Process Theory.

Author

Bitar, Nathalie, Dugré, Jules R, Marchand, Serge, and Potvin, Stéphane

Subjects

FUNCTIONAL magnetic resonance imaging, FOOT movements, SOMATOSENSORY cortex, PAIN, ANALGESIA, CHRONIC pain

Abstract

Background: While the concomitant administration of painful and rewarding stimuli tends to reduce the perception of one another, recent evidence shows that pleasant pain relief is experience after the interruption of noxious stimuli. On neurobiological grounds, these opponent processes should translate into decreased activity in brain reward regions during nociceptive stimulation and increased activity in these regions after its interruption. While growing evidence supports the latter assumption, evidence is lacking in humans in support of the former. Methods: Twenty-six healthy individuals underwent a functional magnetic resonance imaging (fMRI) session during which they were administered a cold pain stimulation, using a novel paradigm which consisted in a cold gel applied on the right foot of participants. Results: After the interruption of noxious stimulation, participants experienced significant levels of pleasant pain relief. During cold pain stimulation, brain activations were observed in key regions of the pain matrix (eg, thalamus, primary somatosensory cortex and insula). Conversely, the medial orbitofrontal cortex was found to be de-activated. Medial orbitofrontal de-activations were negatively correlated with subclinical pain symptoms. Discussion: Our results show that a key brain reward region (eg, medial orbitofrontal cortex) is de-activated during cold pain stimulation, a result which is consistent with one of the central assumptions of the opponent-process theory. On methodological grounds, our results show that the cold gel applied to the foot can be used to trigger activations in the pain matrix, and that the interruption of the cold pressor test elicits significant levels of pleasant pain relief. fMRI studies on pain–reward interactions in chronic pain patients are warranted. [ABSTRACT FROM AUTHOR]

Published

2020

9. A Rat Model of Temporomandibular Joint Pain with Histopathologic Modifications.

Author

Nicoll, Steven B., Hee, Christopher K., Davis, Martin B., and Winkelstein, Beth A.

Subjects

TEMPOROMANDIBULAR disorders, PAIN, COLLAGEN, CARTILAGE, GLYCOSAMINOGLYCANS, OSTEOARTHRITIS, LABORATORY rats, ANALYSIS of variance

Abstract

Aims: To develop a rat model of temporomandibular joint (TMJ) pain and to characterize in it the development and temporal response of behavioral hypersensitivity as well as to evaluate if and to what extent a loading protocol is associated with histological changes in the TMJ consistent with osteoarthritic pathology. Methods: A novel rat model of TMJ pain was developed using a noninvasive, mechanical loading protocol. Rats were exposed to steady mouth-opening for 7 days (2 N force, 1 hour/day), and mechanical hyperalgesia (increased pain response) was measured during the loading period and for 14 days thereafter. Histological modifications in the joint cartilage were also evaluated. Outcomes for the mouth-opening exposure were compared to age-matched controls. Thresholds for evoking responses were compared using a ranked ANOVA with repeated measures. Results: Increased mechanical hypersensitivity in the temporomandibular region developed during daily loading and persisted even after the termination of the loading protocol. Histologic characterization revealed thinning of the cartilaginous structures of the joint and irregular zonal cellular arrangements in the condylar cartilage of rats subjected to the daily loading protocol. Conclusion: The injury model presented here is the first to demonstrate mechanically-induced behavioral hypersensitivity accompanied by osteoarthritic pathology in the TMJ. [ABSTRACT FROM AUTHOR]

Published

2010

10. An Operant Conditioning Model to Assess Changes in Feeding Behavior Associated with Temporomandibular Joint Inflammation in the Rat.

Author

Thut, Paul D., Hermanstyne, Tracey O., Flake, Natasha M., and Gold, Michael S.

Subjects

OPERANT conditioning, ANIMAL feeding behavior, INGESTION disorders, TEMPOROMANDIBULAR disorders, INFLAMMATION, LABORATORY rats, NOCICEPTORS, PAIN

Abstract

Aims: To develop and validate a model in which to assess a loss of function associated with temporomandibular joint (TMJ) inflammation in awake, freely moving rats. Methods: The dependent variable in the model was the time between food rewards (pellets), or interfeeding interval (IFI). IFI was quantified after rats were trained to "bar-press" for food. To validate use of the IFI as a surrogate for temporomandibular disorder (TMD) pain, we determined the impact of several manipulations, including changes in pellet size, the presence and severity of inflammation of the TMJ, masseter muscle, or skin (induced with complete Freund's adjuvant [CFA]), and the influence of preadministration of the nonsteroidal anti-inflammatory drug indomethacin (4 mg/kg). Furthermore, in order to determine whether a change in IFI reflected an increase in the time rats spent eating, rats were videotaped, and the amount of time spent eating, grooming, and exploring was analyzed. Results: Inflammation of the TMJ or masseter muscle resulted in significant dose- and pellet size-dependent increases in the IFI. Inflammation of the skin overlying the TMJ had no effect on IFI. Pre-administration of indomethacin reversed the inflammation-induced shift in the IFI. An inflammation- induced increase in IFI was associated with an increase in feeding time. Conclusions: Our model constitutes a relatively fast and sensitive method with which to assess changes in feeding behavior associated with TMJ inflammation. Only 2 days of training are required to obtain a stable baseline IFI. It is possible to detect changes in IFI as small as 40% with 12 rats per group. [ABSTRACT FROM AUTHOR]

Published

2007

11. Methylene blue relieves the development of osteoarthritis by upregulating lncRNA MEG3.

Author

Li, Xinyi, Tang, Chaoliang, Wang, Jin, Guo, Peipei, Wang, Chengyao, Wang, Yanlin, Zhang, Zongze, and Wu, Huisheng

Subjects

OSTEOARTHRITIS treatment, NON-coding RNA, METHYLENE blue, HISTOLOGY, TUMOR necrosis factors

Abstract

Methylene blue (MB) is a long‑term inhibitor of peripheral nerve axons, thereby alleviating or permanently eliminating pain. However, it remains unknown whether MB is safe and effective method of treating osteoarthritis (OA). MB was injected into the knee joints of rabbits and they were monitored for any histological structural changes. The results revealed no evident changes in the histological structure of the normal knee joint following injection of 1 mg/kg MB at 1, 4, 8 and 24 weeks post‑injection. Compared with the vehicle control, MB treatment significantly enhanced the weight distribution and significantly decreased the swelling ratio of the rabbits. Additionally, levels of long non‑coding RNA (lncRNA) maternally expressed 3 (MEG3) mRNA were significantly increased following treatment with MB, but the protein expression of P2X purinoceptor 3 (P2X3) was significantly suppressed compared with the vehicle control. The levels of interleukin (IL) 6, tumor necrosis factor (TNF)α, IL‑1β and IL‑8 were significantly suppressed following MB treatment, indicating that MB protects against OA progression. It was also revealed that MEG3 overexpression significantly suppresses levels of P2X3 protein. ELISA indicated that the MEG3‑induced reduction of IL‑6, TNFα, IL‑1β and IL‑8 expression was significantly reversed following P2X3 overexpression. Therefore, the results of the present study demonstrated that MB is an effective method of treating OA‑associated pain by upregulating lncRNA MEG3 levels. Additionally, lncRNA MEG3 relieves the OA‑associated pain and inflammation in a rabbit model of OA by inhibiting P2X3 expression. [ABSTRACT FROM AUTHOR]

Published

2018

12. The role of the transient receptor potential ankyrin type-1 (TRPA1) channel in migraine pain: evaluation in an animal model.

Author

Demartini, Chiara, Tassorelli, Cristina, Zanaboni, Anna, Tonsi, Germana, Francesconi, Oscar, Nativi, Cristina, and Greco, Rosaria

Subjects

BIOLOGICAL transport, TRIGEMINAL nerve diseases, HYPERALGESIA, ANIMAL experimentation, BIOLOGICAL models, CALCITONIN, GENES, MIGRAINE, NEUROPEPTIDES, NITROGLYCERIN, PAIN, RATS, RESEARCH funding, DIAGNOSIS, PHYSIOLOGY

Abstract

Background: Clinical and experimental studies have pointed to the possible involvement of the transient receptor potential ankyrin type-1 (TRPA1) channels in migraine pain. In this study, we aimed to further investigate the role of these channels in an animal model of migraine using a novel TRPA1 antagonist, ADM_12, as a probe. Methods: The effects of ADM_12 on nitroglycerin-induced hyperalgesia at the trigeminal level were investigated in male rats using the quantification of nocifensive behavior in the orofacial formalin test. The expression levels of the genes coding for c-Fos, TRPA1, calcitonin gene-related peptide (CGRP) and substance P (SP) in peripheral and central areas relevant for migraine pain were analyzed. CGRP and SP protein immunoreactivity was also evaluated in trigeminal nucleus caudalis (TNC). Results: In rats bearing nitroglycerin-induced hyperalgesia, ADM_12 showed an anti-hyperalgesic effect in the second phase of the orofacial formalin test. This effect was associated to a significant inhibition of nitroglycerin-induced increase in c-Fos, TRPA1 and neuropeptides mRNA levels in medulla-pons area, in the cervical spinal cord and in the trigeminal ganglion. No differences between groups were seen as regards CGRP and SP protein expression in the TNC. Conclusions: These findings support a critical involvement of TRPA1 channels in the pathophysiology of migraine, and show their active role in counteracting hyperalgesia at the trigeminal level. [ABSTRACT FROM AUTHOR]

Published

2017

13. Bilateral increases in ERK activation at the spinomedullary junction region by acute masseter muscle injury during temporomandibular joint inflammation in the rats.

Author

Kurose, Masayuki, Imbe, Hiroki, Nakatani, Yosuke, Hasegawa, Mana, Fujii, Noritaka, Takagi, Ritsuo, Yamamura, Kensuke, Senba, Emiko, and Okamoto, Keiichiro

Subjects

HYPERALGESIA, OROFACIAL pain, TEMPOROMANDIBULAR joint, FORMALDEHYDE, ARTHRITIS

Abstract

We determined the role of persistent monoarthritis of temporomandibular joint region (TMJ) on bilateral masseter muscle (MM) nociception in male rats using orofacial nocifensive behaviors, phosphorylated extracellular signal-regulated kinase and Fos induction at the trigeminal subnucleus caudalis/upper cervical spinal cord (Vc/C) region in response to formalin injection to the MM region. TMJ inflammation was induced by local injection of CFA into the left TMJ region. Orofacial nocifensive behaviors evoked by formalin injection ipsilateral or contralateral to the TMJ inflammation appeared to be increased at 1-14 days or at 1, 10 and 14 days after induction of TMJ inflammation, respectively, while increases in behavioral duration were seen mainly in the late phase rather than the early phase. The number of pERK positive cells was investigated in superficial laminae at the Vc/C region at 3, 10, 20, 60 and 80 min after MM stimulation with formalin at 14 days after TMJ inflammation. TMJ-inflamed rats displayed greater responses of pERK expression by the ipsilateral MM stimulation at 3-60 min, while contralateral MM stimulation increased pERK expression at 3, 10 and 20 min compared to non-CFA rats. Fos expression by MM stimulation was increased at 14 days after induction of TMJ inflammation regardless of the affected side. These findings showed that persistent TMJ inflammation for 10 and 14 days is sufficient to enhance MM nociception indicated by behaviors and neural responses in superficial laminae at the Vc/C region. [ABSTRACT FROM AUTHOR]

Published

2017

14. Heightened eating drive and visual food stimuli attenuate central nociceptive processing.

Author

Wright, Hazel, Xiaoyun Li, Fallon, Nicholas B., Giesbrecht, Timo, Thomas, Anna, Harrold, Joanne A., Halford, Jason C. G., and Stancak, Andrej

Subjects

VISUAL perception, NOCICEPTIVE pain, ELECTROENCEPHALOGRAPHY, HUNGER, SPATIO-temporal variation

Abstract

Hunger and pain are basic drives that compete for a behavioral response when experienced together. To investigate the cortical processes underlying hunger-pain interactions, we manipulated participants' hunger and presented photographs of appetizing food or inedible objects in combination with painful laser stimuli. Fourteen healthy participants completed two EEG sessions: one after an overnight fast, the other following a large breakfast. Spatio-temporal patterns of cortical activation underlying the hunger-pain competition were explored with 128-channel EEG recordings and source dipole analysis of laser-evoked potentials (LEPs). We found that initial pain ratings were temporarily reduced when participants were hungry compared with fed. Source activity in parahippocampal gyrus was weaker when participants were hungry, and activations of operculo-insular cortex, anterior cingulate cortex, parahippocampal gyrus, and cerebellum were smaller in the context of appetitive food photographs than in that of inedible object photographs. Cortical processing of noxious stimuli in pain-related brain structures is reduced and pain temporarily attenuated when people are hungry or passively viewing food photographs, suggesting a possible interaction between the opposing motivational forces of the eating drive and pain. [ABSTRACT FROM AUTHOR]

Published

2015

15. Activation of rostral ventromedial medulla neurons by noxious stimulation of cutaneous and deep craniofacial tissues.

Author

Khasabov, Sergey G., Malecha, Patrick, Noack, Joseph, Tabakov, Janneta, Okamoto, Keiichiro, Bereiter, David A., and Simone, Donald A.

Subjects

SPINAL cord, NEURONS, NEURAL stimulation, NOCICEPTIVE pain, TEMPOROMANDIBULAR joint, DOSE-effect relationship in pharmacology

Abstract

The rostral ventromedial medulla (RVM) projects to the medullary and spinal dorsal horns and is a major source of descending modulation of nociceptive transmission. Traditionally, neurons in the RVM are classified functionally as ON, OFF, and NEUTRAL cells on the basis of responses to noxious cutaneous stimulation of the tail or hind paw. ON cells facilitate nociceptive transmission, OFF cells are inhibitory, whereas NEUTRAL cells are unresponsive to noxious stimuli and their role in pain modulation is unclear. Classification of RVM neurons with respect to stimulation of craniofacial tissues is not well defined. In isoflurane-anesthetized male rats, RVM neurons first were classified as ON (25.5%), OFF (25.5%), or NEUTRAL (49%) cells by noxious pinch applied to the hind paw. Pinching the skin overlying the temporomandibular joint (TMJ) altered the proportions of ON (39.2%), OFF (42.2%), and NEUTRAL (19.6%) cells. To assess the response of RVM cells to specialized craniofacial inputs, adenosine triphosphate (ATP; 0.01-1 mM) was injected into the TMJ and capsaicin (0.1%) was applied to the ocular surface. TMJ and ocular surface stimulation also resulted in a reduced proportion of NEUTRAL cells compared with hind paw pinch. Dose-effect analyses revealed that ON and OFF cells encoded the intra-TMJ concentration of ATP. These results suggest that somatotopy plays a significant role in the functional classification of RVM cells and support the notion that NEUTRAL cells likely are subgroups of ON and OFF cells. It is suggested that a portion of RVM neurons serve different functions in modulating craniofacial and spinal pain conditions. [ABSTRACT FROM AUTHOR]

Published

2015

16. Peripheral Metabotropic Glutamate Receptor Subtype 5 Contributes to Inflammation-Induced Hypersensitivity of the Rat Temporomandibular Joint.

Author

Li, Bo, Lu, Li, Tan, Xuexin, Zhong, Ming, Guo, Yan, and Yi, Xin

Abstract

Temporomandibular disorders (TMD) comprise an assortment of clinical conditions characterized by pain in the temporomandibular joint (TMJ). TMD patients have a variety of symptoms, including jaw movement disorder and TMJ pain. Metabotropic glutamate receptor subtype 5 (mGluR5) was reported to be involved in pain processing in several animal models of neuropathic and inflammatory pain. In this study, the head withdrawal threshold and mGluR5 expression were investigated in rats with complete Freund's adjuvant (CFA)-induced TMJ inflammatory pain. CFA injection into the TMJ significantly decreased the mechanical head withdrawal thresholds relative to vehicle injection, and the effects were blocked by pre-injection of 2-methyl-6-(phenylethynyl)-pyridine (MPEP). mGluR5 expression in the trigeminal ganglion was predominantly increased in the CFA-injected group compared with the normal control group. Pretreatment with MPEP, a selective mGluR5 antagonist, reduced mGluR5 expression in the trigeminal ganglion compared with the CFA group, as measured by immunohistochemistry, western blotting, and RT-PCR. Significant differences in the proportion or intensity of mGluR5 expression were found in animals with inflammation versus control animals at the examined time point. These findings indicate a role for peripheral mGluR5 in CFA-induced nociceptive behavior and TMJ inflammation. Peripheral application of mGluR5 antagonists could provide therapeutic benefits for inflammatory TMJ pain. [ABSTRACT FROM AUTHOR]

Published

2013

17. Mechanisms Underlying Ectopic Persistent Tooth-Pulp Pain following Pulpal Inflammation.

Author

Matsuura, Shingo, Shimizu, Kohei, Shinoda, Masamichi, Ohara, Kinuyo, Ogiso, Bunnai, Honda, Kuniya, Katagiri, Ayano, Sessle, Barry J., Urata, Kentaro, and Iwata, Koichi

Subjects

PAIN, TEETH, MASSETER muscle, PROTEIN kinases, IMMUNOHISTOCHEMISTRY, SATELLITE cells, CAPSAICIN

Abstract

In order to clarify the peripheral mechanisms of ectopic persistent pain in a tooth pulp following pulpal inflammation of an adjacent tooth, masseter muscle activity, phosphorylated extracellular signal-regulated protein kinase (pERK) and TRPV1 immunohistochemistries and satellite cell activation using glial fibrillary acidic protein (GFAP) immunohistochemistry in the trigeminal ganglion (TG) were studied in the rats with molar tooth-pulp inflammation. And, Fluorogold (FG) and DiI were also used in a neuronal tracing study to analyze if some TG neurons innervate more than one tooth pulp. Complete Freund's adjuvant (CFA) or saline was applied into the upper first molar tooth pulp (M1) in pentobarbital-anesthetized rats, and capsaicin was applied into the upper second molar tooth pulp (M2) on day 3 after the CFA or saline application. Mean EMG activity elicited in the masseter muscle by capsaicin application to M2 was significantly larger in M1 CFA-applied rats compared with M1 vehicle-applied rats. The mean number of pERK-immunoreactive (IR) TG cells was significantly larger in M1 CFA-applied rats compared with M1 vehicle-applied rats. Application of the satellite cell inhibitor fluorocitrate (FC) into TG caused a significant depression of capsaicin-induced masseter muscle activity and a significant reduction of satellite cell activation. The number of TRPV1-IR TG cells innervating M2 was significantly larger in M1 CFA-applied rats compared with M1 vehicle-applied rats, and that was decreased following FC injection into TG. Furthermore, 6% of TG neurons innervating M1 and/or M2 innervated both M1 and M2. These findings suggest that satellite cell activation following tooth pulp inflammation and innervation of multiple tooth pulps by single TG neurons may be involved in the enhancement of the activity of TG neurons innervating adjacent non-inflamed teeth that also show enhancement of TRPV1 expression in TG neurons, resulting in the ectopic persistent tooth-pulp pain following pulpal inflammation of adjacent teeth. [ABSTRACT FROM AUTHOR]

Published

2013

18. Spontaneous Behavioral Responses in the Orofacial Region: A Model of Trigeminal Pain in Mouse.

Author

Romero‐Reyes, Marcela, Akerman, Simon, Nguyen, Elaine, Vijjeswarapu, Alice, Hom, Betty, Dong, Hong‐Wei, and Charles, Andrew C.

Subjects

ANALYSIS of variance, ANIMAL experimentation, HUMAN anatomical models, IMMUNOHISTOCHEMISTRY, MICE, MORPHINE, NEUROBIOLOGY, PHYSIOLOGIC salines, RESEARCH funding, T-test (Statistics), TRIGEMINAL neuralgia, VIDEO recording, BEHAVIOR disorders, REPEATED measures design, DATA analysis software, DESCRIPTIVE statistics, NOCICEPTIVE pain

Abstract

Objectives.- To develop a translational mouse model for the study and measurement of non-evoked pain in the orofacial region by establishing markers of nociceptive-specific grooming behaviors in the mouse. Background.- Some of the most prevalent and debilitating conditions involve pain in the trigeminal distribution. Although there are current therapies for these pain conditions, for many patients, they are far from optimal. Understanding the pathophysiology of pain disorders arising from structures innervated by the trigeminal nerve is still limited, and most animal behavioral models focus on the measurement of evoked pain. In patients, spontaneous (non-evoked) pain responses provide a more accurate representation of the pain experience than do responses that are evoked by an artificial stimulus. Therefore, the development of animal models that measure spontaneous nociceptive behaviors may provide a significant translational tool for a better understanding of pain neurobiology. Methods.- C57BL/6 mice received either an injection of 0.9% saline solution or complete Freund's adjuvant into the right masseter muscle. Animals were video-recorded and then analyzed by an observer blind to the experiment group. The duration of different facial grooming patterns performed in the area of injection were measured. After 2 hours, mice were euthanized and perfused, and the brainstem was removed. Fos protein expression in the trigeminal nucleus caudalis was quantified using immunohistochemistry to investigate nociceptive-specific neuronal activation. A separate group of animals was treated with morphine sulfate to determine the nociceptive-specific nature of their behaviors. Results.- We characterized and quantified 3 distinct patterns of acute grooming behaviors: forepaw rubbing, lower lip skin/cheek rubbing against enclosure floor, and hindpaw scratching. These behaviors occurred with a reproducible frequency and time course, and were inhibited by the analgesic morphine. Complete Freund's adjuvant-injected animals also showed Fos labeling consistent with neuronal activation in nociceptive-specific pathways of the trigeminal nucleus after 2 hours. Conclusions.- These behaviors and their correlated cellular responses represent a model of trigeminal pain that can be used to better understand basic mechanisms of orofacial pain and identify new therapeutic approaches to this common and challenging condition. [ABSTRACT FROM AUTHOR]

Published

2013

19. Metabotropic glutamate receptor 5 contributes to inflammatory tongue pain via extracellular signal-regulated kinase signaling in the trigeminal spinal subnucleus caudalis and upper cervical spinal cord.

Author

Ming-Gang Liu, Shingo Matsuura, Masamichi Shinoda, Kuniya Honda, Ikuko Suzuki, Kazuo Shibuta, Takaaki Tamagawa, Ayano Katagiri, Masaaki Kiyomoto, Kinuyo Ohara, Akihiko Furukawa, Kentaro Urata, and Koichi Iwata

Subjects

TONGUE, GLUTAMATE receptors, PAIN, SPINAL cord, PHENOTYPES

Abstract

Background: In the orofacial region, limited information is available concerning pathological tongue pain, such as inflammatory pain or neuropathic pain occurring in the tongue. Here, we tried for the first time to establish a novel animal model of inflammatory tongue pain in rats and to investigate the roles of metabotropic glutamate receptor 5 (mGluR5)-extracellular signal-regulated kinase (ERK) signaling in this process. Methods: Complete Freund's adjuvant (CFA) was submucosally injected into the tongue to induce the inflammatory pain phenotype that was confirmed by behavioral testing. Expression of phosphorylated ERK (pERK) and mGluR5 in the trigeminal subnucleus caudalis (Vc) and upper cervical spinal cord (C1-C2) were detected with immunohistochemical staining and Western blotting. pERK inhibitor, a selective mGluR5 antagonist or agonist was continuously administered for 7 days via an intrathecal (i.t.) route. Local inflammatory responses were verified by tongue histology. Results: Submucosal injection of CFA into the tongue produced a long-lasting mechanical allodynia and heat hyperalgesia at the inflamed site, concomitant with an increase in the pERK immunoreactivity in the Vc and C1-C2. The distribution of pERK-IR cells was laminar specific, ipsilaterally dominant, somatotopically relevant, and rostrocaudally restricted. Western blot analysis also showed an enhanced activation of ERK in the Vc and C1-C2 following CFA injection. Continuous i.t. administration of the pERK inhibitor and a selective mGluR5 antagonist significantly depressed the mechanical allodynia and heat hyperalgesia in the CFA-injected tongue. In addition, the number of pERK-IR cells in ipsilateral Vc and C1-C2 was also decreased by both drugs. Moreover, continuous i.t. administration of a selective mGluR5 agonist induced mechanical allodynia in naive rats. Conclusions: The present study constructed a new animal model of inflammatory tongue pain in rodents, and demonstrated pivotal roles of the mGluR5-pERK signaling in the development of mechanical and heat hypersensitivity that evolved in the inflamed tongue. This tongue-inflamed model might be useful for future studies to further elucidate molecular and cellular mechanisms of pathological tongue pain such as burning mouth syndrome. [ABSTRACT FROM AUTHOR]

Published

2012

20. Reactive nitroxidative species and nociceptive processing: determining the roles for nitric oxide, superoxide, and peroxynitrite in pain.

Author

Little, Joshua, Doyle, Timothy, and Salvemini, Daniela

Subjects

REACTIVE oxygen species, NITRIC oxide, SUPEROXIDES, PEROXYNITRITE, IMMUNE system, CHRONIC pain, PHARMACOLOGY

Abstract

Pain is a multidimensional perception and is modified at distinct regions of the neuroaxis. During enhanced pain, neuroplastic changes occur in the spinal and supraspinal nociceptive modulating centers and may result in a hypersensitive state termed central sensitization, which is thought to contribute to chronic pain states. Central sensitization culminates in hyperexcitability of dorsal horn nociceptive neurons resulting in increased nociceptive transmission and pain perception. This state is associated with enhanced nociceptive signaling, spinal glutamate-mediated N-methyl- d-aspartate receptor activation, neuroimmune activation, nitroxidative stress, and supraspinal descending facilitation. The nitroxidative species considered for their role in nociception and central sensitization include nitric oxide (NO), superoxide ( $${\text {O}_2}^{{\cdot }^{-}}$$), and peroxynitrite (ONOO). Nitroxidative species are implicated during persistent but not normal nociceptive processing. This review examines the role of nitroxidative species in pain through a discussion of their contributions to central sensitization and the underlying mechanisms. Future directions for nitroxidative pain research are also addressed. As more selective pharmacologic agents are developed to target nitroxidative species, the exact role of nitroxidative species in pain states will be better characterized and should offer promising alternatives to available pain management options. [ABSTRACT FROM AUTHOR]

Published

2012

21. A Trigeminoreticular Pathway: Implications in Pain.

Author

Panneton, W. Michael, Gan, Qi, and Livergood, Robert S.

Subjects

RETICULAR formation, BRAIN stimulation, LOCUS (Genetics), TEMPORALIS muscle, IMMUNOHISTOCHEMISTRY, PAIN, LABORATORY rats

Abstract

Neurons in the caudalmost ventrolateral medulla (cmVLM) respond to noxious stimulation. We previously have shown most efferent projections from this locus project to areas implicated either in the processing or modulation of pain. Here we show the cmVLM of the rat receives projections from superficial laminae of the medullary dorsal horn (MDH) and has neurons activated with capsaicin injections into the temporalis muscle. Injections of either biotinylated dextran amine (BDA) into the MDH or fluorogold (FG)/fluorescent microbeads into the cmVLM showed projections from lamina I and II of the MDH to the cmVLM. Morphometric analysis showed the retrogradely-labeled neurons were small (area 88.7 &mgr;m2±3.4) and mostly fusiform in shape. Injections (20-50 &mgr;) of 0.5% capsaicin into the temporalis muscle and subsequent immunohistochemistry for c-Fos showed nuclei labeled in the dorsomedial trigeminocervical complex (TCC), the cmVLM, the lateral medulla, and the internal lateral subnucleus of the parabrachial complex (PBil). Additional labeling with c-Fos was seen in the subnucleus interpolaris of the spinal trigeminal nucleus, the rostral ventrolateral medulla, the superior salivatory nucleus, the rostral ventromedial medulla, and the A1, A5, A7 and subcoeruleus catecholamine areas. Injections of FG into the PBil produced robust label in the lateral medulla and cmVLM while injections of BDA into the lateral medulla showed projections to the PBil. Immunohistochemical experiments to antibodies against substance P, the substance P receptor (NK1), calcitonin gene regulating peptide, leucine enkephalin, VRL1 (TPRV2) receptors and neuropeptide Y showed that these peptides/receptors densely stained the cmVLM. We suggest the MDH- cmVLM projection is important for pain from head and neck areas. We offer a potential new pathway for regulating deep pain via the neurons of the TCC, the cmVLM, the lateral medulla, and the PBil and propose these areas compose a trigeminoreticular pathway, possibly the trigeminal homologue of the spinoreticulothalamic pathway. [ABSTRACT FROM AUTHOR]

Published

2011

22. Injury induced activation of extracellular signal-regulatedkinase (ERK) in the rat rostralv entromedial medulla (RVM) is age dependant and requires the laminaI projection pathway.

Author

Géranton, Sandrine M., Tochiki, Keri K., Chiu, Winnie W. Y., Stuart, Sarah A., and Hunt, Stephen P.

Subjects

NEURONS, NERVOUS system, HYPERALGESIA, PAIN, SEROTONIN

Abstract

Descending controls originating in part from the rostral ventromedial medulla (RVM) regulate the excitability of dorsal horn neurons and maintain peripheral pain states. Activation of extracellular signal regulated kinase (ERK) in RVM neurons has been shown following peripheral inflammation and is involved in generating the accompanying inflammatory hyperalgesia. Here, we show that spared nerve injury (SNI), a model of neuropathic pain, results in an increase in ERK activity in RVM neurons of adult rats 3 and 8 days following surgery. We carried out two experimental procedures to demonstrate that this increase in ERK activation was related to the increased mechanical sensitivity associated with SNI. First, we showed that lesions of the lamina I/III ascending pathway from the dorsal horn attenuated both mechanical hyperalgesia and ERK activation in the RVM. Second, we performed SNI in P10 rats. At this age, SNI did not result in mechanical hypersensitivity, as previously shown, and did not activate ERK in the RVM. Finally, the percentage of pERK expressing neurones that were also serotonergic was always around 60%, independent of pain state and age, indicating an important role for serotonin in descending controls of pain states. [ABSTRACT FROM AUTHOR]

Published

2010

23. Expression of AMPA receptor subunits at synapses in laminae I-III of the rodent spinal dorsal horn.

Author

Polgár, Erika, Watanabe, Masahiko, Hartmann, Bettina, Grant, Seth G. N., and Todd, Andrew J.

Subjects

GLUTAMIC acid, CHRONIC pain, PAIN, ANTIGENS, IMMUNOCYTOCHEMISTRY

Abstract

Background: Glutamate receptors of the AMPA type (AMPArs) mediate fast excitatory transmission in the dorsal horn and are thought to underlie perception of both acute and chronic pain. They are tetrameric structures made up from 4 subunits (GluR1-4), and subunit composition determines properties of the receptor. Antigen retrieval with pepsin can be used to reveal the receptors with immunocytochemistry, and in this study we have investigated the subunit composition at synapses within laminae I-III of the dorsal horn. In addition, we have compared staining of AMPArs with that for PSD-95, a major constituent of glutamatergic synapses. We also examined tissue from knock-out mice to confirm the validity of the immunostaining. Results: As we have shown previously, virtually all AMPAr-immunoreactive puncta were immunostained for GluR2. In laminae I-II, ~65% were GluR1-positive and ~60% were GluR3-positive, while in lamina III the corresponding values were 34% (GluR1) and 80% (GluR3). Puncta stained with antibody against the C-terminus of GluR4 (which only detects the long form of this subunit) made up 23% of the AMPAr-containing puncta in lamina I, ~8% of those in lamina II and 46% of those in lamina III. Some overlap between GluR1 and GluR3 was seen in each region, but in lamina I GluR1 and GluR4 were present in largely non-overlapping populations. The GluR4 puncta often appeared to outline dendrites of individual neurons in the superficial laminae. Virtually all of the AMPAr-positive puncta were immunostained for PSD-95, and 98% of PSD-95 puncta contained AMPAr-immunoreactivity. Staining for GluR1, GluR2 and GluR3 was absent in sections from mice in which these subunits had been knocked out, while the punctate staining for PSD-95 was absent in mice with a mutation that prevents accumulation of PSD-95 at synapses. Conclusion: Our results suggest that virtually all glutamatergic synapses in laminae I-III of adult rat spinal cord contain AMPArs. They show that synapses in laminae I-II contain GluR2 together with GluR1 and/or GluR3, while the long form of GluR4 is restricted to specific neuronal populations, which may include some lamina I projection cells. They also provide further evidence that immunostaining for AMPAr subunits following antigen retrieval is a reliable method for detecting these receptors at glutamatergic synapses. [ABSTRACT FROM AUTHOR]

Published

2008

24. Downregulation of selective microRNAs in trigeminal ganglion neurons following inflammatory muscle pain.

Author

Guang Bai, Ambalavanar, Rajini, Dong Wei, and Dessem, Dean

Subjects

MESSENGER RNA, PAIN, GENES, NEURONS, NEUROSCIENCES

Abstract

Active regulation of gene expression in the nervous system plays an important role in the development and/or maintenance of inflammatory pain. MicroRNA (miRNA) negatively regulates gene expression via posttranscriptional or transcriptional inhibition of specific genes. To explore the possible involvement of miRNA in gene regulation during inflammatory pain, we injected complete Freund's adjuvant (CFA) unilaterally into the rat masseter muscle and quantified changes in neuron-specific mature miRNAs in the trigeminal ganglion (TG). Real-time reverse-transcription polymerase chain reaction revealed significant, but differential, downregulation of mature miR-10a, -29a, -98, -99a, -124a, -134, and -183 in the ipsilateral mandibular division (V3) of the TG within 4 hr after CFA. In contrast, levels of tested miRNAs did not change significantly in the contralateral V3 or the ipsilateral ophthalmic and maxillary divisions of the TG from inflamed rats, nor in the ipsilateral V3 of saline-injected animals. The downregulated miRNAs recovered differentially to a level equal to or higher than that in naive animals. Full recovery time varied with miRNA species but was at least 4 days. Expression and downregulation of some miRNAs were further confirmed by in situ hybridization of TG neurons that innervate the inflamed muscle. Although neurons of all sizes expressed these miRNAs, their signals varied between neurons. Our results indicate that miRNA species specific to neurons are quickly regulated following inflammatory muscle pain. [ABSTRACT FROM AUTHOR]

Published

2007

25. Mechanisms and Management of Pain for the Physical Therapist

Author

Kathleen A. Sluka and Kathleen A. Sluka

Subjects

Analgesia, Physical therapy, Pain--Physical therapy, Pain

Abstract

Comprehensive in scope and invaluable for both practitioners and students, Mechanisms and Management of Pain for the Physical Therapist, 2nd Edition, thoroughly covers the wide range of issues requiring the interdisciplinary management of pain. Joined by more than 20 international contributors, Dr. Kathleen Sluka provides a practical, evidence-based framework for understanding the basics of pain mechanisms and management. This highly regarded, updated text covers the basics of pain neurobiology and reviews evidence on the mechanisms of action of physical therapy treatments, as well as their clinical effectiveness in specific pain syndromes.

Published

2016

26. Wall & Melzack's Textbook of Pain E-Book

Author

Stephen B. McMahon, Martin Koltzenburg, Irene Tracey, Dennis Turk, Stephen B. McMahon, Martin Koltzenburg, Irene Tracey, and Dennis Turk

Subjects

Pain--Treatment--Textbooks, Pain--Textbooks, Pain

Abstract

Apply the latest scientific and clinical advances with Wall & Melzack's Textbook of Pain, 6th Edition. Drs. Stephen McMahon, Martin Koltzenburg, Irene Tracey, and Dennis C. Turk, along with more than 125 other leading authorities, present all of the latest knowledge about the genetics, neurophysiology, psychology, and assessment of every type of pain syndrome. They also provide practical guidance on the full range of today's pharmacologic, interventional, electrostimulative, physiotherapeutic, and psychological management options. Consult this title on your favorite e-reader with intuitive search tools and adjustable font sizes. Elsevier eBooks provide instant portable access to your entire library, no matter what device you're using or where you're located.Benefit from the international, multidisciplinary knowledge and experience of a'who's who'of international authorities in pain medicine, neurology, neurosurgery, neuroscience, psychiatry, psychology, physical medicine and rehabilitation, palliative medicine, and other relevant fields.Translate scientific findings into clinical practice with updates on the genetics of pain, new pharmacologic and treatment information, and much more.Easily visualize important scientific concepts with a high-quality illustration program, now in full color throughout.Choose the safest and most effective management methods with expanded coverage of anesthetic techniques.Stay abreast of the latest global developments regarding opioid induced hyperalgesia, addiction and substance abuse, neuromodulation and pain management, identification of specific targets for molecular pain, and other hot topics.

Published

2013

27. Clinical Pain Management : A Practical Guide

Author

Mary E. Lynch, Kenneth D. Craig, Philip H. Peng, Mary E. Lynch, Kenneth D. Craig, and Philip H. Peng

Subjects

Pain, Pain--Treatment

Abstract

Clinical Pain Management takes a practical, interdisciplinary approach to the assessment and management of pain. Concise template chapters serve as a quick reference to physicians, anesthetists and neurologists, as well as other specialists, generalists, and trainees managing pain. Based on the International Association for the Study of Pain's clinical curriculum on the topic, this reference provides to-the-point best-practice guidance in an easy-to-follow layout including tables, bullets, algorithms and guidelines.

Published

2011

28. Chronic Pain

Author

Gary W. Jay and Gary W. Jay

Subjects

Pain, Chronic pain--Treatment, Chronic pain, Chronic diseases

Abstract

Providing a general approach to the understanding and management of all forms of chronic pain, this book offers a clear and reader-friendly format that clarifies procedures in the diagnosis, assessment, and treatment of the most common chronic non-cancer pain entities. Describing various types of intractable non-cancer pain, including neuropathic

Published

2007

29. Pain

Author

Fernando Cervero, Troels Staehelin Jensen, Fernando Cervero, and Troels Staehelin Jensen

Subjects

Pain

Abstract

This volume provides a comprehensive accounting of pain and its relation to neurology. It is dedicated entirely to the mechanisms and clinical aspects of the subject, and provides a wealth of information on the latest neurobiological and clinical data surrounding the topic. From discussions of the physiology and pathology of the pain pathways from signaling, via spinal cord and supraspinal processing to endogenous pain modulation, users will gain an invaluable reference that provides a new understanding of pain related topics, including cytokines, sex differences, and the autonomic nervous system. Practicing clinicians, internists, surgeons, and those in the fields of psychiatry and gerontology will gain a greater understanding of this challenging topic with chapters that deal extensively with peripheral and central pain conditions, including specific disorders such as fibromyalgia, whiplash, psychiatric diseases, dementia, and even cancer. In addition, treatments for neuropathic pain are also thoroughly presented and discussed. • A comprehensive guide to the topic of pain and its relation to neurology• Invaluable information on specific topics of interest, including discussions of pain and its implications for related diseases and conditions such as fibromyalgia, whiplash, and even psychiatric disorders• Treatment protocols for neuropathic pain and patient care

Published

2006