Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increased voltage-gated sodium channel activity may contribute to the hyperexcitability of sensory neurons in inflammatory and neuropathic pain states. We examined the levels of the transcript encoding the tetrodotoxin-resistant sodium channel SNS in dorsal root ganglion neurons in a range of inflammatory and neuropathic pain models in the rat. Local Freund's adjuvant or systemic nerve growth factor-induced inflammation did not substantially alter the total levels of SNS mRNA. When NGF-treated adult rat DRG neurons in vitro were compared with NGF-depleted control neurons, SNS total mRNA levels and the levels of membrane-associated immunoreactive SNS showed a small increase (17 and 25%, respectively), while CGRP levels increased fourfold. SNS expression is thus little dependent on NGF even though SNS transcript levels dropped by more than 60% 7-14 days after axotomy. In the streptozotocin diabetic rat SNS levels fell 25%, while in several manipulations of the L5/6 tight nerve ligation rat neuropathic pain model, SNS levels fell 40-80% in rat strains that are either susceptible or relatively resistant to the development of allodynia. Increased expression of SNS mRNA is thus unlikely to underlie sensory neuron hyperexcitability associated with inflammation, while lowered SNS transcript levels are associated with peripheral nerve damage.
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PMID:Regulation of expression of the sensory neuron-specific sodium channel SNS in inflammatory and neuropathic pain. 953 81

Neuropeptide changes in primary sensory neurons are thought to be involved in the pathological mechanisms of neuropathic pain caused by peripheral nerve injuries. In this study, using immunocytochemistry, we observed that calcitonin gene-related peptide (CGRP) immunoreactive (IR) fibers were increased, qualitatively and quantitatively, in the injured side gracile nuclei of adult (2 months old) and aged (16 months old) rats 2 weeks following complete transection (CSNT) or chronic constriction injury (CCI) of sciatic nerves. This increase was more pronounced after CCI than after CSNT. In aged rats, the CGRP-IR fibers which appeared were dystrophic. In contrast to the increases which we saw in the gracile nucleus, after both types of injury there was a decrease in CGRP-IR in all laminae of the dorsal horn. The percentage of CGRP-IR DRG neurons was decreased after CSNT, but unchanged after CCI. We interpret our results in terms of local sprouting in the gracile nucleus and suggest that the increased response following CCI is due to the involvement of fibers from DRG neurons spared by the partial nerve injury. Increased CGRP release from spared afferents in the gracile nucleus might be important in neuropathic pain.
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PMID:Increase of calcitonin gene-related peptide immunoreactivity in the axonal fibers of the gracile nuclei of adult and aged rats after complete and partial sciatic nerve injuries. 968 21

The lumbar 5 (L5) dorsal root ganglia (DRGs) were studied in neuropeptide tyrosine (NPY)-deficient (-/-) and wild type (+/+) mice after unilateral sciatic nerve transection using in situ hybridization and immunohistochemistry. NPY, galanin and two NPY receptors (Y-Rs) were analyzed as well as self-mutilation behaviour (autotomy) and nociceptive thresholds. No difference between wild type and NPY-deficient mice was seen in the tail-flick or hot plate test. However, -/- mice showed a much stronger autotomy behaviour than wild type mice. NPY was not found in L5 DRGs in -/- mice, not even after axotomy. Galanin was upregulated to the same extent after axotomy in NPY-deficient and wild type mice. Y1- and Y2-R mRNAs were found mainly in small DRG neuron profiles. Both receptor mRNAs were downregulated after axotomy, to about the same extent in NPY-deficient as in wild type mice. In control and contralateral ganglia the mRNA levels of both receptors were lower in NPY-deficient mice than in wild type mice. The contralateral Y2-R mRNA levels did not reach control values in the NPY-deficient mice, as they did in the wild type mice. In both strains the Y1-R protein was decorating the somatic plasmalemma. The present results suggest that lack of NPY may cause exaggerated autotomy, a self-mutilation behaviour possibly related to pain sensation, in agreement with the described analgesic effect of NPY. Although significant differences in levels of Y1- and especially Y2-R mRNAs were observed between wild type and NPY-deficient mice, they were only moderate. These findings suggest that expression, regulation, localization and possible function of Y1- and Y2-Rs are not dependent on presence of the endogenous ligand. Also, deletion of NPY does not seem to influence the expression of the partly coexisting peptide galanin.
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PMID:Effect of peripheral axotomy on dorsal root ganglion neuron phenotype and autonomy behaviour in neuropeptide Y-deficient mice. 980 5

Using the indirect immunofluorescence method, the distribution of cyclic GMP (cGMP) and nitric oxide synthase (NOS) was investigated in lumbar 5 dorsal root ganglia (DRGs) of untreated rats 1, 3 and 7 days following sciatic nerve section (axotomy). Untreated and axotomized (7 days) rats were also studied after perfusion with the NO donor sodium nitroprusside (SNP). Moreover, rats were injected with carrageenan lambda into the unilateral hindpaw and studied after 6 h, 1 day or 2 days. An increase in the number of cGMP-positive satellite cell profiles was found in axotomized DRGs at 3 days with lower numbers after 7 days. In contrast, no change in cGMP-like immunoreactivity (LI) in satellite cell profiles was detected 1 day after axotomy or 6h, 1 day or 2 days after inflammation, as compared to controls. Axotomy induced a marked increase in the percentage of NOS-immunoreactive (IR) neuron profiles in the ipsilateral DRGs as follows: 3.0% at 1 day, 15% at 3 days and 25% at 7 days, whereas no significant change was found in the expression of NOS-LI in the inflamed DRGs as compared to untreated DRGs. Between 15 and 20% of all NOS-positive neuron profiles were surrounded by, or in partial contact with, cGMP-IR satellite cells in controls 1 and 3 days after axotomy, whereas the corresponding figure was around 5% after 7 days. After SNP perfusion 60-70% of all DRG neuron profiles were partly or totally associated with cGMP-positive satellite cell profiles, with no significant difference between untreated and axotomized ganglia. The nerve injury-induced, parallel upregulation of NOS in DRG neurons and cGMP in satellite cells in the initial phase after axotomy suggests an involvement of NO as a signalling molecule between neurons and satellite cells in DRGs, especially after peripheral nerve injury, perhaps exerting a survival effect as recently proposed by Thippeswamy and Morris (1997).
Pain 1998 Dec
PMID:Effect of peripheral nerve injury on cGMP and nitric oxide synthase levels in rat dorsal root ganglia: time course and coexistence. 987 May 70

The role of nerve growth factor (NGF) and glial-derived neurotrophic factor (GDNF) in sympathetic sprouting within the dorsal root ganglion was investigated. In nerve-intact rats, intrathecal NGF (1 mg/ml, 14 days) but not GDNF (1 mg/ml, 14 days) induced extensive sprouting of tyrosine hydroxylase immunoreactive (TH-IR) fibres and formation of pericellular TH-IR baskets within lumbar DRGs. TH-IR baskets were distributed equally to trkA-expressing and trkA-negative neuronal profiles. Sciatic nerve transection (14-21 days) induced TH-IR baskets within lumbar DRG's around neuronal profiles with both intact and lesioned axons. The percentage of neuronal profiles surrounded by TH-IR baskets following sciatic transection was unaffected following peripheral application of the NGF sequestering antibody, trkA-IgG (1 mg/ml, 14 days). Intracellular responses were recorded from sensory neurons in an in vitro DRG/peripheral nerve preparation following bath application of noradrenaline. In preparations from animals treated 14 days previously with intrathecal NGF, 69% of neurons responded with depolarizing responses whilst 18% of neurons responded to bath applied noradrenaline in tissue prepared from naive animals. Our data indicate that sympathetic neurons sprout into the DRG in response to sciatic nerve injury and intrathecal NGF but not GDNF. Distribution of sympathetic sprouts within the DRG is independent of whether target neurons are injured or express trkA. Sequestration of NGF at the peripheral injury site does not influence basket formation within the DRG. It is likely that functional noradrenergic connections exist between sympathetic sprouts and sensory neuron cell bodies following exogenous NGF.
Pain 1999 Jan
PMID:A role for nerve growth factor in sympathetic sprouting in rat dorsal root ganglia. 992 72

Following nerve injury, modified somatic ion channels may underlie ectopic activity in axotomized A-type neurones in dorsal root ganglia (DRGs) leading to abnormal pain signalling. Using intracellular microelectrodes both in vivo and in vitro, action potentials (APs) were recorded in rat DRG neurones classified by axonal conduction velocity. After lesions to L5 spinal or sciatic nerves, APs in both A alpha/beta and A delta cells were wider, and those in A alpha/beta neurones more frequently showed inflections during repolarization, than APs in cells in undamaged ganglia. AP amplitudes and dV/dt(max) were not significantly altered by axotomy. These results confirm previous observations in intact ganglia in vitro but differ from those reported for dissociated neurones using patch recording techniques.
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PMID:Changes in the action potential in sensory neurones after peripheral axotomy in vivo. 1020 9

Increased excitability of primary sensory neurons may be important for the generation of neuropathic pain from nerve injury. The currents underlying the action potentials of these neurons are largely carried by Na+, and changes in Na+ currents have been postulated to contribute to this increased excitability. Using patch clamp in whole-cell mode, we recorded Na+ currents from DRG neurons freshly isolated from rats with a chronic constriction injury (CCI), an animal model of neuropathic pain. We found significant changes in Na+ currents after CCI when cell size and Na+ channel properties were used to segregate DRG neurons. Most changes were concentrated in small neurons (< or = 25 microm diameter) and in the slow TTX-resistant current that is predominant in these cells. CCI produced two principal changes in these cells: it shifted the voltage-dependence of activation of the TTX-resistant current to more negative potentials and it reduced the average density of this current. The decrease in density appears to be primarily due to the decrease in the number of small neurons expressing this current. The net result is a change in both activation and steady-state inactivation properties of the total Na+ current to more negative potentials without a significant change in the density of total Na+ current. The change in activation properties of the TTX-resistant Na+ current are similar to those produced by some hyperalgesic autacoids, and may contribute to the increase in primary afferent excitability and hyperalgesia that occurs after this lesion.
Pain 1999 May
PMID:Alteration of Na+ currents in dorsal root ganglion neurons from rats with a painful neuropathy. 1035 89

A number of rat peripheral neuropathy models have been developed to simulate human neuropathic pain conditions. The current study sought to determine the relative importance of site versus type of peripheral nerve injury in eliciting mechanical allodynia and spinal glial responses. Rats received one of seven different surgical treatments at the L5 spinal level: spinal nerve cryoneurolysis, spinal nerve tight ligation, dorsal root cryoneurolysis, dorsal root tight ligation, dorsal root transection, ventral root tight ligation, or laminectomy/dural incision sham. Foot-lift response frequency to mechanical stimulation of the ipsilateral hindpaw was assessed postlesion on days 1, 3, 5, and 7. L5 spinal cords were retrieved for immunohistochemical analysis of microglial (OX-42) and astrocytic (anti-glial fibrillary acidic protein) responses. Both types of spinal nerve lesion, freeze and tight ligation, produced rapid and profound mechanical allodynia with intense glial responses. Dorsal root lesions also resulted in intense mechanical allodynia; however, glial responses were almost exclusively astrocytic. Ventral root tight ligation and sham provoked no marked behavioral changes and only sporadic glial responses. Direct dorsal horn communication with the dorsal root ganglion was not a crucial factor in the development of mechanical allodynia, since decentralization of the L5 DRG by complete L5 dorsal root lesion produced profound mechanical sensitization. Conversely, microglial activation responses appear to be dependent upon dorsal root ganglion-mediated signals and, contrary to behavioral responses, were robust only when the lesion was made peripheral to the cell body. Astrocytic activation was always observed following axonal injury and reliably coexisted with behavioral responses.
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PMID:The effect of site and type of nerve injury on spinal glial activation and neuropathic pain behavior. 1036 41

In the present brief overview we summarize results from several studies focusing on two neuropeptides, galanin and neuropeptide Y (NPY) in discrete neuronal systems, where they coexist with classic transmitters. On the basis of studies in different animal models we propose that these peptides may be involved in regulation of certain CNS functions and that drugs acting on their receptors may be of use in new therapeutic strategies. At the spinal level galanin and NPY are regulated in DRG neurons by nerve injury and in dorsal horn neurons by inflammation. It is possible that this leads to attenuation of pain sensitivity. Moreover, both peptides may exert trophic effects, for example to enhance regeneration. In the hypothalamic arcuate nucleus NPY and its receptors are part of the feeding circuitry, and we suggest that derangement of these NPY neurons may at least in part underlay the lethal phenotype of anorectic mice, which die 22 days postnatally after showing decreased food intake and growth retardation. Expression of NPY and NPY receptors is changed in the hippocampus of mice comparatively early after prion inoculation, indicating that this peptide system is affected in this spongiform degenerative disease in a region of importance for learning and memory. Finally, galanin is co-localized with classic monoamine transmitters in two central systems, the dorsal raphe serotonin neurons and the locus coeruleus noradrenergic neurons. In both cases galanin causes hyperpolarization (at high concentrations) and prolongs monoamine-induced outward currents (at low concentrations), thus modulating activity in two systems of importance for many brain functions including mood regulation. It may therefore be interesting to analyse to what extent drugs affecting galaninergic transmission also may be efficient in the treatment of, for example, depression.
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PMID:Galanin and NPY, two peptides with multiple putative roles in the nervous system. 1042 30

Partial peripheral nerve injury often results in neuropathic pain that is aggravated by sympathetic excitation and induces sympathetic nerve sprouting in both the injured nerve and corresponding dorsal root ganglia (DRGs). Presently, the functional mechanisms of the interactions between the sprouting and injured somatic afferents remain uncertain. This study was performed to see whether the sprouting in the DRGs plays a key role in the development of neuropathic pain. To this aim, we compared two groups of rats, both of which were subjected to unilateral transection of the superior and inferior caudal trunks at the level between the S1 and S2 spinal nerves, with respect to sympathetic fiber sprouting; one group showed well-developed neuropathic pain behaviors (i.e. mechanical, cold and warm allodynia signs) and the other group showed poorly-developed ones. Immuno-histochemical staining with tyrosine hydroxylase (TH) antibody of the injured S1 DRG taken from both groups of rats after behavioral tests revealed that the magnitude of penetration of TH-positive fibers into the S1 DRG was not significantly different between the two groups. These results suggest that sympathetic nerve sprouting in the injured DRG is not a key factor in the development of neuropathic pain.
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PMID:Is sympathetic sprouting in the dorsal root ganglia responsible for the production of neuropathic pain in a rat model? 1043 May 15


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