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)

High voltage calcium channels are implicated in nociceptive transmission after nerve injury, capsaicin or formalin injection. The purpose of this study was to investigate the role of calcium channels in secondary heat hyperalgesia associated with acute joint inflammation. After induction of acute inflammation (knee joint injection of kaolin and carrageenan), decreased paw withdrawal latency (PWL) to radiant heat (i.e., secondary heat hyperalgesia), increased guarding of the limb and increased joint circumference occurs. Spinal administration (through a microdialysis fiber placed in dorsal horn) of an N-type calcium channel blocker (MVIIA, SNX 111, ziconotide, 0.001-0.1 mM), before induction of inflammation, prevents the decrease in PWL. Treatment with SNX 111 4 hr after inflammation reverses heat hyperalgesia. A small reduction in spontaneous pain-related behaviors (guarding of the limb) occurs after pre- or post-treatment with SNX 111. Spinal blockade of P/Q-type calcium channels (with omega-agatoxin IVA) had no effect on the decrease in PWL to radiant heat when administered after induction of inflammation. However, pre-treatment with omega-agatoxin IVA prevents secondary heat hyperalgesia. omega-Agatoxin IVA has no effect on spontaneous pain-related behaviors whether administered before or after induction of inflammation. In contrast, pre or post-treatment with nifedipine (L-type calcium channel blocker, 0.01-1.0 mM), had no effect on heat hyperalgesia or spontaneous pain-related behaviors induced by acute inflammation. There were no differences in joint circumference between groups with any treatment. Thus, N-type calcium channels contribute to both the development and maintenance of secondary heat hyperalgesia while P-type calcium channels are only involved during development of hyperalgesia.
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PMID:Blockade of N- and P/Q-type calcium channels reduces the secondary heat hyperalgesia induced by acute inflammation. 976 42

Many neurons of spinal laminae I and II, a region concerned with pain and other somatosensory mechanisms, display frequent miniature "spontaneous" EPSCs (mEPSCs). In a number of instances, mEPSCs occur often enough to influence neuronal excitability. To compare generation of mEPSCs to EPSCs evoked by dorsal root stimulation (DR-EPSCs), various agents affecting neuronal activity and Ca2+ channels were applied to in vitro slice preparations of rodent spinal cord during tight-seal, whole-cell, voltage-clamp recordings from laminae I and II neurons. The AMPA/kainate glutamate receptor antagonist CNQX (10-20 microM) regularly abolished DR-EPSCs. In many neurons CNQX also eliminated mEPSCs; however, in a number of cases a proportion of the mEPSCs were resistant to CNQX suggesting that in these instances different mediators or receptors were also involved. Cd2+ (10-50 microM) blocked evoked EPSCs without suppressing mEPSC occurrence. In contrast, Ni2+ (</=100 microM), a low-threshold Ca2+ channel antagonist, markedly decreased mEPSC frequency while leaving evoked monosynaptic EPSCs little changed. Selective organic antagonists of high-threshold (HVA) Ca2+ channels, nimodipine, omega-Conotoxin GVIA, and Agatoxin IVA partially suppressed DR-EPSCs, however, they had little or no effect on mEPSC frequency. La3+ and mibefradil, agents interfering with low-threshold Ca2+ channels, regularly decreased mEPSC frequency with little effect on fast-evoked EPSCs. Increased [K+]o (5-10 mM) in the superfusion, producing modest depolarizations, consistently increased mEPSC frequency; an increase suppressed by mibefradil but not by HVA Ca2+ channel antagonists. Together these observations indicate that different Ca2+ channels are important for evoked EPSCs and mEPSCs in spinal laminae I and II and implicate a low-threshold type of Ca2+ channel in generation of mEPSCs.
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PMID:Differences in Ca2+ channels governing generation of miniature and evoked excitatory synaptic currents in spinal laminae I and II. 978 81

Neuropathic pain, due to peripheral nerve damage, can include allodynia (perception of innocuous stimuli as being painful), hyperalgesia (increased sensitivity to noxious stimuli) and spontaneous pain, often accompanied by sensory deficits. Plasticity in transmission and modulatory systems are implicated in the underlying mechanisms. The Kim and Chung rodent model of neuropathy (Kim and Chung, Pain 50 (1992) 355) employed here involves unilateral tight ligation of two (L5 and L6) of the three (L4, L5, and L6) spinal nerves of the sciatic nerve and reproducibly induced mechanical and cold allodynia in the ipsilateral hindpaw over the 14 day post-operative period. In vivo electrophysiological techniques have then been used to record the response of dorsal horn neurones to innocuous and noxious electrical and natural (mechanical and thermal) stimuli after spinal nerve ligation (SNL). Activation of voltage-dependent calcium channels (VDCCs) is critical for neurotransmitter release and neuronal excitability, and antagonists can be antinociceptive. Here, for the first time, the effect of N- and P-type VDCC antagonists (omega-conotoxin-GVIA and omega-agatoxin-IVA, respectively) on the evoked dorsal horn neuronal responses after neuropathy have been investigated. Spinal omega-conotoxin-GVIA (0.1-3.2 microg) produced prolonged inhibitions of both the electrically- and low- and high-intensity naturally-evoked neuronal responses in SNL and control rats. Spinal omega-agatoxin-IVA (0.1-3.2 microg) also had an inhibitory effect but to a lesser extent. After neuropathy the potency of omega-conotoxin-GVIA was increased at lower doses in comparison to control. This indicates an altered role for N-type but not P-type VDCCs in sensory transmission after neuropathy and selective plasticity in these channels after nerve injury. Both pre- and post-synaptic VDCCs appear to be important.
Pain 2001 May
PMID:Effects of spinally delivered N- and P-type voltage-dependent calcium channel antagonists on dorsal horn neuronal responses in a rat model of neuropathy. 1132 45

1. The effects of intrathecal (i.t.) administration of N-, P/Q- or L-type voltage-dependent Ca(2+)-channel blockers were tested in two pain models involving bradykinin (BK)- and alpha,beta-methylene ATP (alpha,beta meATP)-induced activation of primary afferent neurons in mice. 2. The nociceptive response (amount of time spent licking and biting the hindpaw) induced by intraplantar injection of BK (500 pmol mouse(-1)) was significantly attenuated by both omega-conotoxin GVIA (N-type blocker) and calciseptine (L-type) but not by omega-agatoxin IVA (P/Q-type). 3. The nociceptive response induced in a similar way by alpha,beta meATP (100 nmol) was significantly inhibited by both the above N- and P/Q-type Ca(2+)-channel blockers but not by the L-type blocker. 4. The nociceptive responses elicited by BK and alpha,beta meATP were dose-dependently inhibited by a tachykinin-NK1-receptor antagonist (L-703,606) and an N-methyl-D-aspartate (NMDA)-receptor antagonist (D-AP5), respectively. 5. Intrathecal administration of substance P (SP) (1.8 nmol) or NMDA (350 pmol) elicited algesic responses, such as licking, biting and scratching of the hindquarters. The SP-induced algesic behaviour was significantly inhibited by the L-type blocker but not by the N-type. The NMDA-induced response was not affected by either the N- or the P/Q-type blocker. 6. These findings suggest that BK and ATP most likely excite different types of sensory neurons in the periphery and that within the spinal cord the former stimulates peptidergic transmission regulated by presynaptic N- and postsynaptic L-type Ca(2+) channels, while the latter stimulates glutamatergic transmission regulated by presynaptic N- and P/Q-type channels.
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PMID:Algogen-specific pain processing in mouse spinal cord: differential involvement of voltage-dependent Ca(2+) channels in synaptic transmission. 1187 44

The discovery of mis-sense mutations in the alpha1A subunit of the P/Q-type calcium channel in patients with familial hemiplegic migraine indicates the potential involvement of dysfunctional ion channels in migraine. The periaqueductal gray (PAG) region of the brainstem modulates craniovascular nociception and, through its role in the descending pain modulation system, may contribute to migraine pathophysiology. In this study we sought to investigate the possible link between the genetic mutations found in migraineurs and the PAG as a modulator of craniovascular nociception. We microinjected the P/Q-type calcium-channel blocker omega-agatoxin IVA into the rat ventrolateral PAG (vlPAG). We examined its effect on the nociceptive transmission of second-order neurons recorded in the trigeminal nucleus caudalis and activated by stimulation of the parietal dura mater. After injection of agatoxin into the vlPAG (n = 20) responses to dural stimulation were facilitated by 143% (p < 0.0001) for Adelta-fiber activity and 180% for C-fiber activity (p < 0.05). Similarly, spontaneous background activity increased by 163% (p < 0.0001). These results demonstrate that P/Q-type calcium channels in the PAG play a role in modulating trigeminal nociception and suggest a role for dysfunctional P/Q-type calcium channels in migraine pathophysiology.
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PMID:P/Q-type calcium-channel blockade in the periaqueductal gray facilitates trigeminal nociception: a functional genetic link for migraine? 1188 May 34

We have recently shown that injection of the P/Q-type (Ca(v)2.1/alpha(1A)) calcium channel blocker, omega-agatoxin IVA, into the periaqueductal gray (PAG) facilitates meningeal dural stimulation-evoked trigeminal nociceptive processing. We injected the GABA(A) antagonist bicuculline into the PAG in addition to the agatoxin and observed bicuculline's effect on neurons responding to dural stimulation recorded in the trigeminal nucleus caudalis of rats in order to determine if P/Q channel-mediated changes acted through GABAergic mechanisms. The inhibition of trigeminal nociceptive neurons characteristic of bicuculline administered into the PAG was maintained in the presence of blocked PAG P/Q-type calcium channels. This suggests the PAG descending pain modulatory pathway is not affected by P/Q-type calcium channel blockade at the postsynaptic GABAergic inhibitory interneuron and the facilitation produced by agatoxin is mediated by another mechanism. These findings have implications for disorders involving the PAG or P/Q-type channels, such as migraine, in particular for the development of preventative treatments, suggesting GABAergic and voltage-gated calcium channels could be separately modulated.
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PMID:Trigeminal antinociception induced by bicuculline in the periaqueductal gray (PAG) is not affected by PAG P/Q-type calcium channel blockade in rat. 1249 53

Estrogen has been implicated in modulation of pain processing. Although this modulation occurs within the CNS, estrogen may also act on primary afferent neurons whose cell bodies are located within the dorsal root ganglia (DRG). Primary cultures of rat DRG neurons were loaded with Fura-2 and tested for ATP-induced changes in intracellular calcium concentration ([Ca(2+)](i)) by fluorescent ratio imaging. ATP, an algesic agent, induces [Ca(2+)](i) changes via activation of purinergic 2X (P2X) type receptors and voltage-gated Ca(2+) channels (VGCC). ATP (10 microM) caused increased [Ca(2+)](i) transients (226.6+/-16.7 nM, n = 42) in 53% of small to medium DRG neurons. A 5-min incubation with 17 beta-estradiol (100 nM) inhibited ATP-induced [Ca(2+)](i) (164+/-14.6 nM, P<0.05) in 85% of the ATP-responsive DRG neurons, whereas the inactive isomer 17 alpha-estradiol had no effect. Both the mixed agonist/antagonist tamoxifen (1 microM) and specific estrogen receptor antagonist ICI 182780 (1 microM) blocked the estradiol inhibition of ATP-induced [Ca(2+)](i) transients. Estradiol coupled to bovine serum albumin, which does not diffuse through the plasma membrane, blocked ATP-induced [Ca(2+)](i), suggesting that estradiol acts at a membrane-associated estrogen receptor. Attenuation of [Ca(2+)](i) transients was mediated by estrogen action on VGCC. Nifedipine (10 microM), an L-type VGCC antagonist mimicked the effect of estrogen and when co-administered did not increase the estradiol inhibition of ATP-induced [Ca(2+)](i) transients. N- and P-type VGCC antagonists omega-conotoxin GVIA (1 microM) and omega-agatoxin IVA (100 nM), attenuated the ATP-induced [Ca(2+)](i) transients. Co-administration of these blockers with estrogen induced a further decrease of the ATP-induced [Ca(2+)](i) flux. Together, these results suggest that although ATP stimulation of P2X receptors activates L-, N-, and P-type VGCC, estradiol primarily blocks L-type VGCC. The estradiol regulation of this ATP-induced [Ca(2+)](i) transients suggests a mechanism through which estradiol may modulate nociceptive signaling in the peripheral nervous system.
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PMID:Estradiol inhibits atp-induced intracellular calcium concentration increase in dorsal root ganglia neurons. 1273 39

Gabapentin is a lipophilic analog of gamma-amino butyric acid (GABA) with therapeutic activity against certain forms of epilepsy and neuropathic pain. Despite its structural similarity to GABA, it does not bind GABAA or GABAB receptors and the mechanism, especially of its analgesic action, has remained elusive. Here, we have studied its effects on synaptic transmission mediated by the major spinal fast excitatory and inhibitory neurotransmitters, L-glutamate and glycine, in the superficial layers of the spinal cord dorsal horn, a CNS area, which is critically involved in nociception. Gabapentin reversibly reduced evoked excitatory postsynaptic currents mediated by alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA-EPSCs) and inhibitory postsynaptic currents mediated by glycine (gly-IPSCs). Inhibition of AMPA-EPSCs and gly-IPSCs occurred with similar potencies (approximately 10-50 nM) and by about the same degree (approximately 40% at 1 microM). Gabapentin did not affect membrane currents elicited by exogenously applied glutamate or glycine arguing against a postsynaptic site of action. Selective blockade of N-type Ca2+ channels with omega-conotoxin GVIA dramatically increased and blockade of P/Q-type channels with omega-agatoxin IVA strongly attenuated inhibition of evoked synaptic transmission by gabapentin. These results show that gabapentin affects both excitatory and inhibitory spinal neurotransmission via a presynaptic mechanism which preferentially involves P/Q-type Ca2+ channels.
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PMID:Gabapentin may inhibit synaptic transmission in the mouse spinal cord dorsal horn through a preferential block of P/Q-type Ca2+ channels. 1499 52

Choledochal cysts occur most frequently in East Asian children and rarely in Western adults. Over the past two decades, pediatric treatment has been standardized, but relatively little information is available on the management of Western adults with choledochal cysts. Therefore the aims of this analysis were to compare the presentation, management, and late results of Western adults and children with choledochal cysts. Records were reviewed of patients with choledochal cysts at three academic institutions in Wisconsin. Fifty-seven patients were identified, and 51 of these patients (89%) were managed surgically. Thirty-one patients (54%) were adults, and the adults were more likely to be male (29% vs. 4%, P<0.02). Pain (81% vs. 42%, P<0.01) and cholangitis (35% vs. 15%) were more common in adults. Forty-one patients (71%) had type I cysts, but type IVa or V cysts with dilated intrahepatic ducts were more common in adults (39% vs. 15%, P=0.05). Seventeen adults had undergone biliary surgery prior to referral compared to only four children (59% vs. 15%, P<0.01). Preoperative endoscopic or percutaneous stents were employed more commonly in adults (42% vs. 15%, P<0.01). Hospital mortality was 0%, and morbidity was low in both adults and children (25% vs. 8%). An associated biliary malignancy correlated with age (P<0.05): 0 to 30 years (0%), 31 to 50 years (19%), and 51 to 70 years (50%). In addition, adults were more likely to have late problems with cholangitis (19% vs. 4%, P<0.07) and secondary biliary cirrhosis (13% vs. 4%). This analysis suggests that compared to children, Western adults with choledochal cysts are more likely to have (1) type IVA or V cysts, (2) undergone prior surgery, (3) preoperative biliary stents, (4) an associated biliary malignancy, and (5) late hepatobiliary problems. We conclude that surgery in Western adults with choledochal cysts is frequently complicated and should be performed by specialists in complex biliary surgery.
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PMID:Choledochal cysts in western adults: complexities compared to children. 1501 16

Whole-cell currents in cultured hippocampal neurons were recorded to investigate the effects of SO-3, a new O-superfamily conopeptide derived from Conus striatus, on voltage-sensitive channels. SO-3 had no effect on voltage-sensitive sodium currents, delayed rectifier potassium currents, and transient outward potassium currents. Similar to the selective N-type calcium channel blocker omega-conotoxin MVIIA (MVIIA), SO-3 could concentration-dependently inhibit the high voltage-activated (HVA) calcium currents (I(Ca)). MVIIA(3 microM), 10 microM nimodipine, and 0.5 microM omega-agatoxin IVA (Aga) could selectively block the N-, L-, and P/Q-type I(Ca), which contributed approximately 32, approximately 38, and approximately 21% of the HVA currents in hippocampal neurons, respectively. About 31% of the total HVA currents were inhibited by 3 microM SO-3. SO-3 (3 microM) and 3 microM MVIIA inhibited the overlapping components of HVA currents, whereas no overlapping component was inhibited by 3 microM SO-3 and 10 microM nimodipine, or by 3 microM SO-3 and 0.5 microM Aga. Also, 3 microM SO-3 had no effect on R-type currents. SO-3 had less inhibitory effects on non-N-type HVA currents than MVIIA at higher concentrations (30 and 100 microM). The inhibitory effects of SO-3 and MVIIA on HVA currents were almost fully reversible. However, the recovery from block by MVIIA was more rapid than recovery from block by SO-3. It is concluded that SO-3 is a new omega-conotoxin selectively targeting N-type voltage-sensitive calcium channels. Considering the significance of N-type calcium channels for pain transduction, SO-3 may have therapeutic potential as a novel analgesic agent.
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PMID:SO-3, a new O-superfamily conopeptide derived from Conus striatus, selectively inhibits N-type calcium currents in cultured hippocampal neurons. 1588 Jan 45


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