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ABSTRACT: The pro-inflammatory cytokine interleukin-6 (IL-6) together with its soluble receptor (sIL-6R) induces and maintains thermal hyperalgesia. It facilitates the heat-induced release of calcitonin gene-related peptide from rat cutaneous nociceptors in vivo and in vitro. Here we report that exposure of nociceptive neurons to the IL-6-sIL-6R complex or the gp130-stimulating designer IL-6-sIL-6R fusion protein Hyper-IL-6 (HIL-6) resulted in a potentiation of heat-activated inward currents (I(heat)) and a shift of activation thresholds towards lower temperatures without affecting intracellular calcium levels. The Janus tyrosine kinase inhibitor AG490, the selective protein kinase C (PKC) inhibitor, bisindolylmaleimide 1 (BIM1), as well as rottlerin, a selective blocker of the PKCdelta isoform, but not the cyclooxygenase inhibitor indomethacin, effectively reduced the effect. Reverse transcription-polymerase chain reaction (RT-PCR) and in situ hybridization revealed expression of mRNA for the signal-transducing beta subunit of the receptor gp130 in neuronal somata, rather than satellite cells in rat dorsal root ganglia. Together, the results suggest that IL-6-sIL-6R acts directly on sensory neurons. It increases their susceptibility to noxious heat via the gp130/Jak/PKCdelta signalling pathway.
Brain 08/2005; 128(Pt 7):1634-41. · 9.46 Impact Factor
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ABSTRACT: Calcium influx and the resulting increase in intracellular calcium concentration [Ca2+]i can induce enhanced sensitivity to temperature increases in nociceptive neurons. Using the patch-clamp technique and simultaneous calcium microfluorimetry we show that experimental elevation of [Ca2+]i using the calcium ionophore ionomycin resulted in a significant potentiation of heat-activated currents. This was not the case when rises in [Ca2+]i were elicited by depolarization of the cell membrane by current injection via the patch pipette. Our data provide first, however, indirect evidence that in sensory neurons calcium ions may be guided into different intracellular microdomains depending on the type of ion channel or pore through which they enter the cell. We conclude that the compartmentalization of sensory neurons for calcium ions may be decisive on further signalling cascades accounting, for example, for neuronal plasticity.
Neuroscience Letters 02/2004; 354(2):127-30. · 2.11 Impact Factor
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ABSTRACT: Calcium influx and the resulting increase in intracellular calcium concentration ([Ca(2+)](i)) can induce enhanced sensitivity to temperature increases in nociceptive neurons. This sensitization accounts for heat hyperalgesia that is regularly observed following the activation of excitatory inward currents by pain-producing mediators. Here we show that rat sensory neurons express calcium-dependent adenylyl cyclases (AC) using RT-PCR and nonradioactive in situ hybridization. Ionomycin-induced rises in [Ca(2+)](i)-activated calcium-dependent AC and caused translocation of catalytic protein kinase A subunit. Elevation of [Ca(2+)](i) finally resulted in a significant potentiation of heat-activated currents and a drop in heat threshold. This was not prevented in the presence of suramin that nonspecifically uncouples G protein-dependent receptors. The sensitization was, however, inhibited when the specific PKA antagonist PKI(14-22) was added to the pipette solution or when PKA coupling to A kinase anchoring protein (AKAP) was disrupted with InCELLect StHt-31 uncoupling peptide. The results show that heat sensitization in nociceptive neurons can be induced by increases in [Ca(2+)](i) and requires PKA that is functionally coupled to the heat transducer, mostly likely vanilloid receptor VR-1. This calcium-dependent pathway can account for the sensitizing properties of many excitatory mediators that activate cationic membrane currents.
Journal of Neurophysiology 06/2003; 89(5):2499-505. · 3.32 Impact Factor
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ABSTRACT: The inflammatory mediators bradykinin, prostaglandin E(2) and serotonin interact to excite and sensitize nociceptive neurons. All three mediators are coupled to signaling pathways that potentially induce rises in intracellular calcium concentration in other models. The aim of this study was therefore to investigate if the three mediators cause calcium rises in isolated rat sensory neurons that may explain their sensitizing action. Neurons exposed to serotonin, bradykinin, and prostaglandin E(2) exhibited reversible increases in intracellular calcium concentration, which were absent in calcium-free solution. The calcium increase induced by serotonin was preserved in the presence of extracellular cadmium suggesting calcium influx potentially through the serotonin receptor ion channel 5-HT(3). The bradykinin-induced calcium response was slower, showed pronounced tachyphylaxis and was absent in the presence of extracellular cadmium ions. Similar results were obtained for prostaglandin E(2) although the calcium rises were fast and not prone to tachyphylaxis. This suggests that prostaglandin E(2) as well as bradykinin via activation of G protein-coupled receptors seem to couple to calcium-permeant ion channels possibly the heat-transducing vanilloid receptor type 1 or related ion channels. The three mediators, however, did not cooperate to induce supra-additive calcium responses when applied simultaneously. In summary, our results suggest that the inflammatory mediators serotonin, prostaglandin E(2) and bradykinin induce calcium influx in sensory neurons. However, they do not utilize a calcium-dependent cooperative mechanism to facilitate proton-induced currents.
Neuroscience 02/2003; 118(1):69-74. · 3.38 Impact Factor
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ABSTRACT: The effects of high temperature (53-61 degrees C) on membrane currents (I(heat)) or depolarization (V(heat)) induced by noxious heat were studied in cultured dorsal root ganglia neurons from neonatal rats using the whole cell patch clamp technique. I(heat) or V(heat) produced by 3 s ramps of increasing temperature between 43 and 50 degrees C exhibited a fast slope (Q10>10) that was similar both during rising and falling temperature (n=85). Temperatures exceeding 52 degrees C resulted in slowdown in the recovery of I(heat), and the threshold for inducing I(heat) was shifted to lower temperatures in successive trials. These high temperatures (54-60 degrees C) caused a linear and incomplete recovery of I(heat) (Q10 decreased to <5; 4.5 +/- 0.4; n=17) and in successive trials the threshold of I(heat) decreased to temperatures close to that in the bath. The neurons, however, remained sensitive to capsaicin and to decreased extracellular pH. It is suggested that exposure of nociceptive neurons to excessive noxious heat results in an irreversible decrease of the energy barrier between the resting and activated state of the protein structures responsible for generation of I(heat). This may explain the sensitization of nociceptors after heat injury.
Pain 03/2002; 95(3):207-14. · 5.78 Impact Factor
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C Vieira,
S Fetzer,
S K Sauer,
S Evangelista,
B Averbeck, M Kress,
P W Reeh,
R Cirillo,
A Lippi,
C A Maggi,
S Manzini
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ABSTRACT: We have investigated the pro- and anti-inflammatory effects of ricinoleic acid (RA), the main active principle of castor oil, in an experimental model of blepharitis induced by intradermal injection of carrageenan in the guinea-pig eyelid and its possible capsaicin-like mode of action on acutely dissociated rat dorsal root ganglia (DRG) neurons in vitro. Topical treatment with RA (10-100 mg/guinea-pig) or capsaicin (1-10 mg/guinea-pig) caused eyelid reddening and oedema. At lower doses (0.3-3 mg/guinea-pig and 0.009-0.09 mg/guinea-pig for RA and capsaicin, respectively) both drugs significantly potentiated the eyelid oedema induced by carrageenan. The tachykinin NK1 receptor antagonist FK 888 (0.59 mg/kg s.c.) abolished the potentiation of carrageenan-induced eyelid oedema induced by either RA or capsaicin. The neutral endopeptidase inhibitor, thiorphan (1.3 mg/kg i.v.) significantly enhanced the potentiation of carrageenan-induced eyelid oedema produced by RA. This potentiating effect was abolished by FK 888. Repeated (8 days) topical application of RA (0.9 mg/guinea-pig) or capsaicin (0.09 mg/guinea-pig) inhibited the carrageenan-induced eyelid oedema. This anti-inflammatory effect was accompanied by a reduction (75%-80% of SP and 46%-51% of NKA) in tachykinin content of the eyelids, as determined by radioimmunoassay. In dissociated rat DRG neurons, RA (0.1 mM for 5 min) significantly inhibited the inward currents induced by application of capsaicin (1 microM) and/or low pH (5.8), without inducing any currents by itself or changing voltage-dependent currents. Moreover, after 24-h incubation, RA (0.1 mM) significantly decreased the capsaicin (1 microM)-induced calcitonin gene-related peptide (CGRP) release from rat DRG neurons, whereas acute drug superfusion did not evoke CGRP release by itself. Summarizing, RA possesses capsaicin-like dual pro-inflammatory and anti-inflammatory properties which are observed upon acute and repeated application, respectively. However, unlike capsaicin, RA does not induce inward current in DRG neurons and it is devoid of algesic properties in vivo.
Archiv für Experimentelle Pathologie und Pharmakologie 09/2001; 364(2):87-95. · 2.65 Impact Factor
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ABSTRACT: Varicella-zoster virus (VZV) is a widespread human herpes virus causing chicken pox on primary infection and persisting in sensory neurons. Reactivation causes shingles, which are characterized by severe pain and often lead to postherpetic neuralgia. To elucidate the mechanisms of VZV-associated hyperalgesia, we elaborated an in vitro model for the VZV infection of sensory neurons from rat dorsal root ganglia. Between 35 and 50% of the neurons showed strong expression of the immediate-early virus antigens IE62 and IE63 and the late glycoprotein gE. When the intracellular calcium concentration was monitored microfluorometrically for individual cells after infection, the sensitivity to GABA or capsaicin was similar in controls and in VZV-infected neurons. However, the baseline calcium concentration was increased. Neurons became de novo sensitive to adrenergic stimulation after VZV infection. Norepinephrine-responsive neurons were more frequent and calcium responses to norepinephrine were significantly higher after infection with wild-type isolates than with the attenuated vaccine strain OKA. The adrenergic agonists phenylephrine and isoproterenol had similar efficacy. We suggest that the infection with wild-type VZV isolates confers norepinephrine sensitivity to sensory neurons by using alpha(1)- and/or beta(1)-adrenergic receptors providing a model for the pathophysiology of the severe pain associated with the acute reactivation of VZV.
The FASEB Journal 05/2001; 15(6):1037-43. · 5.71 Impact Factor
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ABSTRACT: Here we directly demonstrate the liberation of CGRP from rat skin in vitro induced by high extracellular concentrations of KCl. The EC50 was 52 mM KCl and saturation was reached from 80 mM KCl. The release was entirely dependent on the presence of extracellular calcium ions. It was reduced by nonsubtype selective inhibition of voltage-operated calcium channels (VOCCs). Application of selective antagonists suggest expression of L-type and N-type but not P/Q-type VOCCs in cutaneous nociceptive terminals. These may be activated by any suprathreshold depolarizing stimuli to induce neurogenic inflammation. The expression pattern greatly differs from central nociceptive terminals where, in addition, P/Q-type VOCC have been found.
Neuroreport 04/2001; 12(4):867-70. · 1.66 Impact Factor
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ABSTRACT: Recent cloning efforts have identified families of ion channels that may be involved in signaling noxious proton accumulation in tissue. Some conduct potassium ions outward and are closed by excess protons, others are opened under this condition carrying cations inward and their putative function is in their name ('acid sensing'), and again another channel is truly polymodal, the capsaicin receptor, sensing acid and heat. Further heat-activated channels, not yet cloned, may not be gated by protons but sensitized so strongly that they open at the command of body temperature. In either case, the result may be pain from tissue acidosis.
Current Opinion in Pharmacology 03/2001; 1(1):45-51. · 6.86 Impact Factor
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ABSTRACT: The effect of topically applied acetyl salicylic acid (ASA) and dipyrone on capsaicin-evoked protein extravasation was investigated by dermal microdialysis in rat. After a baseline of 75 min, capsaicin (1%) was applied epicutaneously under occlusion for 75 min above the capillaries. Topical capsaicin stimulation induced neurogenic protein extravasation with a mean increase of protein concentration in the perfusate of 165+/-27% (mean+/-SEM; n=15), whereas in sham-stimulated sites protein concentration decreased to 73+/-7% of the prestimulation value (n=6). ASA (2-200 mg/ml) and dipyrone (3-300 mg/ml) dose-dependently reduced the capsaicin induced protein extravasation to 118+/-23% (ASA, 200 mg/ml; n=8) and 72+/-9% (dipyrone, 300 mg/ml; n=8) of the prestimulation value. ASA and dipyrone antagonized the excitatory effects of capsaicin on skin nociceptors and thus suppressed the neurogenic protein extravasation.
Neuroscience Letters 09/2000; 290(1):57-60. · 2.11 Impact Factor
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ABSTRACT: Proinflammatory cytokines contribute to the development of inflammatory and neuropathic pain and hyperalgesia in many in vivo models. The rat skin model was used to investigate the effects of proinflammatory cytokines on the basal and heat-evoked release of calcitonin gene-related peptide from nociceptors in vitro. In contrast to the excitatory effects of cytokines observed in vivo, none of the cytokines tested evoked any calcitonin gene-related peptide (CGRP) release at normal skin temperature of 32 degrees C. However, the cytokines IL-1beta, tumor necrosis factor (TNF)-alpha, and IL-6 but not IL-8 induced a pronounced and transient sensitization of the heat-evoked CGRP release from nociceptors in vitro. This heat sensitization was dose dependent, with EC(50) for IL-1 beta of 2.7 ng/ml and for TNF-alpha of 3.1 ng/ml. The maximum IL-1 beta effect reached almost 600% of the heat-evoked release, and the maximum TNF-alpha effect induced a rise in CGRP release of 350%. In contrast to IL-1 beta and TNF-alpha, IL-6 did not induce heat sensitization when applied alone but was only effective in the presence of soluble IL-6 receptor. This suggests a constitutive expression of signaling receptors for TNF and IL-1 beta and the signal transduction molecule gp130 but not IL-6 receptor or IL-8 receptor. Furthermore, the acute cytokine signaling observed in the present study was independent of transcriptional pathways because sensitization occurred on short latency in vitro and under conditions that excluded chemotactic accumulation of immune cells from blood vessels. Our results demonstrate that interleukins may play an important role in the initiation of heat hyperalgesia in inflammation and neuropathy.
Journal of Neuroscience 09/2000; 20(16):6289-93. · 7.11 Impact Factor
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ABSTRACT: The rat skin-saphenous nerve preparation was used to record from mechano-heat sensitive C-fibers whose receptive fields were superfused with various solutions of low pH and of bradykinin, serotonin and prostaglandin E2. Only synchronous application of protons and mediators resulted in a significant nearly three-fold augmentation of the nociceptive pH response, and capsazepine (10(-5) M) did not block this short-lived enhancement. Thus, it does not seem to involve the capsaicin receptor (VRI) which is in contrast to a previous finding from cultured sensory neurons.
Neuroreport 05/2000; 11(5):973-6. · 1.66 Impact Factor
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ABSTRACT: The interactions between the inflammatory mediators bradykinin, serotonin, prostaglandin E(2) and acid pH were studied in rat dorsal root ganglion neurons in culture. For this purpose, the cultures were stimulated by inflammatory mediators (bradykinin, serotonin, prostaglandin E(2), 10(-5)M each) or acid solution (pH 6.1) for 5 min and the content of calcitonin gene-related peptide was determined in the supernatant before, during and after stimulation, using an enzyme immunoassay. Acid solution resulted in a threefold increase of the basal calcitonin gene-related peptide release which was entirely dependent on the presence of extracellular calcium. The release could not be blocked by the addition of the capsaicin antagonist capsazepine (10(-5)M). Bradykinin (10(-5)M) caused a 50% increase of the basal calcitonin gene-related peptide release which was again dependent on the presence of extracellular calcium, whereas serotonin and prostaglandin E(2) were each ineffective at 10(-5)M concentration. The combination of bradykinin, serotonin and prostaglandin E(2) led to a fivefold increase of the calcitonin gene-related peptide release which could not be further enhanced by acidification. The competitive capsaicin receptor antagonist capsazepine (10(-5)M) significantly reduced the release induced by the combination of bradykinin, serotonin and prostaglandin E(2). It is suggested that the inflammatory mediators co-operate and together may act as endogenous agonists at the capsaicin receptor to cause calcium influx and consecutive neuropeptide release.
Neuroscience 02/2000; 98(1):135-40. · 3.38 Impact Factor
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ABSTRACT: In the skin, noxious heating induces an axon reflex response which is commonly accepted to be due to the release of vasodilatory neuropeptides from polymodal nociceptors. In the present study, the quantitative assessment of calcitonin gene-related peptide (CGRP) release from rat skin serves as an integrative measure of primary afferent activation by noxious heat and the presumed sensitising action of bradykinin and an activator of protein kinase C (PKC). The isolated rat hairy skin of either hind paw was mounted on acrylic rods and exposed for 5 min periods to synthetic interstitial fluid of either 32 degrees C for control or of higher temperatures up to 59 degrees C during stimulation. In addition, experiments were performed in calcium free solution (containing 10 mM EGTA) or the skin was preloaded with the membrane permeant calcium chelator BAPTA-AM (1 mM). To look for modulatory effects on the heat responses, bradykinin or polymyristate-acetate (PMA) were added during heat stimulation in further experiments. Heating the skin induced a temperature-dependent release of CGRP from a threshold of 43 degrees C which was absent in calcium free solution. Only at the highest temperatures (55 and 59 degrees C) was a partially calcium-independent release observed. Inhibition of the release was also obtained with the intracellular calcium buffer BAPTA-AM. Bradykinin 10 but not 1 microM as well as PMA 1 and 10 microM significantly facilitated the heat-induced CGRP release at 47 degrees C whereby BK caused a marginal and PMA a significant CGRP release by itself. Our results indicate that moderate noxious heat induces calcium-dependent CGRP release and this can be facilitated by bradykinin and by the activation of PKC. This suggests the same sensitising mechanism that affects nociceptor heat responses.
Pain 12/1999; 83(2):289-95. · 5.78 Impact Factor
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ABSTRACT: Capsaicin (CAPS) as well as acidic pH induces Ca2+ influx in a subset of rat dorsal root ganglion neurons. Here we show that CAPS as well as three different approaches to induce experimental tissue acidification (phosphate buffered solution pH 5.4, CO2-gassed solution pH 6.1 and NPE-caged protons) yielded a transient heat sensitization of peripheral nociceptive terminals in rat skin in vitro. The heat sensitization induced by CAPS (1 microM) could be prevented by preloading the neurons with the neuroprotective calcium chelator BAPTA-AM (1 mM). However, this pretreatment had no effect on the sensitization following exposure to acidic solutions (pH 5.4 and pH 6.1). Therefore, the membrane-permeant proton buffer SNARF-AM (200 microM) was used together with BAPTA-AM in order to prevent changes in intracellular pH. Under these conditions heat sensitization by low pH did not occur. To investigate the underlying membrane mechanisms, current recordings together with simultaneous calcium measurements using FURA-2 were performed in neurons isolated from rat dorsal root ganglia. In a subset of these neurons, an increase in [Ca2+]i and concomitant facilitation of heat-activated ionic currents was observed after application of CAPS as well as pH 5.6. Rises in [Ca2+]i thus appear to play an essential role in plastic changes not only of central neurons but also of peripheral nociceptive terminals which may account for heat hyperalgesia.
European Journal of Neuroscience 10/1999; 11(9):3143-50. · 3.63 Impact Factor
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ABSTRACT: In inflamed tissue, nociceptors show increased sensitivity to noxious heat, which may account for heat hyperalgesia. In unmyelinated nociceptive afferents in rat skin in vitro, a drop of heat threshold and an increase in heat responses were induced by experimental elevation of intracellular calcium ([Ca2+]i) levels with the calcium ionophore ionomycin (10 microM). Similar results were obtained in experiments employing [Ca2+]i release from preloaded "caged calcium" (NITR-5/AM) via UV photolysis. In both cases, sensitization was prevented by preventing rises in [Ca2+]i with the membrane-permeant calcium chelator BAPTA-AM (1 mM). No pronounced change of mechanical sensitivity was observed. Heat-induced membrane currents (Iheat) were investigated with patch-clamp recordings, and simultaneous calcium measurements were performed in small sensory neurons isolated from adult rat dorsal root ganglia (DRG). Ionomycin-induced rises in [Ca2+]i resulted in reversible sensitization of Iheat. In the same subset of DRG neurons, the endogenous algogen ATP (100 microM) was used to elevate [Ca2+]i, which again resulted in significant sensitization of Iheat. In correlative recordings from the skin-nerve preparation, ATP induced heat sensitization of nociceptors, which again could be blocked by preincubation with BAPTA-AM. Rises in [Ca2+]i in response to inflammatory mediators, e.g., ATP, thus appear to play a central role in plastic changes of nociceptors, which may account for hypersensitivity of inflamed tissue.
Journal of Neurophysiology 07/1999; 81(6):2612-9. · 3.32 Impact Factor
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ABSTRACT: The past few years have witnessed a remarkable progress in understanding the neurobiology of pain. Important advances have been made particularly in the field of peripheral signal transduction in nociceptors. Membrane receptors have been identified for capsaicin, a pungent ingredient of chilli peppers, protons (i.e. acidic solutions) and for heat, three stimuli that specifically excite nociceptors. Of particular interest appears to be the first cloned capsaicin receptor, VR1, which has been suggested to serve as an integrator of these three nociceptive stimuli. These findings not only give new insights into the molecular machinery of nociceptor activation and sensitization, but can also provide a rational basis for pharmacological research aiming for a new class of peripherally acting analgesics, which should selectively interfere with nociceptor activation.
Trends in Pharmacological Sciences 04/1999; 20(3):112-8. · 10.93 Impact Factor
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ABSTRACT: The liberation of calcitonin gene-related peptide from rat skin in vitro induced by antidromic electrical stimulation of unmyelinated units is demonstrated. Prostaglandin E2 was released concomitantly during C-fiber stimulation. A dose-dependent increase in prostaglandin E2 content of the eluate was also observed in response to stimulation with substance P (10(-7) to 10(-5) M) and calcitonin gene-related peptide (10(-6) and 10(-5) M). In contrast, prostaglandin E2 did not induce measurable release of neuropeptides. The amount of calcitonin gene-related peptide released during suprathreshold electrical stimulation increased with pulse frequency. Calcitonin gene-related peptide and prostaglandin release were completely inhibited in the presence of EMD 61753, a selective kappa-opioid receptor agonist. No significant release of substance P was observed. The data demonstrate a primary release of calcitonin gene-related peptide from unmyelinated but not myelinated primary afferents in the rat skin, which is accompanied by a secondary liberation of prostaglandin E2, connecting neurogenic inflammation to general mechanisms of inflammation.
Neuroscience 04/1999; 89(1):303-10. · 3.38 Impact Factor
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ABSTRACT: A technique is described that allows the application of fast temperature changes (time constant approximately 300 ms) of solutions superfusing cultured neurones under whole-cell mode of membrane current recording. Its principle is in heating the common outlet of the manifold which consists of 12 tubes connected to barrels containing test solutions of different composition. The outlet is made from a glass capillary (25 mm length, 620/350 microns outer/inner diameter) coated on the outside wall with platinum for a length of 12 mm. The heating element, a platinum layer, is electrically connected to the probe fixed to the micromanipulator used for positioning the manifold. The solutions, driven by gravity, are applied by opening electronic valves controlled either manually or in programmed sequences. The DC current for heating is controlled either manually or by external voltage command. The advantage of the technique is that the same temperature pattern can be applied to 12 different solutions. The technique is used for classifying sensory neurones in culture with respect to their sensitivity to heat and algogens; however, it is applicable to any study of the effects of increased temperature on the activity of ion channels in cultured cells.
Journal of Neuroscience Methods 09/1998; 82(2):195-201. · 1.98 Impact Factor
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ABSTRACT: The excitatory effect of bradykinin (BK) and of low pH on nociceptors appears to partly depend on secondary release of prostaglandins from the surrounding tissue. Rat skin, in vitro, is introduced as a novel model to measure basal and stimulated release of PGE2 and, in future, other substances relevant to nociception, such as neuropeptides. Flaps of hairy skin (n=57) from the rat saphenous region of the hindpaw were subcutaneously excised and fixed on acrylic rods, the corium side exposed. The preparations were equilibrated in carbogen gassed "synthetic interstitial fluid" (SIF) for 30 minutes. The skin flaps were then immersed for 5 minutes each in 9 consecutive glass tubes, which were mounted in a shaking bath at 32 degrees C. Each tube was filled with 5 ml of gassed SIF, the third tube contained inflammatory mediator(s) dissolved in SIF or solutions of low pH. After passage of the skin flap, the eluates were deep frozen (-70 degrees C) and the PGE2 content measured, off-line, using an enzyme immuno-assay. As stimulants, BK at 10(-5) M (n=9) and 10(-6) M (n=4) and BK in equimolar combination with histamine (HA) and serotonin (5-HT; 10(-5) M: n=8, 10(-6) M: n=6, 10(-7) M: n=6) dose-dependently increased PGE2 release. Considering the total amount of PGE2 secreted the combination of inflammatory mediators caused a significantly greater release of PGE2 at 10(-5) and 10(-6) M (p<0.01, Kruskal-Wallis test) than BK stimulation alone. Racemic flurbiprofen caused a profound depression of basal and stimulated release. Solutions of high proton concentration are known to stimulate and sensitize nociceptors. However, phosphate buffered SIF at pH 6.1 and 6.4 caused a substantial and significant decrease of the PGE2 release, probably due to low-pH block of phospholipases. Thus, algogenic potency of mediators does not necessarily match their pro-inflammatory action.
Life Sciences 02/1998; 62(22):2045-55. · 2.53 Impact Factor
