Carlos A. Parada scite author profile

We hypothesized that TRPV4, a member of the transient receptor family of ion channels, functions as a sensory transducer for osmotic stimulus-induced nociception. We found that, as expected for a transducer molecule, TRPV4 protein is transported in sensory nerve distally toward the peripheral nerve endings. In vivo single-fiber recordings in rat showed that hypotonic solution activated 54% of C-fibers, an effect enhanced by the hyperalgesic inflammatory mediator prostaglandin E2. This osmotransduction causes nociception, since administration of a small osmotic stimulus into skin sensitized by PGE2 produced pain-related behavior. Antisense-induced decrease in expression of TRPV4 confirmed that the channel is required for hypotonic stimulus-induced nociception. Thus, we conclude that TRPV4 can function as an osmo-transducer in primary afferent nociceptive nerve fibers. Because this action is enhanced by an inflammatory mediator, TRPV4 may be important in pathological states and may be an attractive pharmacological target for the development of novel analgesics.

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Crucial role of neutrophils in the development of mechanical inflammatory hypernociception

Cunha

et al. 2008

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Neutrophil migration is responsible for tissue damage observed in inflammatory diseases. Neutrophils are also implicated in inflammatory nociception, but mechanisms of their participation have not been elucidated. In the present study, we addressed these mechanisms in the carrageenan-induced mechanical hypernociception, which was determined using a modification of the Randall-Sellito test in rats. Neutrophil accumulation into the plantar tissue was determined by the contents of myeloperoxidase activity, whereas cytokines and PGE(2) levels were measured by ELISA and radioimmunoassay, respectively. The pretreatment of rats with fucoidin (a leukocyte adhesion inhibitor) inhibited carrageenan-induced hypernociception in a dose- and time-dependent manner. Inhibition of hypernociception by fucoidin was associated with prevention of neutrophil recruitment, as it did not inhibit the hypernociception induced by the direct-acting hypernociceptive mediators, PGE(2) and dopamine, which cause hypernociception, independent of neutrophils. Fucoidin had no effect on carrageenan-induced TNF-alpha, IL-1beta, and cytokine-induced neutrophil chemoattractant 1 (CINC-1)/CXCL1 production, suggesting that neutrophils were not the source of hypernociceptive cytokines. Conversely, hypernociception and neutrophil migration induced by TNF-alpha, IL-1beta, and CINC-1/CXCL1 was inhibited by fucoidin, suggesting that neutrophils are involved in the production of direct-acting hypernociceptive mediators. Indeed, neutrophils stimulated in vitro with IL-1beta produced PGE(2), and IL-1beta-induced PGE(2) production in the rat paw was inhibited by the pretreatment with fucoidin. In conclusion, during the inflammatory process, the migrating neutrophils participate in the cascade of events leading to mechanical hypernociception, at least by mediating the release of direct-acting hypernociceptive mediators, such as PGE(2). Therefore, the blockade of neutrophil migration could be a target to development of new analgesic drugs.

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An electronic pressure-meter nociception paw test for mice

Cunha

Verri

Vivancos

et al. 2004

Braz J Med Biol Res

319

181

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The aim of the present investigation was to describe and validate an electronic mechanical test for quantification of the intensity of inflammatory nociception in mice. The electronic pressure-meter test consists of inducing the animal hindpaw flexion reflex by poking the plantar region with a polypropylene pipette tip adapted to a hand-held force transducer. This method was compared to the classical von Frey filaments test in which pressure intensity is automatically recorded after the nociceptive hindpaw flexion reflex. The electronic pressure-meter and the von Frey filaments were used to detect time versus treatment interactions of carrageenininduced hypernociception. In two separate experiments, the electronic pressure-meter was more sensitive than the von Frey filaments for the detection of the increase in nociception (hypernociception) induced by small doses of carrageenin (30 µg). The electronic pressure-meter detected the antinociceptive effect of nonsteroidal drugs in a dose-dependent manner. Indomethacin administered intraperitoneally (1.8-15 mg/kg) or intraplantarly (30-300 µg/ paw) prevented the hypersensitive effect of carrageenin (100 µg/ paw). The electronic pressure-meter also detected the hypernociceptive effect of prostaglandin E 2 (PGE 2 ; 10-100 ng) in a dosedependent manner. The hypernociceptive effect of PGE 2 (100 ng) was blocked by dipyrone (160 and 320 µg/paw) but not by intraplantar administration of indomethacin (300 µg/paw). The present results validate the use of the electronic pressure-meter as more sensitive than the von Frey filaments in mice. Furthermore, it is an objective and quantitative nociceptive test for the evaluation of the peripheral antinociceptive effect of anti-inflammatory analgesic drugs, which inhibit prostaglandin synthesis (indomethacin) or directly block the ongoing hypernociception (dipyrone).

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Transient attenuation of protein kinase Cϵ can terminate a chronic hyperalgesic state in the rat

et al. 2003

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Tumor necrosis factor receptor type‐1 in sensory neurons contributes to induction of chronic enhancement of inflammatory hyperalgesia in rat

Parada

Yeh

Joseph

et al. 2003

Eur J of Neuroscience

158

157

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Carrageenan-induced inflammatory pain lasting hours to days produces a protein kinase C epsilon (PKC epsilon )-dependent 'primed' state lasting several weeks, during which time injection of prostaglandin E2 induces hyperalgesia which is markedly enhanced and prolonged compared to PGE2-induced hyperalgesia in normal 'unprimed' rats. In the present study, we demonstrate that while inhibition of prostaglandin synthesis and antagonism of beta2-adrenergic receptors markedly attenuated the hyperalgesia induced by carrageenan, these interventions did not affect hyperalgesic priming. Tumor necrosis factor-alpha (rat recombinant; rrTNFalpha), another mediator of carrageenan-induced inflammation, alone produced hyperalgesia and priming, which were attenuated and prevented, respectively, by intrathecal administration of antisense to PKC epsilon. Inhibition of TNFalpha with thalidomide or a rat polyclonal anti-TNFalpha antibody attenuated carrageenan-induced hyperalgesia and prevented priming. Intrathecal administration of antisense to tumour necrosis factor receptor type-1 (TNFR1) reduced the level of TNFR1 transported toward the peripheral terminals of sensory neurons, and attenuated both carrageenan- and rrTNFalpha-induced priming. Acute hyperalgesia induced by carrageenan or rrTNFalpha remained intact in animals treated with TNFR1 antisense. Our results demonstrate that the generation of the primed state does not require production of hyperalgesia and that TNFalpha, which is generated during acute inflammation, can act on sensory neurons to induce hyperalgesic priming by activating neuronal PKC epsilon.

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Development of a behavioral model of TMJ pain in rats: the TMJ formalin test

et al. 2001

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Temporomandibular joint (TMJ) pain conditions are poorly understood. Since formalin is a noxious stimulus widely used in animal behavioral experiments for studying pain mechanisms, the aim of this study was to develop a behavioral model to study the TMJ pain conditions by characterizing the nociceptive behavioral responses induced by the injection of formalin into the TMJ region of rats. NaCl (0.9%) or different concentrations of formalin (0.5, 1.5, 2.5 or 5%) were administrated into the TMJ region. The formalin-induced behavioral responses characterized by moving the mandible, rubbing the orofacial region and flinching the head quickly were quantified for 45 min. The TMJ injection of formalin significantly increased the asymmetrical orofacial rubbing and head flinching behaviors, but not the movement of the mandible with concentrations of 1.5% and above (P<0.05, Dunn's test) when compared with the NaCl (0.9%) injection. These responses were significantly reduced (P<0.05, Mann-Whitney test) by the co-application of lidocaine N-ethyl bromide quaternary salt, QX-314 (2%), and by the administration of intraperitoneal morphine (4 mg/kg) 30 min prior to the TMJ formalin injection. This study demonstrates that the injection of formalin into the TMJ region of rats produces quantitative nociceptive behaviors constituting a novel behavioral model for TMJ pain.

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An electronic pressure-meter nociception paw test for rats

Vivancos

Verri

Cunha

et al. 2004

Braz J Med Biol Res

194

118

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The objective of the present investigation was to compare the sensitivity of an electronic nociceptive mechanical paw test with classical mechanical tests to quantify the intensity variation of inflammatory nociception. The electronic pressure-meter test consists of inducing the hindpaw flexion reflex by poking the plantar region with a polypropylene pipette tip adapted to a hand-held force transducer. This method was compared with the classical von Frey filaments test and with the rat paw constant pressure test, a modification of the Randall and Selitto test developed by our group. When comparing the three methods, the electronic pressure-meter and the rat paw constant pressure test, but not the von Frey filaments test, detected time vs treatment interactions in prostaglandin E 2 (PGE 2 )-induced hypernociception. Both methods also detected the PGE 2 -induced hypernociception in dose-(50-400 ng/ paw) and time-(1-4 h) dependent manners, and time vs treatment interactions induced by carrageenin (25-400 µg/paw). Furthermore, the electronic pressure-meter test was more sensitive at early times, whereas the constant pressure test was more sensitive at later times. Moreover, the electronic pressure-meter test detected the dose-dependent antinociceptive effect of local indomethacin (30-300 µg/paw) and dipyrone (80-320 µg/paw) on carrageenin-(200 µg/paw) and PGE 2 -(100 ng/paw) induced hypernociception, respectively, and also detected the ineffectiveness of indomethacin (300 µg) on the effect of PGE 2 . Our results show that the electronic pressure-meter provides a sensitive, objective and quantitative mechanical nociceptive test that could be useful to characterize new nociceptive inflammatory mediators and also to evaluate new peripheral analgesic substances. Correspondence

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Carlos A. Parada

Hypernociceptive role of cytokines and chemokines: Targets for analgesic drug development?

Hypotonicity Induces TRPV4-Mediated Nociception in Rat

Crucial role of neutrophils in the development of mechanical inflammatory hypernociception

An electronic pressure-meter nociception paw test for mice

Transient attenuation of protein kinase Cϵ can terminate a chronic hyperalgesic state in the rat

Tumor necrosis factor receptor type‐1 in sensory neurons contributes to induction of chronic enhancement of inflammatory hyperalgesia in rat

Development of a behavioral model of TMJ pain in rats: the TMJ formalin test

An electronic pressure-meter nociception paw test for rats

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