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      El dolor espontáneo es muy "simpático" Translated title: Spontaneous pain is very "sympathetic"

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      Revista de la Sociedad Española del Dolor
      Inspira Network Group, S.L

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          Most cited references11

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          The capsaicin receptor: a heat-activated ion channel in the pain pathway.

          Capsaicin, the main pungent ingredient in 'hot' chilli peppers, elicits a sensation of burning pain by selectively activating sensory neurons that convey information about noxious stimuli to the central nervous system. We have used an expression cloning strategy based on calcium influx to isolate a functional cDNA encoding a capsaicin receptor from sensory neurons. This receptor is a non-selective cation channel that is structurally related to members of the TRP family of ion channels. The cloned capsaicin receptor is also activated by increases in temperature in the noxious range, suggesting that it functions as a transducer of painful thermal stimuli in vivo.
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            Piezo1 and Piezo2 are essential components of distinct mechanically activated cation channels.

            Mechanical stimuli drive many physiological processes, including touch and pain sensation, hearing, and blood pressure regulation. Mechanically activated (MA) cation channel activities have been recorded in many cells, but the responsible molecules have not been identified. We characterized a rapidly adapting MA current in a mouse neuroblastoma cell line. Expression profiling and RNA interference knockdown of candidate genes identified Piezo1 (Fam38A) to be required for MA currents in these cells. Piezo1 and related Piezo2 (Fam38B) are vertebrate multipass transmembrane proteins with homologs in invertebrates, plants, and protozoa. Overexpression of mouse Piezo1 or Piezo2 induced two kinetically distinct MA currents. Piezos are expressed in several tissues, and knockdown of Piezo2 in dorsal root ganglia neurons specifically reduced rapidly adapting MA currents. We propose that Piezos are components of MA cation channels.
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              Peripheral nerve injury triggers noradrenergic sprouting within dorsal root ganglia.

              In humans, trauma to a peripheral nerve may be followed by chronic pain syndromes which are only relieved by blockade of the effects of sympathetic impulse traffic. It is presumed that, after the lesion, noradrenaline released by activity of sympathetic postganglionic axons excites primary afferent neurons by activating alpha-adrenoceptors, generating signals that enter the 'pain pathways' of the central nervous system. The site of coupling is unclear. In some patients local anaesthesia of the relevant peripheral nerve does not alleviate pain, implying that ectopic impulses arise either within the central nervous system, or in proximal parts of the primary afferent neurons. In experimentally lesioned rats, activity can originate within the dorsal root ganglia. Here we report that, after sciatic nerve ligation, noradrenergic perivascular axons in rats sprout into dorsal root ganglia and form basket-like structures around large-diameter axotomized sensory neurons; sympathetic stimulation can activate such neurons repetitively. These unusual connections provide a possible origin for abnormal discharge following peripheral nerve damage. Further, in contrast to the sprouting of intact nerve terminals into nearby denervated effector tissues in skin, muscle, sympathetic ganglia and sweat glands, the axons sprout into a target which has not been partially denervated.
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                Author and article information

                Journal
                dolor
                Revista de la Sociedad Española del Dolor
                Rev. Soc. Esp. Dolor
                Inspira Network Group, S.L (Madrid, Madrid, Spain )
                1134-8046
                February 2022
                : 29
                : 1
                : 4-5
                Affiliations
                [2] Granada Andalucía orgnameUniversidad de Granada orgdiv1Centro de Investigación Biomédica orgdiv2Instituto de Neurociencias Spain
                [1] Granada Andalucía orgnameUniversidad de Granada orgdiv1Facultad de Medicina orgdiv2Departamento de Farmacología Spain
                [4] Granada orgnameSociedad Española del Dolor orgdiv1Grupo de Trabajo en Ciencias Básicas en Dolor y Analgesia España
                [3] Granada Andalucía orgnameUniversidad de Granada orgdiv1Complejo Hospitalario Universitario de Granada orgdiv2Instituto de Investigación Biosanitaria ibs.Granada Spain
                Article
                S1134-80462022000100004 S1134-8046(22)02900100004
                10.20986/resed.2022.3999/2022
                31ab3a49-d5c2-4fa7-bf0e-124c05ca88d1

                This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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                Figures: 0, Tables: 0, Equations: 0, References: 11, Pages: 2
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                SciELO Spain

                Categories
                Avances en Dolor

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