Release of immunoreactive substance P in the brain stem upon stimulation of the cranial dura mater with low pH – inhibition by the serotonin (5‐HT<sub>1</sub>) receptor agonist CP 93,129

Meßlinger, Karl; Ebersberger, Andrea; Schaible, Hans‐Georg

doi:10.1038/sj.bjp.0702247

Cited by 23 publications

(12 citation statements)

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“…evidence that sumatriptan represses secretion of these neurotransmitters from central branches of such nociceptors through modulation of intracellular calcium (30)(31)(32).…”

Section: Discussionmentioning

confidence: 99%

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT _1B/1D receptor agonists

Levy

Jakubowski

Burstein

2004

Proc. Natl. Acad. Sci. U.S.A.

227

191

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Triptans are 5HT1B/1D receptor agonists commonly prescribed for migraine headache. Although originally designed to constrict dilated intracranial blood vessels, the mechanism and site of action by which triptans abort the migraine pain remain unknown. We showed recently that sensitization of peripheral and central trigeminovascular neurons plays an important role in the pathophysiology of migraine pain. Here we examined whether the drug sumatriptan can prevent and͞or suppress peripheral and central sensitization by using single-unit recording in our animal model of intracranial pain. We found that sumatriptan effectively prevented the induction of sensitization (i.e., increased spontaneous firing; increased neuronal sensitivity to intracranial mechanical stimuli) in central trigeminovascular neurons (recorded in the dorsal horn), but not in peripheral trigeminovascular neurons (recorded in the trigeminal ganglion). After sensitization was established in both types of neuron, sumatriptan effectively normalized intracranial mechanical sensitivity of central neurons, but failed to reverse such hypersensitivity in peripheral neurons. In both the peripheral and central neurons, the drug failed to attenuate the increased spontaneous activity established during sensitization. These results suggest that neither peripheral nor central trigeminovascular neurons are directly inhibited by sumatriptan. Rather, triptan action appears to be exerted through presynaptic 5HT 1B/1D receptors in the dorsal horn to block synaptic transmission between axon terminals of the peripheral trigeminovascular neurons and cell bodies of their central counterparts. We therefore suggest that the analgesic action of triptan can be attained specifically in the absence, but not in the presence, of central sensitization. Migraine is a recurring neurological disorder of unilateral headache affecting 18% of women and 6% of men (1, 2). Migraine pain is thought to be driven by activation and sensitization of peripheral neurons in the trigeminal ganglion that innervate the meninges (i.e., meningeal nociceptors) and central trigeminovascular neurons in the upper cervical and medullary dorsal horn. Several lines of evidence suggest that activation of meningeal nociceptors can be initiated locally by release of inflammatory mediators around meningeal blood vessels (3, 4). Upon such activation, meningeal nociceptors become hyperresponsive (sensitized) to the otherwise innocuous fluctuation in intracranial pressure, resulting in the characteristic throbbing of migraine pain (5-7). The sustained firing of sensitized meningeal nociceptors eventually leads to activation and subsequent sensitization of central trigeminovascular neurons (8), which process sensory signals that originate not only from the dura, but also from the periorbital skin, resulting in increased responsiveness not only to mild changes in intracranial pressure but also to innocuous skin stimulation. This central sensitization, which occurs during migraine in many patients (9), is manifested a...

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“…evidence that sumatriptan represses secretion of these neurotransmitters from central branches of such nociceptors through modulation of intracellular calcium (30)(31)(32).…”

Section: Discussionmentioning

confidence: 99%

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT _1B/1D receptor agonists

Levy

Jakubowski

Burstein

2004

Proc. Natl. Acad. Sci. U.S.A.

227

191

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“…10 Serotonin depletion can induce migraine and selective serotonin agonists such as the triptans can alleviate the pain of a migraine headache. Substance P, 11,12 neurokinin A, [13][14][15][16][17] calcitonin gene related peptide, [15][16][17] norepinephrine, GABA, and glutamic acid 8,9 play less significant roles. The brain structures where migraine pathology occurs involve the trigeminal pain pathways, 10,[18][19][20][21][22][23][24] brainstem nuclei including the locus ceruleus and dorsal raphe nuclei, 24 -29 the cerebral vasculature, 22-24,28 -32 the thalamus, 10,19,20,33 and the primary sensory cortex.…”

Section: Migraine Headachesmentioning

confidence: 98%

Headache and Pregnancy

Menon

Bushnell

2008

The Neurologist

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Primary headache disorders, in particular TTHs and migraines, generally improve during pregnancy. However the frequency of improvement varies greatly. Because the pathophysiology of both migraines and TTHs is poorly understood, this limits our ability to predict improvement. Future research should be focused on headache pathophysiology and the effect of ovarian hormones and the pregnant state on headache pathogenesis.

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“…5-HT 1B/D -Agonisten besitzen neben der peripheren auch eine zentrale Wirkung. Es wurde gezeigt, dass die Applikation eines 5-HT 1B/D -Rezeptoragonisten auf den Hirnstamm die Antworten nozizeptiver trigeminaler Neurone senkt und die Freisetzung von Substanz P aus den zentralen Endigungen der primären Afferenzen reduziert [8,33]. Möglicherwei-se ist die Menge an verfügbarem Serotonin an 5-HT 1B/D -Rezeptoren für die Sensitivität des trigeminovaskulären Systems verantwortlich [8,9].…”

Section: Die Rolle Von Serotoninunclassified

Pathophysiologie der Migräne

Ebersberger

2002

Der Anaesthesist

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Migraine attacks can be elicited by many different trigger situations such as light, food and the menstruation cycle. However, patients share a common pathophysiology, and a number of theories have been proposed as to how migraine can be generated. After a brief introduction of the trigeminal nociceptive system, 4 attempts to explain the generation of migraine attacks are described and discussed: One deals with the "cortical spreading depression (CSD) theory" which favors a cortical dysfunction. The second provides some evidence that a genetic mutation of calcium channels might be the cause. The third is based on a pathophysiological role of endogenous serotonin because serotonin agonists are effective drugs in the treatment of migraine and the last one postulates a migraine generator in the brainstem.

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Release of immunoreactive substance P in the brain stem upon stimulation of the cranial dura mater with low pH – inhibition by the serotonin (5‐HT₁) receptor agonist CP 93,129

Cited by 23 publications

References 50 publications

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT _1B/1D receptor agonists

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT _1B/1D receptor agonists

Headache and Pregnancy

Pathophysiologie der Migräne

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Release of immunoreactive substance P in the brain stem upon stimulation of the cranial dura mater with low pH – inhibition by the serotonin (5‐HT1) receptor agonist CP 93,129

Cited by 23 publications

References 50 publications

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT 1B/1D receptor agonists

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT 1B/1D receptor agonists

Headache and Pregnancy

Pathophysiologie der Migräne

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Product

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Release of immunoreactive substance P in the brain stem upon stimulation of the cranial dura mater with low pH – inhibition by the serotonin (5‐HT₁) receptor agonist CP 93,129

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT _1B/1D receptor agonists

Disruption of communication between peripheral and central trigeminovascular neurons mediates the antimigraine action of 5HT _1B/1D receptor agonists