Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain

Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain

Peripheral mechanisms of primary headaches such as a migraine remain unclear. Meningeal afferents surrounded by multiple mast cells have been suggested as a major source of migraine pain. Extracellular ATP released during migraine attacks is a likely candidate for activating meningeal afferents via...

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Main Authors: Ksenia Koroleva, Oleg Gafurov, Valeriia Guselnikova, Dilyara Nurkhametova, Raisa Giniatullina, Guzel Sitdikova, Olli S. Mattila, Perttu J. Lindsberg, Tarja Maarit Malm, Rashid Giniatullin
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-05-01
Series:Frontiers in Cellular Neuroscience
Subjects:
ATP
5-HT3
mast cells
pain
migraine
Online Access:https://www.frontiersin.org/article/10.3389/fncel.2019.00195/full
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spelling doaj-828fe8416f824bfca30a1911190709282020-11-25T02:23:09ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022019-05-011310.3389/fncel.2019.00195460735Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine PainKsenia Koroleva0Ksenia Koroleva1Oleg Gafurov2Valeriia Guselnikova3Valeriia Guselnikova4Dilyara Nurkhametova5Dilyara Nurkhametova6Raisa Giniatullina7Guzel Sitdikova8Olli S. Mattila9Perttu J. Lindsberg10Tarja Maarit Malm11Rashid Giniatullin12Rashid Giniatullin13Laboratory of Neurobiology, Kazan Federal University, Kazan, RussiaA. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, FinlandLaboratory of Neurobiology, Kazan Federal University, Kazan, RussiaA. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, FinlandDepartment of General and Special Morphology, Institute of Experimental Medicine, Saint Petersburg, RussiaLaboratory of Neurobiology, Kazan Federal University, Kazan, RussiaA. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, FinlandA. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, FinlandLaboratory of Neurobiology, Kazan Federal University, Kazan, RussiaDepartment of Neurology and Clinical Neurosciences, University of Helsinki and Helsinki University Hospital, Helsinki, FinlandDepartment of Neurology and Clinical Neurosciences, University of Helsinki and Helsinki University Hospital, Helsinki, FinlandA. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, FinlandLaboratory of Neurobiology, Kazan Federal University, Kazan, RussiaA. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, FinlandPeripheral mechanisms of primary headaches such as a migraine remain unclear. Meningeal afferents surrounded by multiple mast cells have been suggested as a major source of migraine pain. Extracellular ATP released during migraine attacks is a likely candidate for activating meningeal afferents via neuronal P2X receptors. Recently, we showed that ATP also increased degranulation of resident meningeal mast cells (Nurkhametova et al., 2019). However, the contribution of ATP-induced mast cell degranulation in aggravating the migraine pain remains unknown. Here we explored the role of meningeal mast cells in the pro-nociceptive effects of extracellular ATP. The impact of mast cells on ATP mediated activation of peripheral branches of trigeminal nerves was measured electrophysiologically in the dura mater of adult wild type (WT) or mast cell deficient mice. We found that a spontaneous spiking activity in the meningeal afferents, at baseline level, did not differ in two groups. However, in WT mice, meningeal application of ATP dramatically (24.6-fold) increased nociceptive firing, peaking at frequencies around 10 Hz. In contrast, in mast cell deficient animals, ATP-induced excitation was significantly weaker (3.5-fold). Application of serotonin to meninges in WT induced strong spiking. Moreover, in WT mice, the 5-HT3 antagonist MDL-7222 inhibited not only serotonin but also the ATP induced nociceptive firing. Our data suggest that extracellular ATP activates nociceptive firing in meningeal trigeminal afferents via amplified degranulation of resident mast cells in addition to direct excitatory action on the nerve terminals. This highlights the importance of mast cell degranulation via extracellular ATP, in aggravating the migraine pain.https://www.frontiersin.org/article/10.3389/fncel.2019.00195/fullATP5-HT3mast cellspainmigraine
collection DOAJ
language English
format Article
sources DOAJ
author Ksenia Koroleva
Ksenia Koroleva
Oleg Gafurov
Valeriia Guselnikova
Valeriia Guselnikova
Dilyara Nurkhametova
Dilyara Nurkhametova
Raisa Giniatullina
Guzel Sitdikova
Olli S. Mattila
Perttu J. Lindsberg
Tarja Maarit Malm
Rashid Giniatullin
Rashid Giniatullin
spellingShingle Ksenia Koroleva
Ksenia Koroleva
Oleg Gafurov
Valeriia Guselnikova
Valeriia Guselnikova
Dilyara Nurkhametova
Dilyara Nurkhametova
Raisa Giniatullina
Guzel Sitdikova
Olli S. Mattila
Perttu J. Lindsberg
Tarja Maarit Malm
Rashid Giniatullin
Rashid Giniatullin
Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain
Frontiers in Cellular Neuroscience
ATP
5-HT3
mast cells
pain
migraine
author_facet Ksenia Koroleva
Ksenia Koroleva
Oleg Gafurov
Valeriia Guselnikova
Valeriia Guselnikova
Dilyara Nurkhametova
Dilyara Nurkhametova
Raisa Giniatullina
Guzel Sitdikova
Olli S. Mattila
Perttu J. Lindsberg
Tarja Maarit Malm
Rashid Giniatullin
Rashid Giniatullin
author_sort Ksenia Koroleva
title Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain
title_short Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain
title_full Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain
title_fullStr Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain
title_full_unstemmed Meningeal Mast Cells Contribute to ATP-Induced Nociceptive Firing in Trigeminal Nerve Terminals: Direct and Indirect Purinergic Mechanisms Triggering Migraine Pain
title_sort meningeal mast cells contribute to atp-induced nociceptive firing in trigeminal nerve terminals: direct and indirect purinergic mechanisms triggering migraine pain
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2019-05-01
description Peripheral mechanisms of primary headaches such as a migraine remain unclear. Meningeal afferents surrounded by multiple mast cells have been suggested as a major source of migraine pain. Extracellular ATP released during migraine attacks is a likely candidate for activating meningeal afferents via neuronal P2X receptors. Recently, we showed that ATP also increased degranulation of resident meningeal mast cells (Nurkhametova et al., 2019). However, the contribution of ATP-induced mast cell degranulation in aggravating the migraine pain remains unknown. Here we explored the role of meningeal mast cells in the pro-nociceptive effects of extracellular ATP. The impact of mast cells on ATP mediated activation of peripheral branches of trigeminal nerves was measured electrophysiologically in the dura mater of adult wild type (WT) or mast cell deficient mice. We found that a spontaneous spiking activity in the meningeal afferents, at baseline level, did not differ in two groups. However, in WT mice, meningeal application of ATP dramatically (24.6-fold) increased nociceptive firing, peaking at frequencies around 10 Hz. In contrast, in mast cell deficient animals, ATP-induced excitation was significantly weaker (3.5-fold). Application of serotonin to meninges in WT induced strong spiking. Moreover, in WT mice, the 5-HT3 antagonist MDL-7222 inhibited not only serotonin but also the ATP induced nociceptive firing. Our data suggest that extracellular ATP activates nociceptive firing in meningeal trigeminal afferents via amplified degranulation of resident mast cells in addition to direct excitatory action on the nerve terminals. This highlights the importance of mast cell degranulation via extracellular ATP, in aggravating the migraine pain.
topic ATP
5-HT3
mast cells
pain
migraine
url https://www.frontiersin.org/article/10.3389/fncel.2019.00195/full
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