Neural basis for the hyperalgesic action of cholecystokinin in the rostral ventromedial medulla.
about
Structure-activity relationships of bifunctional peptides based on overlapping pharmacophores at opioid and cholecystokinin receptorsDescending control of nociception: Specificity, recruitment and plasticityNeuropathic pain is maintained by brainstem neurons co-expressing opioid and cholecystokinin receptorsInvestigational peptide and peptidomimetic μ and δ opioid receptor agonists in the relief of painThe perception and endogenous modulation of painEffects of exogenous cholecystokinin octapeptide on acquisition of naloxone precipitated withdrawal induced conditioned place aversion in ratsPermanent lesion in rostral ventromedial medulla potentiates swim stress-induced analgesia in formalin test.Descending facilitatory pathways from the rostroventromedial medulla mediate naloxone-precipitated withdrawal in morphine-dependent ratsNeuropeptide Y in the rostral ventromedial medulla reverses inflammatory and nerve injury hyperalgesia in rats via non-selective excitation of local neurons.Design and synthesis of trivalent ligands targeting opioid, cholecystokinin, and melanocortin receptors for the treatment of pain.How placebos change the patient's brain.Non-psychoactive cannabinoids modulate the descending pathway of antinociception in anaesthetized rats through several mechanisms of action.Central modulation of pain.Cholecystokinin receptor-1 mediates the inhibitory effects of exogenous cholecystokinin octapeptide on cellular morphine dependenceNovel peptide ligands with dual acting pharmacophores designed for the pathophysiology of neuropathic pain.Design and synthesis of novel hydrazide-linked bifunctional peptides as delta/mu opioid receptor agonists and CCK-1/CCK-2 receptor antagonists.New paradigms and tools in drug design for pain and addictionActivation of descending pain-facilitatory pathways from the rostral ventromedial medulla by cholecystokinin elicits release of prostaglandin-E₂ in the spinal cord.Differential modulation of neurons in the rostral ventromedial medulla by neurokinin-1 receptors.The narcotic bowel syndrome: clinical features, pathophysiology, and managementChanges in response properties of rostral ventromedial medulla neurons during prolonged inflammation: modulation by neurokinin-1 receptorsAre opioid-sensitive neurons in the rostral ventromedial medulla inhibitory interneurons?Partial retro-inverso, retro, and inverso modifications of hydrazide linked bifunctional peptides for opioid and cholecystokinin (CCK) receptors.Alterations in the rostral ventromedial medulla after the selective ablation of μ-opioid receptor expressing neurons.The dorsomedial hypothalamus mediates stress-induced hyperalgesia and is the source of the pronociceptive peptide cholecystokinin in the rostral ventromedial medulla.Adaptations in responsiveness of brainstem pain-modulating neurons in acute compared with chronic inflammationStructure-activity relationships of bifunctional cyclic disulfide peptides based on overlapping pharmacophores at opioid and cholecystokinin receptors.Glutamate receptor blockade in the rostral ventromedial medulla reduces the force of multisegmental motor responses to supramaximal noxious stimuliChronic morphine exposure increases the proportion of on-cells in the rostral ventromedial medulla in rats.Review of recent advances in analytical techniques for the determination of neurotransmittersMedullary pain facilitating neurons mediate allodynia in headache-related painExploring neuroinflammation as a potential avenue to improve the clinical efficacy of opioids.Neuroplasticity of ascending and descending pathways after somatosensory system injury: reviewing knowledge to identify neuropathic pain therapeutic targets.Cortical and subcortical modulation of pain.NMDA receptor-mediated activation of medullary pro-nociceptive neurons is required for secondary thermal hyperalgesia.A possible neural basis for stress-induced hyperalgesia.Functional interaction between TRPV1 and mu-opioid receptors in the descending antinociceptive pathway activates glutamate transmission and induces analgesia.The Pronociceptive Effect of Paradoxical Sleep Deprivation in Rats: Evidence for a Role of Descending Pain Modulation Mechanisms.NK-1 receptors modulate the excitability of ON cells in the rostral ventromedial medulla.GABAergic transmission and enhanced modulation by opioids and endocannabinoids in adult rat rostral ventromedial medulla.
P2860
Q24548810-7E6AF58A-E2F5-47D9-86DF-587983AF5B8DQ24624664-D8E92A71-8D41-49CE-AE88-4C90598A020DQ24653841-E2E15E81-6A90-49EE-96D0-55E24C2BFD21Q26863769-1D0C8FDE-19F4-45EB-81CA-89BF989FDDCDQ27011310-39074595-ED66-46A7-BF68-448D7C4E2E54Q28481612-DF4ECEF6-712C-4D81-9F12-E16FAD060176Q33593324-50D36369-8890-45CD-9499-25346864CCE4Q33640293-8E793938-9C7E-4363-B54D-910B6105B514Q33807425-92E2827A-AA76-4243-9AD3-02659547EE32Q34049320-3E2057AC-D1C0-42E1-931D-3A494195756FQ34123529-D6E95343-2343-4F81-986E-9ACA626F2F9CQ34143222-CD46E849-EC93-4926-BC36-73B438BE58A6Q34245455-EBC908DB-5FAE-457A-936F-003C11558D7BQ34298025-71ECD559-C2FF-4AE2-A5EF-7C63D4C2329DQ35016925-CF4CDCE9-0F51-434E-881E-A984DDF6D5D0Q35096042-3DDD6CD6-55A7-4A35-B3D1-EED3638CFE33Q35575224-3E10443C-57C8-4015-835B-5E8391027E24Q35633022-EFE402CB-55F9-498F-9E55-DA897946EAABQ35787565-FF06988C-0E7C-4E5F-8D4E-412DACAE7404Q36136622-0720956F-7AB7-42F2-B93F-92195F7D7D63Q36399772-FDB28B10-ADEA-4D0E-9B30-96C8373A304FQ36454451-7A13F7B0-5832-433F-AEFE-DB7108A9DA9DQ36628300-7EAF6F9F-3825-4E9B-AE73-522D280EB2C2Q36791874-A8C66C3E-D61C-4C54-BF27-98E913D9190FQ36802455-B0EC8F50-7DD1-4F37-8F5C-CC3A2627A0B4Q36867757-FB385EDE-B258-4D9A-981B-D31580C045E9Q37012921-D073BF69-1FA0-4638-9580-0F81EF2D7379Q37175134-E85D23F7-3CCA-4A9C-A5B9-10AD0EC6D1ADQ37329947-48D9C883-B405-4B05-9482-4887E608B053Q37381103-9F5F3693-FBB1-4B08-9004-A580B0268E0CQ37409407-6FE7534F-F362-4972-9402-C68F10396F9CQ38066969-892403C3-6749-4445-9C3B-33AE75116855Q38692763-DFC29424-E27F-4FFE-A036-083D2E08E210Q38777501-AFE36CC1-0703-48FC-BEE3-F2636D288B67Q41939667-B79BD6B9-0348-472A-AA0A-A3381F3E77FBQ42066062-1171C239-02CE-4F3A-82C8-F34ABF85B594Q44341967-6BC05949-6AA6-468C-AA3C-204BDDE440FBQ47744184-18CA3671-5C58-4BC7-BB2D-904AC8AF8BADQ48331306-01562697-CE0E-4FA0-9313-198959ECCEF6Q48392213-E58F045B-E094-4BEF-A710-B95C03A420C5
P2860
Neural basis for the hyperalgesic action of cholecystokinin in the rostral ventromedial medulla.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@en
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@nl
type
label
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@en
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@nl
prefLabel
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@en
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@nl
P2860
P356
P1476
Neural basis for the hyperalge ...... rostral ventromedial medulla.
@en
P2093
Mary M Heinricher
Miranda J Neubert
P2860
P304
P356
10.1152/JN.00411.2004
P407
P577
2004-05-19T00:00:00Z