Distinct roles of matrix metalloproteases in the early- and late-phase development of neuropathic pain
about
Differential involvement of trigeminal transition zone and laminated subnucleus caudalis in orofacial deep and cutaneous hyperalgesia: the effects of interleukin-10 and glial inhibitorsGlial cells and chronic painResolvins RvE1 and RvD1 attenuate inflammatory pain via central and peripheral actionsPathological and protective roles of glia in chronic painThe promises and pitfalls of RNA-interference-based therapeuticsInteractions of Opioids and HIV Infection in the Pathogenesis of Chronic PainMicroglia in the spinal cord and neuropathic painMicroglia and spinal cord synaptic plasticity in persistent painSynaptic circuit remodelling by matrix metalloproteinases in health and diseaseThe significance of matrix metalloproteinases in the immunopathogenesis and treatment of multiple sclerosisRole of PAF receptor in proinflammatory cytokine expression in the dorsal root ganglion and tactile allodynia in a rodent model of neuropathic painIntrathecal bone marrow stromal cells inhibit neuropathic pain via TGF-β secretion.Food-Derived Natural Compounds for Pain Relief in Neuropathic PainImplication of Hypothalamus in Alleviating Spinal Cord Injury-Induced Neuropathic PainGlial contributions to visceral pain: implications for disease etiology and the female predominance of persistent painEmerging targets in neuroinflammation-driven chronic painBrief, low frequency stimulation of rat peripheral C-fibres evokes prolonged microglial-induced central sensitization in adults but not in neonatesNOV/CCN3 attenuates inflammatory pain through regulation of matrix metalloproteinases-2 and -9Adenosine Monophosphate-activated Protein Kinase (AMPK) Activators For the Prevention, Treatment and Potential Reversal of Pathological Pain.MAP kinase and pain.Hypolocomotion, asymmetrically directed behaviors (licking, lifting, flinching, and shaking) and dynamic weight bearing (gait) changes are not measures of neuropathic pain in miceAttenuation of myogenic orofacial nociception and mechanical hypersensitivity by viral mediated enkephalin overproduction in male and female ratsDifferential expression of Cathepsin S and X in the spinal cord of a rat neuropathic pain modelComparison of the Expression Changes after Botulinum Toxin Type A and Minocycline Administration in Lipopolysaccharide-Stimulated Rat Microglial and Astroglial Cultures.T-cell infiltration and signaling in the adult dorsal spinal cord is a major contributor to neuropathic pain-like hypersensitivity.Matrix metalloproteinase 2 inhibition: combined quantum mechanics and molecular mechanics studies of the inhibition mechanism of (4-phenoxyphenylsulfonyl)methylthiirane and its oxirane analogue.Matrix metalloproteinase 2 (MMP2) inhibition: DFT and QM/MM studies of the deprotonation-initialized ring-opening reaction of the sulfoxide analogue of SB-3CT.Neuroprotective effects of overexpressing tissue inhibitor of metalloproteinase TIMP-1.Targeting the Microglial Signaling Pathways: New Insights in the Modulation of Neuropathic Pain.Microinjection of IL-1β into the trigeminal transition zone produces bilateral NMDA receptor-dependent orofacial hyperalgesia involving descending circuitry.Folic Acid Modulates Matrix Metalloproteinase-2 Expression, Alleviates Neuropathic Pain, and Improves Functional Recovery in Spinal Cord-Injured Rats.Preliminary study on pain reduction of monosodium iodoacetate-induced knee osteoarthritis in rats by carbon dioxide laser moxibustion.MMPs initiate Schwann cell-mediated MBP degradation and mechanical nociception after nerve damage.Astrocyte Activation in Locus Coeruleus Is Involved in Neuropathic Pain Exacerbation Mediated by Maternal Separation and Social Isolation Stress.Protection of retinal ganglion cells by caspase substrate-binding peptide IQACRG from N-methyl-D-aspartate receptor-mediated excitotoxicity.Nerve injury evoked loss of latexin expression in spinal cord neurons contributes to the development of neuropathic painPathological pain and the neuroimmune interface.Connexin-43 induces chemokine release from spinal cord astrocytes to maintain late-phase neuropathic pain in mice.The astrocyte-targeted therapy by Bushi for the neuropathic pain in mice.Long lasting pain hypersensitivity following ligation of the tendon of the masseter muscle in rats: a model of myogenic orofacial pain
P2860
Q21203940-B8FDB75D-8DEB-4AE5-AD84-7A41B27ED8A5Q24603427-CBFB6D03-3518-4C0D-860B-E5247CFC2379Q24626122-7AB56532-781B-40F5-82B7-1B054A150325Q24646738-40DDD80B-0C53-4D59-91FE-A6B378FB73BAQ24657247-9AF94306-5D6B-4BB6-BF2A-78FFC44336EDQ26768068-73EECEA6-3A1F-4A1A-AC7A-295F20C62A4EQ26774353-6662C4A2-6A04-4B39-BF88-4987AA04E040Q26866495-4D974E42-7746-4DF8-A50A-893C367737B6Q27005718-D31301AB-A353-4ED2-9C33-B656C564EA62Q27009126-AF4E25E3-D0BD-4EF3-97FA-0EEE5FFC5FB0Q27329693-017888FD-A506-44ED-A06B-3B9B00CF8574Q27332195-648FCCAD-2738-4FD8-A1A4-92841562E4FCQ28068743-ACE85F4C-3A17-4D48-83E3-7F34DFF79465Q28075775-4222F023-CA3B-4089-8D85-136A0E833FE9Q28077690-75A17E0F-C4DD-461E-A223-829280D7DBA2Q28242435-6210E57C-74B4-4420-9B55-A3C6D4340355Q28582004-9399A401-187F-4502-85F7-18B463EE3FBCQ28582114-4894E2E2-C3B4-4827-B743-EED9122CF4F2Q30383901-D4E88156-FEED-4793-AFC7-9C14482C2ABCQ30482277-DC51D248-9AB9-40B4-AD6A-A11285C21F31Q30495173-75E48EA5-294D-457B-8557-A576D44CDE5CQ30630884-1ABB7BD6-1B5D-4BED-A1C7-4E1C06F85FF2Q33359738-560A5245-C0FD-44F5-B68D-7F2872A9D8C0Q33603235-E0133738-1407-4704-B7F9-946B3AA096E0Q33619939-36F79EAB-CDB0-402D-8BD7-99A326D3E74BQ33638905-058A5BD9-8696-442B-8B5C-1ABA6B6A96DDQ33652126-025EBF34-62B3-43F7-B8A1-FB3FA78BC298Q33657719-D886F82E-3587-4FC3-B58D-9C066CDB3736Q33668659-EF5360A2-69D2-4327-BFD5-9A67C5568418Q33714148-64F6A7C6-C766-470F-84E0-3458B321CD5DQ33738414-0C6FC79B-05D7-4438-AEF4-D259786F57FBQ33820813-5A74B905-95CE-4D02-B04A-DD7941A653CDQ33834828-FB76F1EB-E28A-4E07-973A-1E475DA7C36EQ33843049-FF89413F-48DC-469C-AB47-2C625B1D7DB4Q33845365-95D0E808-A78C-4D4A-AF9B-F201BE336D3CQ33900077-2F47445D-3A13-4251-95C6-71DD119A7F73Q33925677-AB673851-ACAC-4827-81D9-5326A4812BBDQ33937485-CCE78212-8633-4353-87D5-1D1A2673D7D7Q34005490-A279E3DC-4911-4811-8FDD-2D20D509DE4DQ34036354-EE0C318E-C768-43DE-9CF7-4E22BE179E5B
P2860
Distinct roles of matrix metalloproteases in the early- and late-phase development of neuropathic pain
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Distinct roles of matrix metal ...... evelopment of neuropathic pain
@en
Distinct roles of matrix metal ...... velopment of neuropathic pain.
@nl
type
label
Distinct roles of matrix metal ...... evelopment of neuropathic pain
@en
Distinct roles of matrix metal ...... velopment of neuropathic pain.
@nl
prefLabel
Distinct roles of matrix metal ...... evelopment of neuropathic pain
@en
Distinct roles of matrix metal ...... velopment of neuropathic pain.
@nl
P2093
P2860
P50
P356
P1433
P1476
Distinct roles of matrix metal ...... evelopment of neuropathic pain
@en
P2093
Gabriel Corfas
Kristine Roy
Ping-Heng Tan
Xiaoying Wang
Yasuhiko Kawasaki
Zhen-Zhong Xu
Zhi-Ye Zhuang
P2860
P2888
P304
P356
10.1038/NM1723
P407
P577
2008-02-10T00:00:00Z