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W2119264815 abstract "Long-lasting neuropathic pain has been attributed to elevated neuronal plasticity changes in spinal, peripheral and cortical levels. Here, we found that reduced neuronal plasticity in the ventrolateral periaqueductal grey (vlPAG), a midbrain region important for initiating descending pain inhibition, may also contribute to neuropathic pain. Forskolin- and isoproterenol (isoprenaline)-elicited EPSC potentiation was impaired in the vlPAG of a rat model of neuropathic pain induced by spinal nerve injury. Down-regulation of adenylyl cyclase-cAMP- PKA signalling, due to impaired adenylyl cyclase, but not phosphodiesterase, in glutamatergic terminals may contribute to the hypofunction of excitatory synaptic plasticity in the vlPAG of neuropathic rats and the subsequent descending pain inhibition, ultimately leading to long-lasting neuropathic pain. Our results suggest that drugs that activate adenylyl cyclase in the vlPAG have the potential for relieving neuropathic pain.Neuropathic pain has been attributed to nerve injury-induced elevation of peripheral neuronal discharges and spinal excitatory synaptic plasticity while little is known about the contribution of neuroplasticity changes in the brainstem. Here, we examined synaptic plasticity changes in the ventrolateral (vl) periaqueductal grey (PAG), a crucial midbrain region for initiating descending pain inhibition, in spinal nerve ligation (SNL)-induced neuropathic rats. In vlPAG slices of sham-operated rats, forskolin, an adenylyl cyclase (AC) activator, produced long-lasting enhancement of EPSCs. This is a presynaptic effect since forskolin decreased the paired-pulse ratio and failure rate of EPSCs, and increased the frequency, but not the amplitude, of miniature EPSCs. Forskolin-induced EPSC potentiation was mimicked by a β-adrenergic agonist (isoproterenol (isoprenaline)), and prevented by an AC inhibitor (SQ 22536) and a cAMP-dependent protein kinase (PKA) inhibitor (H89), but not by a phosphodiesterase (PDE) inhibitor (Ro 20-1724) or an A1 -adenosine antagonist (DPCPX). Both forskolin- and isoproterenol-induced EPSC potentiation was impaired in PAG slices of SNL rats. The SNL group had lower AC, but not PDE, activity in PAG synaptosomes than the sham group. Conversely, IPSCs in vlPAG slices were not different between SNL and sham groups. Intra-vlPAG microinjection of forskolin alleviated SNL-induced mechanical allodynia in rats. These results suggest that SNL leads to inadequate descending pain inhibition resulting from impaired glutamatergic synaptic plasticity mediated by the AC-cAMP-PKA signalling cascade, possibly due to AC down-regulation in the PAG, leading to long-term neuropathic pain." @default.
W2119264815 created "2016-06-24" @default.
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W2119264815 creator A5012207972 @default.
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W2119264815 date "2015-05-14" @default.
W2119264815 modified "2023-10-04" @default.
W2119264815 title "Impairment of adenylyl cyclase‐mediated glutamatergic synaptic plasticity in the periaqueductal grey in a rat model of neuropathic pain" @default.
W2119264815 cites W1511820456 @default.
W2119264815 cites W1523949186 @default.
W2119264815 cites W1551550807 @default.
W2119264815 cites W1558972555 @default.
W2119264815 cites W1626809853 @default.
W2119264815 cites W180788233 @default.
W2119264815 cites W1966234453 @default.
W2119264815 cites W1969205548 @default.
W2119264815 cites W1985333845 @default.
W2119264815 cites W1992618805 @default.
W2119264815 cites W1992903046 @default.
W2119264815 cites W1999474262 @default.
W2119264815 cites W2004551214 @default.
W2119264815 cites W2008792865 @default.
W2119264815 cites W2010103767 @default.
W2119264815 cites W2013718038 @default.
W2119264815 cites W2016655511 @default.
W2119264815 cites W2020348231 @default.
W2119264815 cites W2022180074 @default.
W2119264815 cites W2031969484 @default.
W2119264815 cites W2038905876 @default.
W2119264815 cites W2040318996 @default.
W2119264815 cites W2040867283 @default.
W2119264815 cites W2044687772 @default.
W2119264815 cites W2046929321 @default.
W2119264815 cites W2051473177 @default.
W2119264815 cites W2052969380 @default.
W2119264815 cites W2058219079 @default.
W2119264815 cites W2058406386 @default.
W2119264815 cites W2058606775 @default.
W2119264815 cites W2060726775 @default.
W2119264815 cites W2066530870 @default.
W2119264815 cites W2067988122 @default.
W2119264815 cites W2069197908 @default.
W2119264815 cites W2087884532 @default.
W2119264815 cites W2094795912 @default.
W2119264815 cites W2094923905 @default.
W2119264815 cites W2095506597 @default.
W2119264815 cites W2096081604 @default.
W2119264815 cites W2105749959 @default.
W2119264815 cites W2110206401 @default.
W2119264815 cites W2110468963 @default.
W2119264815 cites W2112927743 @default.
W2119264815 cites W2117789967 @default.
W2119264815 cites W2132653427 @default.
W2119264815 cites W2135799745 @default.
W2119264815 cites W2136560949 @default.
W2119264815 cites W2136883509 @default.
W2119264815 cites W2142999617 @default.
W2119264815 cites W2144607109 @default.
W2119264815 cites W2151517894 @default.
W2119264815 cites W2157473071 @default.
W2119264815 cites W2164561590 @default.
W2119264815 cites W2167626585 @default.
W2119264815 cites W2171584675 @default.
W2119264815 doi "https://doi.org/10.1113/jp270384" @default.
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