Neuropharmacology
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Substance P (SP) is co-localized and co-released with gamma-amino butyric acid (GABA) from approximately 50% of GABAergic medium spiny neurons (MSNs) in the striatum. MSNs innervate several cellular targets including neighboring MSNs and cholinergic interneurons via collaterals. However, the functional role of SP release onto striatal interneurons is unknown. ⋯ In addition, RP67580 alone enhanced the evoked IPSC amplitude in cholinergic interneurons, suggesting an endogenous action of SP on regulation of inhibitory synaptic transmission. SP did not alter the paired-pulse ratio, but reduced the amplitudes of GABA(A) agonist muscimol-induced outward currents and miniature IPSCs in cholinergic interneurons, suggesting SP exerts its effects primarily at the post-synaptic site. Our results indicate that the physiological effects of SP are to enhance the activity of striatal cholinergic interneurons and provide a rationale for designing potential new antiparkinsonian agents.
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Several voltage-gated sodium channels are expressed in primary sensory neurons where they control excitability and participate in the generation and propagation of action potentials. Peripheral nerve injury-induced alterations in both tetrodotoxin (TTX)-sensitive and TTX-resistant sodium channels have been proposed to contribute to neuropathic pain caused by such lesion. We herein investigated whether the blockade of TTX-sensitive channels could reduce pain-related behaviors and evoked c-Fos immunoreactivity in rats with neuropathic pain produced by chronic unilateral constriction injury to either the sciatic nerve or the infraorbital nerve. ⋯ The anti-allodynia/antihyperalgesia caused by TTX in these neuropathic rats was promoted by combined treatment with naloxone (0.5 mg/kg s.c.) but unaffected by the 5-HT(1B) receptor antagonist F11648 (0.5 mg/kg s.c.) and the alpha(2)-adrenergic receptor antagonist idazoxan (0.5 mg/kg i.v.). In contrast, the anti-allodynic and anti-hyperalgesic effects of TTX were significantly attenuated by co-administration of morphine (3 mg/kg s.c.) or the cholecystokinin(2)-receptor antagonist CI-1015 (0.1 mg/kg i.p.). These results indicate that TTX alleviates pain-related behaviors in sciatic nerve-lesioned rats through mechanisms that involve complex interactions with opioidergic systems.
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Brain lesions induced in newborn mice by the glutamatergic agonists ibotenate (acting on NMDA and metabotropic receptors) or S-willardiine (acting on AMPA-kainate receptors) mimic some aspects of periventricular white matter lesions and neocortical grey matter damage observed in human neonates at risk for developing cerebral palsy. The neonatal mouse brain can be sensitized to excitotoxic damage by IL-1beta exposure similar to that observed in the human situation. Positive modulators of AMPA receptors have received increasing attention as potential neuroprotective agents in a number of neurodegenerative disorders of the adult. ⋯ S18986-induced neuroprotection against NMDA receptor-mediated brain lesions was blocked by inhibitors of ERK and PI3 kinase-Akt pathways. S18986 effects were abolished by a neutralizing anti-BDNF antibody and real time PCR confirmed the stimulation by S18986 of BDNF production in the neonatal brain. The present study provides strong experimental support for the role of S18986 as a candidate molecule for therapy in cases of excitotoxic perinatal brain lesions and identifies BDNF as a key mediator of this S18986-mediated neuroprotection.
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Diabetic neuropathic pain, an important microvascular complication in diabetes mellitus, is recognised as one of the most difficult types of pain to treat. The development of tolerance, inadequate relief and potential toxicity of classical antinociceptives warrant the investigation of the newer agents to relieve this pain. Reactive oxygen/nitrogen species, cytokines and apoptosis are implicated in the pathogenesis of diabetic neuropathy. ⋯ Moreover, diabetic rats treated with insulin-tocotrienol combination produced more pronounced beneficial effect as compared to their per se groups. The major finding of the study is that insulin alone corrected the hyperglycemia and partially reversed the pain response in diabetic rats. However, combination with tocotrienol not only attenuated the diabetic condition but also reversed neuropathic pain through modulation of oxidative-nitrosative stress, inflammatory cytokine release and caspase-3 in the diabetic rats and thus it may find clinical application to treat neuropathic pain in the diabetic patients.
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Astrocytes are known to release several transmitters to impact neuronal activity. Cell-specific molecular genetic attenuation of vesicular release has shown that ATP is a primary astrocytic transmitter in situ and in vivo. In this review, we discuss the biology of astrocytic ATP release highlighting the exciting discovery that lysosomes might be primary stores for the release of this gliotransmitter. ⋯ By controlling neuronal A1-receptor signaling, astrocytes modulate mammalian sleep homeostasis and are essential for mediating the cognitive consequences of sleep deprivation. These discoveries begin to paint a new picture of brain function in which slow-signaling glia modulate fast synaptic transmission and neuronal firing to impact behavioral output. Because these cells have privileged access to synapses, they may be valuable targets for the development of novel therapies for many neurological and psychiatric conditions.