Sheng li xue bao : [Acta physiologica Sinica]
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Our previous studies have shown that long-term potentiation (LTP) of C-fiber-evoked field potentials in the spinal dorsal horn is NMDA receptor dependent. It is known that elevation of Ca(2+) in the postsynaptic neurons through NMDA receptor channels during high-frequency stimulation of the afferent fibers is crucial for LTP induction, but how this leads to a prolonged potentiation of synaptic transmission in the spinal dorsal horn is not clear. In the hippocampus, a rise of Ca(2+) activates calcium/calmodulin-dependent protein kinase II (CaMK II) through autophosphorylation. ⋯ To determine the role of the phospho-CaMK II in the induction and maintenance of the spinal LTP, a selective CaMK II inhibitor KN-93 (100 micromol/L) was applied directly onto the spinal cord at the recording segments before and after LTP induction. We found that (1) the protein level of phospho-CaMKII increased at both 30 min and 3 h after LTP induction, while the total protein level of CaMK II increased at 3 h but not at 30 min after LTP induction. (2) Spinal application of KN-93 at 30 min prior to the tetanus blocked both LTP induction and the increase in phospho-CaMK II. (3) 30 min after LTP induction, spinal application of KN-93 depressed LTP and the level of phospho-CaMK II (n=3). (4) Spinal application of KN-93 at 3 h after LTP, however, affected neither the amplitude of the spinal LTP nor the level of phospho-CaMK II in the spinal dorsal horn. These results suggest that activation of CaMK II is probably crucial for the induction and the early-phase maintenance of LTP of C-fiber-evoked field potentials in the spinal dorsal horn.
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To study whether commercial traditional Chinese medicinal preparations Injection Paederiae (IP) or Injection Stauntonia (IS) has anti-nociceptive and/or anti-inflammatory effects, we used two persistent pain models (bee venom and formalin test) to evaluate the systemic effects of IP or IS on the chemical tissue injury-induced persistent spontaneous pain-related responses (PSPR), primary thermal/mechanical hyperalgesia and inflammation in conscious rats. Injection of bee venom (BV, 0.1 mg, 50 microl) into the plantar surface of one hind paw resulted in not only a 1-h monophasic PSPR such as flinching reflex in the injected paw and a subsequent period of 3-4 days primary heat and mechanical hyperalgesia, but also a marked sign of inflammation, including redness and swelling of the plantar surface in the injected paw. Intraplantar injection of formalin produced two phases of PSPR as reported previously. ⋯ The analgesia produced by IP or IS was not mediated by the endogenous opioid receptors since naloxone, a non-selective opioid receptor antagonist, had no reversal effect on the IP and IS-produced analgesia in the BV-induced PSPR. Our present results suggest that IP or IS might prevent and relieve clinical persistent spontaneous pain, but without any anti-nociceptive and anti-inflammatory effects on the primary heat hyperalgesia, mechanical hyperalgesia, as well as inflammatory responses. The BV test might be a useful model of pain to evaluate and screen anti-nociceptive and anti-inflammatory effects of certain compounds of the Chinese medicinal herbs on the pathological origins of pain.
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Glutamatergic synapses are common excitatory chemical connections in mammalian central nervous system. At these synapses, most of baseline synaptic transmission is mediated by glutamate AMPA receptors. NMDA receptors that are sensitive to voltage-dependent magnesium blockade selectively contribute to activity-dependent synaptic plasticity. ⋯ The contribution of NMDA receptors became more prominent when synapses are stimulated at higher frequencies. Furthermore, at temperatures more close to physiological brain temperatures, more NMDA receptor mediated responses were recorded as compared to the room temperature. These data suggest a new function for NMDA receptors in the ACC as important postsynaptic receptors involved in synaptic transmission, in particular when cells are firing at high frequencies.
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The ability of implanted embryonic neural stem cells (NSCs) to improve survival, migration, and functional recovery following a compression spinal cord injury (SCI) was tested in adult rats. NSCs were isolated from E14-16 rat cerebral cortex and SCI was produced by using an aneurysm clip applicator applied to the 8th thoracic spinal cord according to method of Dolan and Tator. Two weeks after the injury, NSCs (4 microl of 1 x 10(4) cells/microl) were injected into the lesion site. ⋯ Significant reduction in the lesion area (P<0.05) and improvement in inclined plane (P<0.05) and BBB locomotor rating scale (P<0.05) were found in the cases that received implantation of NSCs, as compared with those that received vehicle injection. More importantly, when glial cell line-derived neurotrophic factor (GDNF; 1.5 microg/microl) was added to the transplants, further reduction in lesion area (P<0.01) and improvement in the function were observed in the combined treatment group as compared with the vehicle infused group. Our results suggest that intraspinal treatment with NSCs and GDNF synergistically reduced lesion size and improved functional outcome after a compressive SCI in adult rats.
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The study was undertaken to find whether microinjection of vasopressin (AVP) into the rostral ventrolateral medulla (rVLM) affects blood pressure (BP) and blood viscosity in rats and to analyze the effects of AVP-ergic mechanism in the rVLM on stress-induced hyperviscosity of rats. The results are as follows. (1) Microinjection of AVP into the rostral ventrolateral medulla (rVLM) of normal rats resulted in a significant increase in BP and plasma viscosity, which was blocked by bilateral microinjection of AVP V(1) receptor antagonist (d(CH2)5 Tyr(Me)(2) AVP) into the same area. (2) The stress-induced pressor response and hyperviscosity was abolished by microinjection of AVP V(1) receptor antagonist into the rVLM, but not by AVP V(2) receptor antagonist ( adamantaneacetyl(1),O-Et-D-Tyr(2),Val(4),aminobutyryl(6),Arg(8,9) -vasopressin). Microinjection of AVP V(1) receptor antagonist of the same dosage into bilateral caudal ventrolateral medulla (cVLM) or intravenous injection of the antagonist of the same dosage had no effect. The above results suggest that the increase of BP and plasma viscosity induced by microinjection of AVP into rVLM and the stress-induced pressor response and hyperviscosity caused by restraining may be mediated by activation of the AVP V(1) receptor in the rVLM.