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Neuronal cell survival and synaptic plasticity are controlled through expression of various neurotrophic factors including brain-derived neurotrophic factor (BDNF). In the present study, we examined the mechanism behind BDNF-induced Bdnf mRNA production and the physiological role of its amplification system using cortical neurons. Exogenous BDNF was applied to the cultured cortical neurons at days in vitro (DIV) 3 and DIV 7 with or without inhibitors for intracellular signaling. Expression levels of total Bdnf and Bdnf variants (exon I, exon IV, and exon VI) were biphasically increased after the BDNF application in different developing stage of neurons. Inhibitor for extracellular signal-regulated kinase, calmodulin dependent protein kinase II, or protein kinase A repressed the BDNF-induced Bdnf mRNA expression. Furthermore, we found that application of TrkB-Fc, which scavenges produced endogenous BDNF, resulted in weakened BDNF/TrkB signaling and decreased expression of postsynaptic proteins, suggesting that newly synthesized BDNF induced by the self-amplification system contributes to the synaptic maturation and function.
Opioids, such as morphine, are used in clinical settings for the management of acute and chronic pain. However, long-term use of morphine leads to antinociceptive tolerance and hypersensitivity. The cellular and molecular mechanisms of morphine tolerance seem to be quite complex, with suggestions including internalization of the μ-opioid receptor (MOR), neuroinflammation with activation of microglia and astrocytes, and changes in synaptic function in the central nervous system. Yokukansan (YKS), a traditional Kampo medicine consisting of seven herbs, has been used to treat emotional instability, neurosis, and insomnia. Interestingly, recent studies have begun to reveal the inhibitory effect of YKS on the development of morphine tolerance. In the present study, we determined the effect of YKS on morphine tolerance formation and its mechanisms in a rat model, focusing on the synapses between primary sensory neurons and spinal dorsal horn secondary neurons. We found that morphine tolerance formation was significantly inhibited by YKS (0.3 or 1.0 g/kg/day) preadministration for 7 days. Repeated administration of morphine (10 mg/kg/day) increased the expression of presynaptic proteins, including synaptotagmin I, in the spinal cord, which was suppressed by YKS. Furthermore, these changes in presynaptic protein expression were more pronounced at isolectin B4 (IB4)-positive excitatory synapses around the lamina II of the dorsal horn. These results suggest that YKS suppresses the development of morphine tolerance by inhibiting the enhancement of presynaptic function of dorsal root ganglia neurons projecting to spinal dorsal horn neurons caused by continuous morphine administration.
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