SUMMARY
Pain perception is essential for survival and can be amplified or suppressed by expectations, experiences, and context. The neural mechanisms underlying bidirectional modulation of pain remain largely unknown. Here, we demonstrate that the central nucleus of the amygdala (CeA) functions as a pain rheostat, decreasing or increasing pain-related behaviors in mice. This dual and opposing function of the CeA is encoded by opposing changes in the excitability of two distinct subpopulations of GABAergic neurons that receive excitatory inputs from the parabrachial nucleus (PB). Thus, cells expressing protein kinase C-delta (CeA-PKCδ) are sensitized by nerve injury and increase pain-related responses. In contrast, cells expressing somatostatin (CeA-Som) are inhibited by nerve injury and their activity drives antinociception. Together, these results demonstrate that the CeA can amplify or suppress pain in a cell-type-specific manner, uncovering a previously unknown mechanism underlying bidirectional control of pain in the brain.
What prompted you to investigate this topic?The selective oxidation of alcohols to yield valuable chemical products is very important in fine organic synthesisa nd has great industrial importance.T he traditional oxidation processes use strong oxidants, which increaset he cost of the reaction and produce al arge amount of toxic waste. Thus, there is the need for more beneficiala nd sustainable technologies, using renewable feedstocks, like biomass, replacing fossil resources. Supported gold catalysts show remarkable activity for the oxidation of alcohols from biomass conversionp roducts in the liquid phase, with high activity,h igh selectivity and betterr esistancet od eactivation, compared to traditional platinum group metals.T he activity of gold catalysts is strongly dependent on many factors, and still requires further study.
What inspired you for the cover image?The reaction of 1-octanol, representative of the class of less reactive aliphatic alcohols,f ound in large quantities in the products of biomass transformation,i sp resented. According to our research, the aerobic oxidation of this alcohol into valuable chemical, pharmaceutical and agrochemical products using gold supported catalysts occurs predominantly on cationic gold.
The spino-ponto-amygdaloid pathway is a major ascending circuit relaying nociceptive information from the spinal cord to the brain. Potentiation of excitatory synaptic transmission in the parabrachial nucleus (PBN) to central amygdala (CeA) pathway has been reported in rodent models of persistent pain. However, the functional significance of this pathway in the modulation of the somatosensory component of pain was recently challenged by studies showing that spinal nociceptive neurons do not target CeA-projecting PBN cells and that manipulations of this pathway have no effect on reflexive-defensive somatosensory responses to peripheral noxious stimulation. Here, we showed that activation of CeA-projecting PBN neurons is critical to increase both stimulus-evoked and spontaneous nociceptive responses following an injury in male and female mice. Using optogenetic-assisted circuit mapping, we confirmed a functional excitatory projection from PBN→CeA that is independent of the genetic or firing identity of CeA cells. We then showed that peripheral noxious stimulation increased the expression of the neuronal activity marker Fos in CeA-projecting PBN neurons and that chemogenetic inactivation of these cells decreased behavioral hypersensitivity in models of neuropathic and inflammatory pain without affecting baseline nociception. Lastly, we showed that chemogenetic activation of CeA-projecting PBN neurons is sufficient to induced bilateral hypersensitivity without injury. Together, our results indicate that the PBN→CeA pathway is a key modulator of pain-related behaviors that can increase reflexive-defensive and affective-motivational responses to somatosensory stimulation in injured states without affecting nociception under normal physiological conditions.
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