TY  - GEN
UR  - https://archiv.ub.uni-heidelberg.de/volltextserver/24156/
Y1  - 2018///
ID  - heidok24156
TI  - Gene Programs of Spinal Cord Cells Mediating Pain States: Identification of Protein targeting to glycogen as an induced gene in spinal cord astrocytes upon peripheral pain
AV  - public
A1  - Lu, Shiying
N2  - Nociceptive pain signals are relayed in the spinal cord as they are transmitted from
the periphery to higher brain centers. The neuronal populations in the spinal cord that transmit peripheral stimuli are very heterogeneous. This has hampered the
identification of interneuron subtypes involved in pain processing and the
characterization of their functional connectivities. In this study, I obtained a
transcriptomic profile of spinal cord cells specifically activated by a peripheral painful stimulus using the recently developed phospho-ribosome profiling technique, and identified Protein targeting to glycogen (Ptg) as a pain-induced gene in spinal astrocytes. Ptg is known to play an important role in glycogenesis. I observed elevated spinal cord glycogen levels in response to different painful stimuli and proposed a correlation between the magnitude and duration of glycogen elevation with the persistency of different pain models. Moreover, manipulation of Ptg expression and glycogen metabolism led to altered pain sensitivity. My study points toward a new perspective of the role of astrocytes in pain processing and a potential link between changes in the metabolic state and pain processing in the spinal cord.
ER  -