Buhler A V, Proudfit H K, Gebhart G F
Department of Pharmacology, Carver College of Medicine, The University of Iowa, Bowen Science BLD 2-351, Iowa City, IA 52242, USA.
Brain Res. 2004 Jul 30;1016(1):12-9. doi: 10.1016/j.brainres.2004.04.060.
Activation of neurons in the rostral ventromedial medulla (RVM) directly modulates spinal nociceptive transmission by projections to the spinal cord dorsal horn and indirectly by projections to neurons in the dorsolateral pons (DLP) that project to the spinal cord dorsal horn. However, it is not known whether the same neurons in the RVM produce both direct and indirect modulation of nociception. Deposits of the retrograde tracers Fluoro-Gold (FG) in the spinal cord dorsal horn and DiI in the DLP were used to determine whether the same RVM neurons project to both of these regions. Only 0.9+/-0.1% of RVM neurons retrogradely labeled with Fluoro-Gold from the spinal cord were also labeled with DiI placed in the DLP. In addition, spinally projecting RVM neurons were significantly larger than RVM neurons that project to the DLP. Finally, spinally projecting neurons were found predominantly on the midline and within the RVM; neurons that project to the DLP had a wider distribution and were present both within and outside of the RVM. Thus, separate and morphologically distinct populations of RVM neurons appear to modulate nociception by direct and indirect descending pathways.
延髓头端腹内侧区(RVM)的神经元激活可通过投射至脊髓背角直接调节脊髓伤害性感受传递,也可通过投射至脑桥背外侧(DLP)并进而投射至脊髓背角的神经元进行间接调节。然而,尚不清楚RVM中相同的神经元是否同时产生伤害性感受的直接和间接调节。通过在脊髓背角注射逆行示踪剂荧光金(FG)以及在DLP注射碘化丙啶(DiI)来确定是否相同的RVM神经元投射至这两个区域。仅0.9±0.1%从脊髓被荧光金逆行标记的RVM神经元也被置于DLP的DiI标记。此外,投射至脊髓的RVM神经元显著大于投射至DLP的RVM神经元。最后,投射至脊髓的神经元主要位于中线及RVM内;投射至DLP的神经元分布更广泛,在RVM内外均有存在。因此,RVM神经元的不同且形态上有差异的群体似乎通过直接和间接下行通路调节伤害性感受。