Mazarío Javier, Basbaum Allan I
Laboratorio de Función Sensitivomotora, Hospital Nacional de Parapléjicos, 45071 Toledo, Spain.
J Neurosci. 2007 Jan 24;27(4):762-70. doi: 10.1523/JNEUROSCI.2992-06.2007.
In a previous report, we compared the properties of lamina V neurons of the spinal cord dorsal horn in wild-type mice and in mice with a deletion of the preprotachykinin-A (PPT-A) gene, which encodes substance P (SP) and neurokinin A (NKA). The mutant mice had pronounced deficits in the response to thermal stimulation, both before and after mustard oil induced sensitization. Here, we extended our analysis to the properties of lamina I neurons and also examined responsiveness to mechanical stimulation. Consistent with the properties of lamina V neurons, in the PPT-A mutant mice we found significantly reduced responses of lamina I neurons to noxious thermal stimulation, and mustard oil sensitization of these neurons to heat was lost. In contrast, not only were the responses of lamina I neurons to noxious mechanical stimulation unchanged in the mutant mice, but in neither the wild-type nor the mutant mice could sensitization be induced. However, mustard oil profoundly sensitized lamina V neurons to mechanical stimulation in both wild-type and mutant mice. We conclude that SP and/or NKA are required for the transmission of noxious thermal stimulation by lamina I and V neurons, both before and after tissue injury. The persistence of mechanical sensitization of lamina V neurons in the mutant mice further shows that mustard oil induces mechanical and thermal sensitization through different mechanisms. Finally, we conclude that lamina I sensitization to mechanical stimulation is not required for this form of injury-increased responsiveness of lamina V neurons.
在之前的一份报告中,我们比较了野生型小鼠和前速激肽原A(PPT-A)基因缺失小鼠脊髓背角V层神经元的特性,该基因编码P物质(SP)和神经激肽A(NKA)。在芥子油诱导致敏前后,突变小鼠对热刺激的反应均有明显缺陷。在此,我们将分析扩展至I层神经元的特性,并检测其对机械刺激的反应性。与V层神经元的特性一致,在PPT-A突变小鼠中,我们发现I层神经元对有害热刺激的反应显著降低,且这些神经元对热的芥子油致敏作用丧失。相比之下,突变小鼠中I层神经元对有害机械刺激的反应不仅未改变,而且在野生型和突变型小鼠中均无法诱导致敏。然而,芥子油使野生型和突变型小鼠的V层神经元对机械刺激产生了显著的致敏作用。我们得出结论,在组织损伤前后,I层和V层神经元传递有害热刺激均需要SP和/或NKA。突变小鼠中V层神经元机械致敏作用的持续存在进一步表明,芥子油通过不同机制诱导机械和热致敏。最后,我们得出结论,I层对机械刺激的致敏作用并非V层神经元这种形式的损伤增强反应性所必需。