Motor cortex and pain control: exploring the descending relay analgesic pathways and spinal nociceptive neurons in healthy conscious rats.

IF 4.7 2区 心理学 Q1 BEHAVIORAL SCIENCES
Patrícia Sanae Souza Lopes, Ana Carolina Pinheiro Campos, Erich Talamoni Fonoff, Luiz Roberto Giorgetti Britto, Rosana Lima Pagano
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引用次数: 21

Abstract

Motor cortex stimulation (MCS) is an effective therapy for refractory neuropathic pain. MCS increases the nociceptive threshold in healthy rats via endogenous opioids, inhibiting thalamic nuclei and activating the periaqueductal gray. It remains unclear how the motor cortex induces top-down modulation of pain in the absence of persistent pain. Here, we investigated the main nuclei involved in the descending analgesic pathways and the spinal nociceptive neurons in rats that underwent one session of MCS and were evaluated with the paw pressure nociceptive test. The pattern of neuronal activation in the dorsal raphe nucleus (DRN), nucleus raphe magnus (NRM), locus coeruleus (LC), and dorsal horn of the spinal cord (DHSC) was assessed by immunoreactivity (IR) for Egr-1 (a marker of activated neuronal nuclei). IR for serotonin (5HT) in the DRN and NRM, tyrosine hydroxylase (TH) in the LC, and substance P (SP) and enkephalin (ENK) in the DHSC was also evaluated. MCS increased the nociceptive threshold of the animals; this increase was accompanied by activation of the NRM, while DRN activation was unchanged. However, cortical stimulation induced an increase in 5HT-IR in both serotonergic nuclei. MCS did not change the activation pattern or TH-IR in the LC, and it inhibited neuronal activation in the DHSC without altering SP or ENK-IR. Taken together, our results suggest that MCS induces the activation of serotonergic nuclei as well as the inhibition of spinal neurons, and such effects may contribute to the elevation of the nociceptive threshold in healthy rats. These results allow a better understanding of the circuitry involved in the antinociceptive top-down effect induced by MCS under basal conditions, reinforcing the role of primary motor cortex in pain control.

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运动皮质与疼痛控制:健康意识大鼠下行中继镇痛通路和脊髓痛觉神经元的探索。
运动皮质刺激(MCS)是治疗难治性神经性疼痛的有效方法。MCS通过内源性阿片样物质提高健康大鼠的伤害阈值,抑制丘脑核并激活导水管周围灰质。在没有持续性疼痛的情况下,运动皮层如何诱导自上而下的疼痛调节仍不清楚。在此,我们研究了参与下行镇痛通路的主要核和脊髓伤害性神经元,并通过爪压伤害性试验对大鼠进行了评估。采用免疫反应性(IR)对Egr-1(神经元核激活标志物)进行评价,观察中缝背核(DRN)、中缝大核(NRM)、蓝斑(LC)和脊髓背角(DHSC)神经元的激活模式。对DRN和NRM血清素(5HT)、LC中酪氨酸羟化酶(TH)、DHSC中P物质(SP)和脑啡肽(ENK)的IR也进行了评估。MCS增加了动物的伤害知觉阈值;这种增加伴随着NRM的激活,而DRN的激活不变。然而,皮质刺激诱导两个血清素能核的5HT-IR增加。MCS不改变LC中的激活模式和TH-IR,抑制DHSC中的神经元激活,而不改变SP和ENK-IR。综上所述,我们的研究结果表明,MCS诱导了血清素能核的激活以及脊髓神经元的抑制,这种影响可能有助于提高健康大鼠的伤害阈值。这些结果使我们能够更好地理解在基础条件下MCS诱导的自上而下的抗痛觉效应所涉及的电路,加强初级运动皮层在疼痛控制中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Behavioral and Brain Functions
Behavioral and Brain Functions 医学-行为科学
CiteScore
5.90
自引率
0.00%
发文量
11
审稿时长
6-12 weeks
期刊介绍: A well-established journal in the field of behavioral and cognitive neuroscience, Behavioral and Brain Functions welcomes manuscripts which provide insight into the neurobiological mechanisms underlying behavior and brain function, or dysfunction. The journal gives priority to manuscripts that combine both neurobiology and behavior in a non-clinical manner.
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