Postsurgical tactile-evoked pain: a role for brain-derived neurotrophic factor-tropomyosin receptor kinase B–dependent novel tactile corpuscles

IF 3.4 Q2 NEUROSCIENCES
Kirsten Wilson, Ying Sze, Anna Regan, Chunyi Zhu, Katarzyna Mazur, Atanaska Velichkova, Carole Torsney
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Abstract

Millions of people undergo surgical procedures each year with many developing postsurgical pain. Dynamic allodynia can arise when, for example, clothing brushing close to the surgical site elicits pain. The allodynia circuits that enable crosstalk between afferent tactile inputs and central pain circuits have been studied, but the peripheral tactile drive has not been explored. Investigate the innervation of the skin in the rat plantar hindpaw skin–muscle incision model. Incision increased epidermal thickness and cell layers and reduced intraepidermal nerve fibre density, identified with PGP9.5 immunostaining. Strikingly, Collagen IV immunostaining revealed the development of dermal protrusions, oriented towards the incision site, that were reminiscent of the dermal papillae that exist in glabrous footpads. S100 immunostaining for lamellar Schwann cells revealed the presence of novel tactile corpuscles (S100-positive bulb) within incision-induced putative dermal papillae. The occurrence of these novel tactile corpuscles coincided with behavioural observations of dynamic allodynia. Tactile corpuscles require brain-derived neurotrophic factor- tropomyosin receptor kinase B (BDNF-TrkB) signalling to form during development, and an increase in BDNF-immunostaining intensity was observed close to the incision site. Local acute administration of TrkB-Fc, to block BDNF-TrkB signalling, reduced, by approximately 50%, both tactile corpuscle size (S100+ bulb area) and dynamic allodynia. Surgery induces the development of novel tactile corpuscles in the incision surround, in a BDNF-TrKB–dependent manner, that contributes to postsurgical tactile-evoked pain.
手术后触觉诱发痛:脑源性神经营养因子-肌球蛋白受体激酶 B 依赖性新型触觉团的作用
每年都有数百万人接受外科手术,许多人都会出现术后疼痛。例如,当衣物拂过手术部位引起疼痛时,就会产生动态异感。人们已经研究了能使传入触觉输入和中枢疼痛回路之间发生串扰的异感回路,但尚未探索外周触觉驱动。 研究大鼠足底后爪皮肤肌肉切口模型的皮肤神经支配。 切口增加了表皮厚度和细胞层,降低了表皮内神经纤维密度,并用 PGP9.5 免疫染色法进行了鉴定。引人注目的是,胶原蛋白 IV 免疫染色显示出真皮突起的发展,突起朝向切口部位,让人联想到无毛足垫中的真皮乳头。片状许旺细胞的 S100 免疫染色显示,在切口诱导的假定真皮乳头内存在新型触觉团(S100 阳性球)。这些新型触觉团的出现与动态异感的行为观察结果相吻合。触觉团需要脑源性神经营养因子-肌球蛋白受体激酶B(BDNF-TrkB)信号才能在发育过程中形成,而且在切口部位附近观察到BDNF免疫染色强度增加。局部急性注射TrkB-Fc以阻断BDNF-TrkB信号,可使触觉团大小(S100+球面积)和动态痛觉减少约50%。 手术以 BDNF-TrKB 依赖性方式诱导切口周围新触觉团的形成,从而导致术后触觉诱发痛。
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来源期刊
Pain Reports
Pain Reports Medicine-Anesthesiology and Pain Medicine
CiteScore
7.50
自引率
2.10%
发文量
93
审稿时长
8 weeks
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