Awad-Igbaria Yaseen, Edelman Doron, Ianshin Elvira, Abu-Ata Saher, Shamir Alon, Bornstein Jacob, Palzur Eilam
Azrieli Faculty of Medicine, Bar-Ilan University, Safed 1311502, Israel.
Research Institute of Galilee Medical Center, Nahariya 2201202, Israel.
Brain. 2025 Jan 7;148(1):331-346. doi: 10.1093/brain/awae228.
Provoked vulvodynia (PV) is characterized by localized chronic vulvar pain. It is associated with a history of recurrent inflammation, mast cell (MC) accumulation and neuronal sprouting in the vulva. However, the mechanism of how vulvar-inflammation promotes neuronal sprouting and gene-expression adaptation in the spinal cord, leading to hypersensitivity and painful sensations, is unknown. Here, we found that vulvar tissue from women with PV (n = 8) is characterized by MC accumulation and neuronal sprouting compared to women without PV (n = 4). In addition, we observed these changes in an animal study of PV. Thus, we found that repeated vulvar zymosan-inflammation challenges lead to long-lasting mechanical and thermal vulvar hypersensitivity, which is mediated by MC accumulation, neuronal sprouting, overexpression of the pain channels (TRPV1 and TRPA1) in vulvar neurons, as well as a long-term increase of gene expression related to neuroplasticity, neuroinflammation and nerve growth factor (NGF) in the spinal cord/dorsal root ganglia (DRG) (L6-S3). However, regulation of the NGF pathway by stabilization of MC activity with ketotifen fumarate (KF) during vulvar inflammation attenuates the local increase of NGF and histamine, as well as the elevated transcription of pro-inflammatory cytokines and NGF pathway in the spinal cord. Additionally, KF treatment during inflammation modulates MC accumulation, neuronal hyperinnervation and overexpression of the TRPV1 and TRPA1 channels in the vulvar neurons, consequently preventing the development of vulvar pain. A thorough examination of the NGF pathway during inflammation revealed that blocking NGF activity by using an NGF-non-peptide-inhibitor (Ro08-2750) regulates the upregulation of genes related to neuroplasticity and the NGF pathway in the spinal cord, as well as modulating neuronal sprouting and overexpression of the pain channels, resulting in a reduced level of vulvar hypersensitivity. On the other hand, stimulation of the NGF pathway in the vulvar promotes neuronal sprouting, overexpression of pain channels and increase of gene expression related to neuroplasticity, neuroinflammation and NGF in the spinal cord, resulting in long-lasting vulvar hypersensitivity. In conclusion, our findings suggest that vulvar allodynia induced by inflammation is mediated by MC accumulation, neuronal sprouting and neuromodulation in the vulvar. Additionally, chronic vulvar pain may involve a long-term adaptation in gene expression in the spinal cord, which probably plays a critical role in central sensitization and pain maintenance. Strikingly, regulating the NGF pathway during the critical period of inflammation prevents vulvar pain development via modulating the neuronal changes in the vestibule and spinal cord, suggesting a fundamental role for the NGF pathway in PV development.
诱发性外阴痛(PV)的特征是局部慢性外阴疼痛。它与复发性炎症病史、肥大细胞(MC)积聚以及外阴神经元发芽有关。然而,外阴炎症如何促进脊髓中的神经元发芽和基因表达适应,从而导致超敏反应和疼痛感觉,其机制尚不清楚。在这里,我们发现与无PV的女性(n = 4)相比,PV女性(n = 8)的外阴组织具有MC积聚和神经元发芽的特征。此外,我们在PV的动物研究中观察到了这些变化。因此,我们发现反复的外阴酵母聚糖炎症刺激会导致长期的机械性和热性外阴超敏反应,这是由MC积聚、神经元发芽、外阴神经元中疼痛通道(TRPV1和TRPA1)的过表达以及脊髓/背根神经节(DRG)(L6-S3)中与神经可塑性、神经炎症和神经生长因子(NGF)相关的基因表达长期增加所介导的。然而,在阴蒂炎症期间用富马酸酮替芬(KF)稳定MC活性来调节NGF途径,可减弱NGF和组胺的局部增加,以及脊髓中促炎细胞因子和NGF途径的转录升高。此外,炎症期间的KF治疗可调节MC积聚、神经元过度支配以及阴蒂神经元中TRPV1和TRPA1通道的过表达,从而防止阴蒂疼痛的发展。对炎症期间NGF途径的全面检查发现,使用NGF非肽抑制剂(Ro08-2750)阻断NGF活性可调节脊髓中与神经可塑性和NGF途径相关基因的上调,以及调节神经元发芽和疼痛通道的过表达,从而降低阴蒂超敏反应的水平。另一方面,刺激阴蒂中的NGF途径会促进神经元发芽、疼痛通道的过表达以及脊髓中与神经可塑性、神经炎症和NGF相关的基因表达增加,从而导致长期的阴蒂超敏反应。总之,我们的研究结果表明,炎症诱导的阴蒂异常性疼痛是由阴蒂中的MC积聚、神经元发芽和神经调节介导的。此外,慢性阴蒂疼痛可能涉及脊髓中基因表达的长期适应,这可能在中枢敏化和疼痛维持中起关键作用。引人注目的是,在炎症的关键时期调节NGF途径可通过调节前庭和脊髓中的神经元变化来预防阴蒂疼痛的发展,这表明NGF途径在PV发展中起重要作用。
