内源性神经营养因子和雪旺细胞在轴突再生中的作用综述。

IF 6.2
Samyak Pandey, Jayesh Mudgal
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引用次数: 8

摘要

周围神经的损伤传统上被称为获得性神经损伤,因为它们是由神经撕裂、拉伸、挤压和压迫引起的物理创伤的结果。然而,周围神经损伤可能并不完全局限于后天性外伤。外周神经损伤同样意味着吉兰-巴罗综合征(GBS)、腕管综合征、类风湿性关节炎和糖尿病等临床症状。物理创伤通常是单神经病变,因为它累及单个神经并产生局灶性损伤,而在病理条件下,损伤是发散性的,涉及一组神经,导致多神经病变。周围神经损伤可引起各种各样的表现,从感觉障碍到功能丧失,恢复模式不可预测。目前,由于神经细胞高度分化且无法再生,没有一种治疗方法可以使神经损伤完全恢复或功能恢复。然而,当神经营养因子触发信号级联时,再生表型在雪旺细胞中得到表达。神经营养因子是一种很有前途的生物分子,在损伤后自然释放,具有更好的功能恢复潜力。药物干预调节这些神经营养因子的表达,如脑源性神经营养因子(BDNF)和垂体腺苷酸环化酶激活肽(PACAP)可以被证明是一个重要的治疗选择,作为内源性化合物,可能具有显着的先天优势,显示出最大的“生物学相关性”。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Review on the Role of Endogenous Neurotrophins and Schwann Cells in Axonal Regeneration.

A Review on the Role of Endogenous Neurotrophins and Schwann Cells in Axonal Regeneration.

Injury to the peripheral nerve is traditionally referred to acquired nerve injury as they are the result of physical trauma due to laceration, stretch, crush and compression of nerves. However, peripheral nerve injury may not be completely limited to acquired physical trauma. Peripheral nerve injury equally implies clinical conditions like Guillain-Barré syndrome (GBS), Carpal tunnel syndrome, rheumatoid arthritis and diabetes. Physical trauma is commonly mono-neuropathic as it engages a single nerve and produces focal damage, while in the context of pathological conditions the damage is divergent involving a group of the nerve causing polyneuropathy. Damage to the peripheral nerve can cause a diverse range of manifestations from sensory impairment to loss of function with unpredictable recovery patterns. Presently no treatment option provides complete or functional recovery in nerve injury, as nerve cells are highly differentiated and inert to regeneration. However, the regenerative phenotypes in Schwann cells get expressed when a signalling cascade is triggered by neurotrophins. Neurotrophins are one of the promising biomolecules that are released naturally post-injury with the potential to exhibit better functional recovery. Pharmacological intervention modulating the expression of these neurotrophins such as brain-derived neurotrophic factor (BDNF) and pituitary adenylyl cyclase-activating peptide (PACAP) can prove to be a significant treatment option as endogenous compounds which may have remarkable innate advantage showing maximum 'biological relevance'.

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