A Conceptual Review of Naturally Occurring Toxins and Venoms as Peptide Blockers to Combat Chronic Low Back Pain

IF 3.9 3区医学 Q1 ORTHOPEDICS

JOR Spine Pub Date : 2025-08-15 DOI:10.1002/jsp2.70107

James Melrose, Stone Sima, Neha Chopra, Ashish Diwan, Zi Gu

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Abstract

Background

One of the significant putative causes of low back pain (LBP) is degeneration of the intervertebral disc (IVD). Degenerated discs exhibit loss of proteoglycans, notably aggrecan, leading to mechanical dysfunction and aberrant nerve ingrowth. This pathological innervation results in the proliferation of nociceptive and mechanoreceptive neurons, significantly contributing to persistent pain. A critical therapeutic target is the dorsal root ganglion (DRG), which serves as a key neural hub for nociceptive signaling and neurogenic inflammation. Increased calcium influx through voltage-gated calcium channels within DRG neurons underpins heightened neuronal excitability, facilitating persistent pain transmission. Recent evidence highlights the promising role of bioactive peptides derived from reptilian and insect venoms as potent calcium channel blockers.

Methods

This conceptual review explores published evidence and mechanistic rationale on naturally occurring toxins and venoms as peptide calcium channel blockers for chronic LBP. We considered DRG targeted mechanisms and delivery approaches, including incorporation into biomimetic proteoglycans for localized, sustained intradiscal release, and their use along conventional nerve block procedures.

Results

Venom derived peptide families including ω-conotoxins from cone snail and Tx3-family spider peptides from Phoneutria nigriventer selectively block neuronal calcium channels (notably Ca_v2.2), thereby reducing the release of neurotransmitters that propogate pain signals. Alongside these antinocicpetive effects, the targeted mechanism of action and directed modalities of these peptides offer a novel therapeutic approach with potential advantages over tradiitonal analgesics, which often present challenges related to tolerance and systemic side effects.

Conclusion

Naturally occurring bioactive peptide calcium channel blockers delivered either directly to the DRG or through a multifaceted therapeutic approach with biomimetic proteoglycans into the IVD or conventional nerve block procedures into the epidural space resents a promising future direction in managing chronic LBP. This approach warrants further pre-clinical and clinical evaluation to clarify clinical utility, potentially transforming pain management paradigms and significantly reducing healthcare burdens associated with chronic spinal disorders.

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自然产生的毒素和毒液作为对抗慢性腰痛的肽阻滞剂的概念综述

背景腰椎间盘退变（IVD）是腰痛（LBP）的重要推定原因之一。椎间盘退行性变表现为蛋白聚糖的损失，尤其是聚集蛋白的损失，导致机械功能障碍和神经向内生长异常。这种病理性神经支配导致伤害性和机械感受性神经元的增殖，显著地促进了持续性疼痛。一个关键的治疗靶点是背根神经节（DRG），它是一个关键的神经中枢，负责伤害性信号和神经源性炎症。通过DRG神经元内电压门控钙通道增加的钙流入支持神经元兴奋性增强，促进持续疼痛传递。最近的证据强调了来自爬行动物和昆虫毒液的生物活性肽作为有效的钙通道阻滞剂的有希望的作用。方法对已发表的关于天然毒素和毒液作为肽钙通道阻滞剂治疗慢性腰痛的证据和机制进行综述。我们考虑了DRG靶向机制和给药方法，包括与仿生蛋白聚糖结合用于局部、持续的椎间盘内释放，以及在常规神经阻滞手术中使用。结果来自锥形蜗牛的ω-conotoxins和来自黑栉水母的tx3家族蜘蛛肽选择性地阻断神经元钙通道（特别是Cav2.2），从而减少传播疼痛信号的神经递质的释放。除了这些抗损伤作用外，这些肽的靶向作用机制和定向方式提供了一种新的治疗方法，与传统镇痛药相比具有潜在的优势，传统镇痛药通常存在与耐受性和全身副作用相关的挑战。结论天然生物活性肽钙通道阻滞剂直接给药于DRG或通过仿生蛋白多糖进入IVD或常规神经阻滞进入硬膜外间隙的多方面治疗方法是治疗慢性LBP的一个有希望的未来方向。这种方法需要进一步的临床前和临床评估，以明确临床效用，潜在地改变疼痛管理模式，并显著减少与慢性脊柱疾病相关的医疗负担。

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