Antinociceptive and neuromodulatory effects of the scorpion venom tetrapeptide tetrascorpin-1 in a long-lasting pain hypersensitivity model in mice.

IF 2.4 4区医学 Q2 PHARMACOLOGY & PHARMACY

Toxicon Pub Date : 2025-10-06 DOI:10.1016/j.toxicon.2025.108611

Salvatore Pagano, Rebecca Limongelli, Wassim Moslah, Mohamed-Chiheb Saada, Iolanda Manzo, Roozbe Bonsale, Milena Melake Teweldemedhin, Antimo Fusco, Francesca Guida, Carmela Belardo, Andrea Maria Morace, Michela Perrone, Federica Ricciardi, Gorizio Pierretti, Maria Giovanna Vastarella, Rosmara Infantino, Najet Srairi-Abid, Sabatino Maione, Enza Palazzo, Livio Luongo

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引用次数: 0

Abstract

We evaluated the effects of Tetrascorpin-1 from Androctonus australis (AaTs-1), a tetrapeptide obtained from scorpion venom, previously hypothesized to bind the formyl peptide receptor like-1 (FPRL-1) known as formyl peptide receptor-2 (FPR-2) in vitro, on pain responses and cytokines, neuronal and glial morpho-functional alterations in the spinal cord of mice with formalin-induced long-lasting pain hypersensitivity. Due to the peptide chemical nature and for favoring its penetration into the central nervous system, AaTs-1 was daily administered intranasally for 10 days. In formalin-injected mice the AaTs-1 treatment abolished mechanical allodynia, thermal hyperalgesia, hyperactivation of spinal nociceptive-specific (NS) neurons, and partially restored spinal anti-inflammatory/pro-inflammatory cytokine levels and microglia/astrocyte phenotype alterations. Additionally, in contrast to what occurred in formalin-injected mice, AaTs-1 treatment facilitated the firing activity of NS neurons and consistently altered the levels of some spinal cytokines under investigation in healthy mice. Based on the opposing effects of AaTs-1 under physiological and pathological conditions, we suspect that it acts as a partial agonist in vivo rather than as an antagonist of FPR-2, as other in vitro data would suggest.

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蝎毒四肽tetrascorpin-1在小鼠持久疼痛过敏模型中的抗痛觉作用和神经调节作用。

我们评估了来自南极雄虾（aat -1）的Tetrascorpin-1的作用，这是一种从蝎子毒液中获得的四肽，先前假设在体外与甲酰基肽受体-1 （FPRL-1）结合，称为甲酰基肽受体-2 (FPR-2)，对福尔马林诱导的持久疼痛超敏小鼠脊髓的疼痛反应和细胞因子，神经元和胶质形态功能改变。由于多肽的化学性质和有利于其渗透到中枢神经系统，AaTs-1每天经鼻给药10天。在注射福尔马林的小鼠中，AaTs-1治疗消除了机械性异常痛、热痛觉过敏、脊髓伤害特异性（NS）神经元的过度激活，并部分恢复了脊髓抗炎/促炎细胞因子水平和小胶质细胞/星形胶质细胞表型改变。此外，与注射福尔马林的小鼠相比，AaTs-1治疗促进了NS神经元的激活活动，并持续改变了健康小鼠中一些脊髓细胞因子的水平。基于AaTs-1在生理和病理条件下的相反作用，我们怀疑它在体内作为部分激动剂而不是FPR-2的拮抗剂，正如其他体外数据所表明的那样。

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来源期刊

Toxicon 医学-毒理学

CiteScore

4.80

自引率

10.70%

发文量

358

审稿时长

68 days

期刊介绍： Toxicon has an open access mirror Toxicon: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. An introductory offer Toxicon: X - full waiver of the Open Access fee. Toxicon''s "aims and scope" are to publish: -articles containing the results of original research on problems related to toxins derived from animals, plants and microorganisms -papers on novel findings related to the chemical, pharmacological, toxicological, and immunological properties of natural toxins -molecular biological studies of toxins and other genes from poisonous and venomous organisms that advance understanding of the role or function of toxins -clinical observations on poisoning and envenoming where a new therapeutic principle has been proposed or a decidedly superior clinical result has been obtained. -material on the use of toxins as tools in studying biological processes and material on subjects related to venom and antivenom problems. -articles on the translational application of toxins, for example as drugs and insecticides -epidemiological studies on envenoming or poisoning, so long as they highlight a previously unrecognised medical problem or provide insight into the prevention or medical treatment of envenoming or poisoning. Retrospective surveys of hospital records, especially those lacking species identification, will not be considered for publication. Properly designed prospective community-based surveys are strongly encouraged. -articles describing well-known activities of venoms, such as antibacterial, anticancer, and analgesic activities of arachnid venoms, without any attempt to define the mechanism of action or purify the active component, will not be considered for publication in Toxicon. -review articles on problems related to toxinology. To encourage the exchange of ideas, sections of the journal may be devoted to Short Communications, Letters to the Editor and activities of the affiliated societies.