Bee venom disrupts vascular homeostasis: apitoxin and melittin trigger vascular cell toxicity and aortic dysfunction in mice.

IF 4.1 3区 医学 Q2 TOXICOLOGY
Àngel Bistué-Rovira, Montse Solé, Mateu Anguera-Tejedor, Belén Pérez, Laura García-Tercero, Andrea Díaz-Pérez, Zonia Martínez-Benitez, René Delgado-Hernández, Francesc Jiménez-Altayó
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Abstract

Bee venom (apitoxin) is a mixture of bioactive molecules, with melittin as its principal component. Although its therapeutic potential is increasingly recognized, its toxic effects on vascular homeostasis remain underexplored. We investigated the impact of apitoxin and melittin on vascular cell viability and mouse aortic function. Cytotoxicity was assessed in cultured endothelial and smooth muscle cells using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assays. Aortic function was evaluated by mounting thoracic aortas from young male and female C57BL/6J mice in tissue baths. Isometric tension was measured during phenylephrine-induced contractions, as well as endothelium-dependent (acetylcholine) and -independent (sodium nitroprusside) relaxations. To evaluate the roles of nitric oxide (NO) and oxidative stress, we used the NO synthase inhibitor Nω-nitro-L-arginine methyl ester (L-NAME) and the antioxidant superoxide dismutase (SOD), respectively. High-performance liquid chromatography analysis revealed that melittin comprised 43.80% of apitoxin. Both apitoxin and melittin exhibited concentration-dependent cytotoxicity, significantly reducing endothelial cell viability at concentrations ≥5 µg/ml, whereas smooth muscle cells were affected at lower concentrations (≥2.5 µg/ml for apitoxin; ≥1.5 µg/ml for melittin). In functional experiments, apitoxin enhanced phenylephrine-induced contractions at 1 µg/ml and impaired both endothelium-dependent and -independent relaxations at ≥0.1 µg/ml, particularly in males. Although melittin mimicked these effects, higher concentrations (≥5 µg/ml) were required, suggesting that other venom components contribute to the vascular functional toxicity of apitoxin. L-NAME and SOD prevented apitoxin-induced vascular impairments, implicating the NO pathway and oxidative stress. These findings demonstrate that apitoxin impairs vascular cell viability and aortic function at clinically relevant concentrations, underscoring both its vascular risks and therapeutic potential.

蜂毒破坏血管稳态:蜂毒毒素和蜂毒素触发小鼠血管细胞毒性和主动脉功能障碍。
蜂毒(蜂毒)是一种生物活性分子的混合物,其主要成分是蜂毒素。虽然其治疗潜力日益得到认可,但其对血管稳态的毒性作用仍未得到充分探讨。我们研究了蜂毒和蜂毒对血管细胞活力和小鼠主动脉功能的影响。采用3-(4,5-二甲基噻唑-2-基)-2,5-二苯基溴化四唑测定法评估培养的内皮细胞和平滑肌细胞的细胞毒性。在组织浴中分别取雄性和雌性C57BL/6J小鼠胸主动脉,观察其主动脉功能。在苯肾上腺素诱导的收缩以及内皮依赖性(乙酰胆碱)和非依赖性(硝普钠)松弛期间测量等长张力。为了评估一氧化氮(NO)和氧化应激的作用,我们分别使用NO合成酶抑制剂n ω-硝基- l -精氨酸甲酯(L-NAME)和抗氧化超氧化物歧化酶(SOD)。HPLC分析显示蜂毒中蜂毒素的含量为43.80%。蜂毒和蜂毒均表现出浓度依赖性的细胞毒性,当浓度≥5µg/mL时,内皮细胞活力显著降低,而当浓度较低时,平滑肌细胞受到影响(≥2.5µg/mL;蜂毒素≥1.5µg/mL)。在功能实验中,蜂毒在1µg/mL时增强了苯肾上腺素诱导的收缩,在≥0.1µg/mL时损害了内皮依赖性和非依赖性松弛,尤其是在雄性中。尽管蜂毒素模拟了这些作用,但需要更高的浓度(≥5µg/mL),这表明其他毒液成分也参与了蜂毒的血管功能毒性。L-NAME和SOD可阻止apex毒素诱导的血管损伤,涉及NO通路和氧化应激。这些研究结果表明,蜂毒在临床相关浓度下会损害血管细胞活力和主动脉功能,强调其血管风险和治疗潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Toxicological Sciences
Toxicological Sciences 医学-毒理学
CiteScore
7.70
自引率
7.90%
发文量
118
审稿时长
1.5 months
期刊介绍: The mission of Toxicological Sciences, the official journal of the Society of Toxicology, is to publish a broad spectrum of impactful research in the field of toxicology. The primary focus of Toxicological Sciences is on original research articles. The journal also provides expert insight via contemporary and systematic reviews, as well as forum articles and editorial content that addresses important topics in the field. The scope of Toxicological Sciences is focused on a broad spectrum of impactful toxicological research that will advance the multidisciplinary field of toxicology ranging from basic research to model development and application, and decision making. Submissions will include diverse technologies and approaches including, but not limited to: bioinformatics and computational biology, biochemistry, exposure science, histopathology, mass spectrometry, molecular biology, population-based sciences, tissue and cell-based systems, and whole-animal studies. Integrative approaches that combine realistic exposure scenarios with impactful analyses that move the field forward are encouraged.
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