Melittin—The principal toxin of honeybee venom—Is also produced in the honeybee fat body

IF 3.9 3区 环境科学与生态学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Markéta Hejníková , Aleš Tomčala , Jan Černý , Dalibor Kodrík
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Abstract

Melittin is a powerful toxin present in honeybee venom that is active in a wide range of animals, from insects to humans. Melittin exerts numerous biological, toxicological, and pharmacological effects, the most important of which is destruction of the cell membrane. The phospholipase activity of melittin and its ability to activate phospholipases in the venom contribute to these actions. Using analytical methods, we discovered that the honeybee Apis mellifera produces melittin not only in the venom gland but also in its fat body cells, which remain resistant to this toxin's effects. We suggest that melittin acts as an anti-bacterial agent, since its gene expression is significantly upregulated when honeybees are infected with Escherichia coli and Listeria monocytogenes bacteria; additionally, melittin effectively kills these bacteria in the disc diffusion test. We hypothesize that the chemical and physicochemical properties of the melittin molecule (hydrophilicity, lipophilicity, and capacity to form tetramers) in combination with reactive conditions (melittin concentration, salt concentration, pH, and temperature) are responsible for the targeted destruction of bacterial cells and apparent tolerance towards own tissue cells. Considering that melittin is an important current and, importantly, potential broad-spectrum medication, a thorough understanding of the observed phenomena may significantly increase its use in clinical practice.

Abstract Image

Melittin - 蜜蜂毒液的主要毒素 - 也在蜜蜂脂肪体中产生
Melittin 是蜜蜂毒液中的一种强效毒素,在从昆虫到人类的多种动物体内都具有活性。美乐汀具有多种生物、毒理和药理作用,其中最重要的作用是破坏细胞膜。美乐汀的磷脂酶活性及其激活毒液中磷脂酶的能力有助于发挥这些作用。通过分析方法,我们发现蜜蜂不仅在毒腺中产生美乐汀,而且在其脂肪体细胞中也产生美乐汀,而这些细胞对这种毒素的作用仍有抵抗力。我们认为美乐汀具有抗菌作用,因为当蜜蜂感染大肠杆菌和单核细胞增生李斯特菌时,美乐汀的基因表达会显著上调;此外,美乐汀还能在盘扩散试验中有效杀死这些细菌。我们推测,美乐汀分子的化学和物理化学特性(亲水性、亲油性和形成四聚体的能力)与反应条件(美乐汀浓度、盐浓度、pH 值和温度)相结合,是美乐汀定向破坏细菌细胞并对自身组织细胞产生明显耐受性的原因。考虑到美乐汀是当前一种重要的、重要的潜在广谱药物,对观察到的现象进行透彻的了解可能会大大提高其在临床实践中的应用。
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来源期刊
CiteScore
7.50
自引率
5.10%
发文量
206
审稿时长
30 days
期刊介绍: Part C: Toxicology and Pharmacology. This journal is concerned with chemical and drug action at different levels of organization, biotransformation of xenobiotics, mechanisms of toxicity, including reactive oxygen species and carcinogenesis, endocrine disruptors, natural products chemistry, and signal transduction with a molecular approach to these fields.
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