Dermaseptins S4 和 B2 的新型类似物的体外抗利什曼活性和硅分子模型研究。

IF 2.2 4区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Current pharmaceutical biotechnology Pub Date : 2024-09-10 DOI:10.2174/0113892010296038240427050421
Houda Haddad, Klinger Antonio da Franca Rodrigues, Houcemeddine Othman, Leiz Maria Costa Véras, Raiza Raianne Luz Rodrigues, Ines Ouahchi, Bouraoui Ouni, Amira Zaϊri
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引用次数: 0

摘要

背景:利什曼病每年造成约 65,000 人死亡。各种利什曼原虫是内脏、皮肤或粘膜利什曼病的主要病原体,影响着全球数百万人。由于缺乏疫苗、抗药性的出现以及抗利什曼病药物引起的不良副作用,促使研究人员寻找新的治疗方法来治疗这种疾病。抗菌肽(AMPs)为促进新药的发现提供了一种选择:在本研究中,我们详细介绍了合成过程,并研究了属于皮酶肽(DS)家族的肽及其合成类似物对巴西利什曼病(Viannia)的抗利什曼活性。我们采用 MTT 试验研究了这些多肽对小鼠巨噬细胞系 RAW 264.7 的细胞毒性。随后,我们进行了分子建模分析,以探索这些衍生物与寄生虫膜相互作用的结构-功能相关性:结果:所有研究的衍生物在低浓度时都显示出浓度依赖性抗利什曼病效应。它们的效果因肽的特性而异。值得注意的是,电荷水平较高的肽具有最明显的活性。细胞毒性试验表明,与受试传统药物相比,所有受试多肽都没有细胞毒性。结构-功能关系表明,带电的 N 端可能是对原鞭毛虫产生抗利什曼病作用的原因:总之,这些结果表明,皮肤肽(DS)有可能成为开发有效抗利什曼病疗法的候选药物。
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In vitro Antileishmanial Activity and In Silico Molecular Modeling Studies of Novel Analogs of Dermaseptins S4 and B2.

Background: Leishmaniasis is responsible for approximately 65,000 annual deaths. Various Leishmania species are the predominant cause of visceral, cutaneous, or mucocutaneous leishmaniasis, affecting millions worldwide. The lack of a vaccine, emergence of resistance, and undesirable side effects caused by antileishmanial medications have prompted researchers to look for novel therapeutic approaches to treat this disease. Antimicrobial peptides (AMPs) offer an alternative for promoting the discovery of new drugs.

Methods: In this study, we detail the synthesis process and investigate the antileishmanial activity against Leishmania (Viannia) braziliensis for peptides belonging to the dermaseptin (DS) family and their synthetic analogs. The MTT assay was performed to investigate the cytotoxicity of these peptides on the murine macrophage cell line RAW 264.7. Subsequently, we performed molecular modeling analysis to explore the structure-function correlation of the derivatives interacting with the parasitic membrane.

Results: All examined derivatives displayed concentration-dependent antileishmanial effect at low concentrations. Their effectiveness varied according to the peptide's proprieties. Notably, peptides with higher levels of charge demonstrated the most pronounced activities. Cytotoxicity assays showed that all the tested peptides were not cytotoxic compared to the tested conventional drug. The structure-function relationships demonstrated that the charged N-terminus could be responsible for the antileishmanial effect observed on promastigotes.

Conclusion: Collectively, these results propose that dermaseptins (DS) might offer potential as promising candidates for the development of effective antileishmanial therapies.

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来源期刊
Current pharmaceutical biotechnology
Current pharmaceutical biotechnology 医学-生化与分子生物学
CiteScore
5.60
自引率
3.60%
发文量
203
审稿时长
6 months
期刊介绍: Current Pharmaceutical Biotechnology aims to cover all the latest and outstanding developments in Pharmaceutical Biotechnology. Each issue of the journal includes timely in-depth reviews, original research articles and letters written by leaders in the field, covering a range of current topics in scientific areas of Pharmaceutical Biotechnology. Invited and unsolicited review articles are welcome. The journal encourages contributions describing research at the interface of drug discovery and pharmacological applications, involving in vitro investigations and pre-clinical or clinical studies. Scientific areas within the scope of the journal include pharmaceutical chemistry, biochemistry and genetics, molecular and cellular biology, and polymer and materials sciences as they relate to pharmaceutical science and biotechnology. In addition, the journal also considers comprehensive studies and research advances pertaining food chemistry with pharmaceutical implication. Areas of interest include: DNA/protein engineering and processing Synthetic biotechnology Omics (genomics, proteomics, metabolomics and systems biology) Therapeutic biotechnology (gene therapy, peptide inhibitors, enzymes) Drug delivery and targeting Nanobiotechnology Molecular pharmaceutics and molecular pharmacology Analytical biotechnology (biosensing, advanced technology for detection of bioanalytes) Pharmacokinetics and pharmacodynamics Applied Microbiology Bioinformatics (computational biopharmaceutics and modeling) Environmental biotechnology Regenerative medicine (stem cells, tissue engineering and biomaterials) Translational immunology (cell therapies, antibody engineering, xenotransplantation) Industrial bioprocesses for drug production and development Biosafety Biotech ethics Special Issues devoted to crucial topics, providing the latest comprehensive information on cutting-edge areas of research and technological advances, are welcome. Current Pharmaceutical Biotechnology is an essential journal for academic, clinical, government and pharmaceutical scientists who wish to be kept informed and up-to-date with the latest and most important developments.
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