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【科研专题】抗微生物肽(Antimicrobial Peptides)
抗微生物肽(Antimicrobial Peptides / AMPs)是一类在免疫系统中起重要作用的小分子肽。这些天然产生的肽,长度在10至60个氨基酸之间,具有杀死微生物、帮助维持免疫系统稳态和促进伤口愈合的作用。
AMPs来源于许多类型的生物,包括哺乳动物、植物、两栖动物、昆虫和微生物。这些肽可分为多类,包括抗菌、抗病毒、抗真菌、抗寄生虫和抗癌。AMPs在医疗和食品行业具有多种应用,在农业和畜牧业中也有潜在的应用。
AMPs以各种方式工作。一些AMPs可以作用于微生物的细胞膜,通过其物理/化学性质的相互作用,可产生空洞并破坏细胞膜的稳定性,导致细胞死亡。一些AMPs也可以通过内吞或渗透进入细胞。这些AMPs通过干扰不同的细胞过程,包括蛋白质合成、核酸合成、酶活性和细胞分裂,影响细胞外和细胞内水平的微生物,起免疫系统调节剂作用。它们可以帮助调节炎症,中和微生物毒素,刺激趋化,并启动适应性免疫。
由于抗菌素耐药性在医学领域的威胁越来越大,AMPs已成为研究热点。
抗细菌肽/Anti-Bacterial Peptides
抗细菌肽是一大类 AMPs。由于 AMPs 可以作用于多个靶标,与仅作用于一个靶标的传统抗生素相比,AMPs 提供了一种有效的替代方案来杀死病原体并产生更少的耐药细菌。已发现 AMPs 靶向多种细菌,包括 MRSA、单核细胞增生李斯特菌、屎肠球菌、肺炎克雷伯菌和大肠杆菌。以下是biorbyt抗细菌肽及其靶标的几个例子。
AMP | Catalog No. | Activity |
AMPR-22 | Anti-bacterial activity against sepsis causing bacteria | |
OP-145 | Anti-bacterial activity against several MRSA strains | |
BING | Antibacterial activity against gram + and – bacteria | |
Cys-Pexiganan | Antibacterial activity against gram + and - bacteria | |
BLP-3 | Antibacterial activity against gram + and - bacteria, especially against Neisseria, Pseudomonas aeruginosa, and Staphylococcus aureus |
抗病毒肽/Anti-Viral Peptides
病毒可能难以治疗,因为它们通过多种途径快速传播,在细胞内迅速变异,并且不局限于身体的一个区域。目前正在研究抗病毒肽作为帮助靶向病毒感染的选择,因为它们可以在其周期的不同阶段抑制病毒。例如,它们可以防止病毒附着在细胞膜上,阻止复制,或破坏病毒包膜。下面是biorbyt抗病毒肽及其靶点的几个例子。
AMP | Catalog No. | Activity |
Urumin | Activity against influenza A viruses | |
P9R | Activity against avian influenza A (H7N9) virus, coronaviruses, and the non-enveloped rhinovirus | |
Magainin 1* | Activity against herpes simplex virus 1 and 2 | |
Magainin 2* | Activity against herpes simplex virus 1 and 2 | |
Indolicidin* | Activity against HIV-1 virus | |
* Products with asterisks also have anti-bacterial properties. | ||
抗真菌肽/Anti-Fungal Peptides
已有研究发现抗真菌肽可抑制几种常见真菌的活性,包括白色念珠菌、曲霉和霉菌。抗真菌肽可靶向细胞壁和膜以及细胞内过程,如蛋白质和DNA合成。以下是biorbyt抗真菌肽及其靶点的几个例子。
AMP | Catalog No. | Activity |
BAC-2A* | Activity against Candida albicans | |
Histatin 3* | Activity against fungi, including Candida albicans | |
Histatin 5* | Activity against fungi, including Candida albicans | |
RsAFP2 | Activity against Candida albicans and other Candida species | |
SMAP 29* | Antifungal activity | |
* Products with asterisks also have anti-bacterial properties. | ||
抗寄生虫肽/Antiparasitic Peptides
寄生虫也可能表现出对药物的耐药性。已发现抗寄生虫肽对不同寄生虫有效,包括引起疟疾、血吸虫病、沙加斯病和利什曼病的寄生虫。蜂毒肽(Melittin)是从欧洲蜜蜂的毒液中提取的一种肽,已被证明对利什曼病和沙加斯病的寄生虫有效。
抗癌肽/Anti-Cancer Peptides
抗癌肽可以通过多种方式影响癌细胞。抗癌肽可以阻止血管生成,诱导细胞凋亡,或参与生物体的免疫系统来杀死癌细胞。比如蜂毒肽(Melittin)除了抗寄生虫特性外,也可以作为一种抗癌肽,引起乳腺癌细胞凋亡,而非癌细胞则不受伤害。还有D-K6L9 是一种在前列腺癌和乳腺癌肿瘤中引起肿瘤细胞坏死的抗癌肽。
AMP | Catalog No. | Activity |
Melittin | Haemolytic component of honey bee venom | |
D-K6L9 | Antimicrobial and anticancer peptide |
参考文献
Fernández de Ullivarri M, Arbulu S, Garcia-Gutierrez E and Cotter PD (2020) Antifungal Peptides as Therapeutic Agents. Front. Cell. Infect. Microbiol. 10:105. doi: 10.3389/fcimb.2020.00105
Huan Y, Kong Q, Mou H, Yi H. Antimicrobial Peptides: Classification, Design, Application and Research Progress in Multiple Fields. Front Microbiol. 2020 Oct 16;11:582779. doi: 10.3389/fmicb.2020.582779. PMID: 33178164; PMCID: PMC7596191.
Jabeen M, Biswas P, Islam MT, Paul R. Antiviral Peptides in Antimicrobial Surface Coatings—From Current Techniques to Potential Applications. Viruses. 2023; 15(3):640. https://doi.org/10.3390/v15030640
Mahlapuu M, Håkansson J, Ringstad L and Björn C (2016) Antimicrobial Peptides: An Emerging Category of Therapeutic Agents. Front. Cell. Infect. Microbiol. 6:194. doi: 10.3389/fcimb.2016.00194
Xuan J, Feng W, Wang J, Wang R, Zhang B, Bo L, Chen Z, Yang H, Sun L. Antimicrobial peptides for combating drug-resistant bacterial infections, Drug Resistance Updates, Volume 68, 2023, 100954, ISSN 1368-7646, https://doi.org/10.1016/j.drup.2023.100954.