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Jelleine-I

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Jelleine-I is an antibacterial peptide isolated from Apis mellifera. It has activity against gram-positive bacteria, gram-negative bacteria and fungi.

Category
Functional Peptides
Catalog number
BAT-012508
Molecular Formula
C47H76N12O9
Molecular Weight
952.2
Synonyms
Pro-Phe-Lys-Leu-Ser-Leu-His-Leu-NH2
Purity
96.8%
Sequence
PFKLSLHL-NH2
Storage
Store at -20°C
1. Multiple action mechanism and in vivo antimicrobial efficacy of antimicrobial peptide Jelleine-I
Fengjing Jia, Jiayi Wang, Lishi Zhang, Jingjing Zhou, Yuhang He, Yaqi Lu, Kexin Liu, Wenjin Yan, Kairong Wang J Pept Sci. 2021 Mar;27(3):e3294. doi: 10.1002/psc.3294. Epub 2020 Dec 6.
With the extensive use of antibiotics in medicine, agriculture and food chemistry, the emergence of multi-drug resistant bacteria become more and more frequent and posed great threats to human health and life. So novel antimicrobial agents were urgently needed to defend the resistant bacteria. Jelleine-I was a small antimicrobial peptide (AMP) with eight amino acids in its sequence. It was believed to be an ideal template for developing antimicrobial agents. In the present study, the possible action mode against both gram-negative bacteria and gram-positive bacteria and in vivo antimicrobial activity was explored. Our results showed that Jelleine-I exhibits its antimicrobial activity mainly by disrupting the integrity of the cell membrane, which would not be affected by the conventional resistant mechanism. It also aims at some intracellular targets such as genomic DNA to inhibit the growth of microbes. In addition, the result of in vivo antimicrobial activity experiment showed that Jelleine-I performed a good therapeutic effect toward the mice with Escherichia coli infected peritonitis. Notably, Jelleine-I has negligible cytotoxicity toward the tested mammalian cells, indicating excellent cell selectivity between prokaryotic cells and eurkayotic cells. In summary, our results showed that Jelleine-I would be a potential candidate to be developed as a novel antimicrobial agent.
2. Optimized Antimicrobial Peptide Jelleine-I Derivative Br-J-I Inhibits Fusobacterium Nucleatum to Suppress Colorectal Cancer Progression
Fengjing Jia, Qun Yu, Ruolei Wang, Ling Zhao, Fuwen Yuan, Haidong Guo, Yunhui Shen, Feng He Int J Mol Sci. 2023 Jan 11;24(2):1469. doi: 10.3390/ijms24021469.
Colorectal cancer (CRC) is a major health burden worldwide due to its high morbidity, mortality, and complex etiology. Fusobacterium nucleatum (Fn), a Gram-negative anaerobe found in 30% of CRC patients, promotes CRC carcinogenesis, metastasis, and chemoresistance. Effective antimicrobial treatment is an unmet need for the rising CRC burden. Antimicrobial peptides (AMPs) represent a new class of antimicrobial drugs. In our previous study, we did the structure-activity study of Jelleine-I (J-I) and identified several halogenated J-I derivatives Cl-J-I, Br-J-I, and I-J-I. To determine whether those J-I derivatives can be a new therapy for bacterial-associated CRC, here we tested the antibacterial activities of these AMPs against Fn and their effects on CRC development. We found that Br-J-I showed the highest anti-Fn activity and Br-J-I may target membrane-associated FadA for Fn membrane disruption. More importantly, Fn promoted the growth of CRC cells-derived xenograft tumors. Br-J-I suppressed Fn load, colon inflammation, and Fn-induced CRC growth. Of note, Br-J-I induced better anti-CRC effects than common antibiotic metronidazole and Br-J-I sensitized the cancer-killing effect of chemotherapy drug 5-fluorouracil. These results suggest that Br-J-I could be considered as an adjunctive agent for CRC treatment and AMPs-based combination treatment is a new strategy for CRC in the future.
3. The in vitro, in vivo antifungal activity and the action mode of Jelleine-I against Candida species
Fengjing Jia, Jiayi Wang, Jinxiu Peng, Ping Zhao, Ziqing Kong, Kairong Wang, Wenjin Yan, Rui Wang Amino Acids. 2018 Feb;50(2):229-239. doi: 10.1007/s00726-017-2507-1. Epub 2017 Nov 3.
Recently, the mortality of life-threatening fungal infections increased dramatically. However, there are few antifungals existed. Antimicrobial peptides (AMPs) as promising antifungal candidates have attracted much attention. Here, we present a small antimicrobial peptide Jelleine-I that had potent in vitro and in vivo antifungal activity. Negligible hemolytic activity and in vivo toxicity were observed. Selectivity index (SI) of Jelleine-I is at least 4.6 times higher than amphotericin B. Jelleine-I could increase the production of cellular ROS and bind with genome DNA. This may contribute to its antifungal activity. Furthermore, drug resistance is not induced when the fungal cells were repeatedly treated by Jelleine-I. In conclusion, our results suggest that Jelleine-I may have the potential to be developed as a novel antifungal agent.
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