Membrane-Interacting Antifungal Peptides

Struyfs, Caroline; Cammue, Bruno P. A.; Thevissen, Karin

doi:10.3389/fcell.2021.649875

Cited by 60 publications

(63 citation statements)

References 254 publications

(300 reference statements)

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“…Some studies have found that the intracellular targets can be affected by AMPs though ROS production, programmed cell death, mitochondrial dysfunction, disruption of cation homeostasis, ATP efflux, cell cycle impairment, autophagy, and vacuolar dysfunction. AMPs, which finish interacting with the target, can be internalized or can remain outside the fungal cell ( 35 ).…”

Section: Biological Function and Active Mechanism Of Ampsmentioning

confidence: 99%

Antimicrobial Peptides in Gut Health: A Review

Gong

Shi

et al. 2021

Front. Nutr.

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Animal antimicrobial peptides (AMPs), known as broad-spectrum and high-efficiency antibacterial activity, are important effector molecules in innate immune system. AMPs not only have antimicrobial, antiviral and antitumor effects but also exhibit important effects in vivo, such as anti-inflammatory response, recruiting immune cells, promoting epithelial damage repair, and promoting phagocytosis of bacteria. However, research on the application of AMPs is incomplete and controversial. This review mainly introduces the classification of AMPs, biological functions, as well as the mechanisms of action, expression rules, and nutrition regulation from three perspectives, aiming to provide important information for the application of AMPs.

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Section: Biological Function and Active Mechanism Of Ampsmentioning

confidence: 99%

Antimicrobial Peptides in Gut Health: A Review

Gong

Shi

et al. 2021

Front. Nutr.

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“…Pathogenic fungi are considered a greater threat to plant and animal biodiversity than other taxonomic classes [ 101 ]. As part of the intrinsic immune system, BAMPs have great potential to be developed as novel antifungal agents due to their broad-spectrum activity, selective targeting, multiple mechanisms of action, and limited cell cytotoxicity [ 7 , 102 ]. Elucidating the functional mechanism of BAMPs is key to uncovering their application potential and developing new therapeutic approaches.…”

Section: Antimicrobial Activity Of Bamps Against Targeted Organisms and Cancer Cellsmentioning

confidence: 99%

“…Unlike the well-known PTI (pattern-associated triggered immunity) and ETI (effector-associated triggered immunity) immune responses in plants, the broad-spectrum antimicrobial activity of BAMPs is largely due to targeting lipid structures of microbial cell membranes, thus disrupting membrane structure [ 3 , 4 ] and leading to content leakage and cell death through a combination of membrane lysis and cytotoxicity [ 5 , 6 ]. However, more complex mechanisms also exist, including interaction with specific lipids, cell cycle arrest, reactive oxygen species (ROS) production, programmed cell death, autophagy, cell signaling, and immune response [ 7 , 8 ]. BAMPs are thus responsible for durable resistance in plants.…”

Section: Introductionmentioning

confidence: 99%

Short Peptides Make a Big Difference: The Role of Botany-Derived AMPs in Disease Control and Protection of Human Health

Luo

Feng

et al. 2021

IJMS

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Botany-derived antimicrobial peptides (BAMPs), a class of small, cysteine-rich peptides produced in plants, are an important component of the plant immune system. Both in vivo and in vitro experiments have demonstrated their powerful antimicrobial activity. Besides in plants, BAMPs have cross-kingdom applications in human health, with toxic and/or inhibitory effects against a variety of tumor cells and viruses. With their diverse molecular structures, broad-spectrum antimicrobial activity, multiple mechanisms of action, and low cytotoxicity, BAMPs provide ideal backbones for drug design, and are potential candidates for plant protection and disease treatment. Lots of original research has elucidated the properties and antimicrobial mechanisms of BAMPs, and characterized their surface receptors and in vivo targets in pathogens. In this paper, we review and introduce five kinds of representative BAMPs belonging to the pathogenesis-related protein family, dissect their antifungal, antiviral, and anticancer mechanisms, and forecast their prospects in agriculture and global human health. Through the deeper understanding of BAMPs, we provide novel insights for their applications in broad-spectrum and durable plant disease prevention and control, and an outlook on the use of BAMPs in anticancer and antiviral drug design.

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“…Sporothrix globosa is the predominant etiologic agent that brings about sporotrichosis in East Asia, notably in northeast China ( Yao et al, 2020 ). An epidemiologic study found that approximately 1.6 million people die from fungal infections in the world each year ( Struyfs et al, 2021a ), and a global increase in sporotrichosis incidence occurs every year, especially in the tropical and subtropical regions ( Chakrabarti et al, 2015 ). Current therapies to treat sporotrichosis are very limited, which mainly include antifungal drugs, photodynamic therapy, thermotherapy, cryotherapy, and surgery, and the effects are still far from satisfactory ( Honse et al, 2010 ; MF Matos et al, 2020 ; Soeiro Sampaio et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

“…The plasma membrane disruption pathway indicates that the positively charged antimicrobial peptides bind to the negatively charged membrane of the pathogens, destroying its integrity, leaking contents, and causing death ( Guilhelmelli et al, 2013 ; Deslouches and Di, 2017 ; Mwangi et al, 2019 ). In addition, non-membranolytic cytotoxicity is also involved in antimicrobial activity, such as genetic material damage, immune regulation, and apoptosis ( Wassing et al, 2015 ; Struyfs et al, 2021b ). Unlike traditional antibiotics, antimicrobial peptides have many advantages such as quick killing effect and low tendency to induce resistance ( Guilhelmelli et al, 2016 ; Xu et al, 2020 ; Jayawant et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Antifungal Activity of ToAP2D Peptide Against Sporothrix globosa

Yan

et al. 2021

Front. Bioeng. Biotechnol.

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Improving clinical efficacy and reducing treatment time have been the focus of sporotrichosis therapy. Antimicrobial peptides ToAP2A, ToAP2C, and ToAP2D were synthesized on the basis of ToAP2 (AP02759), a peptide derived from the antimicrobial peptide database by the database filtering technology, and their physicochemical characteristics were analyzed. Compared with template peptide ToAP2, the modified peptides had much shorter length, lower molecular weight but significantly greater stability, which in return resulted in increases in the aliphatic index, hydrophilicity, and protein binding ability. Here, we show that the three derived peptides inhibit the growth of Sporothrix globosa, among which ToAP2D had the strongest anti-fungal activity. ToAP2D showed good serum stability without acute toxicity. The ToAP2D treatment inhibited the growth of S. globosa and enhanced apoptosis, which was evidenced by the upregulation of apoptosis-related protein caspase-3. The scanning electron microscopy analysis revealed deformation and rupture of S. globosa. The levels of mitochondrial membrane potential were decreased and that of the reactive oxygen species (ROS) were increased in S. globosa upon ToAP2D treatment. Moreover, ToAP2D activated metacaspase. In the in vivo study, we further demonstrated that ToAP2D inhibited the S. globosa infection of mice footpads, and its efficiency was nearly comparable to itraconazole. In summary, our results suggest that antimicrobial peptide ToAP2D has the potential for sporotrichosis therapy.

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Membrane-Interacting Antifungal Peptides

Cited by 60 publications

References 254 publications

Antimicrobial Peptides in Gut Health: A Review

Antimicrobial Peptides in Gut Health: A Review

Short Peptides Make a Big Difference: The Role of Botany-Derived AMPs in Disease Control and Protection of Human Health

Antifungal Activity of ToAP2D Peptide Against Sporothrix globosa

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