TY - JOUR
T1 - The interaction between carbohydrates and the antimicrobial peptide P-113Tri is involved in the killing of candida albicans
AU - Lin, Guan Yu
AU - Chang, Chuan Fa
AU - Lan, Chung Yu
N1 - Funding Information:
Funding: This work was supported by grants MOST108-2311-B-007-005 and MOST105-2311-B-007-007-MY3 (to CYL). GYL was supported by a doctoral student fellowship from the Ministry of Education, Taiwan. The funders had no role in study design, data collection and analysis, or the decision to submit the work for publication.
Funding Information:
This work was supported by grants MOST 108-2311-B-007-005 and MOST 105-2311-B-007-007-MY3 (to CYL). GYL was supported by a doctoral student fellowship from the Ministry of Education, Taiwan. The funders had no role in study design, data collection and analysis, or the decision to submit the work for publication. We thank Neil A. R. Gow (University of Exeter, UK) and Joachim F. Ernst (Heinrich-Heine-Universität, Germany) for generously providing strains. We thank for Yuan-Chuan Lee (Johns Hopkins University, USA) providing saccharides and valuable comments. We also thank the support from the confocal imaging core in National Tsing Hua University (sponsored by MOST 108-2731-M-007-001), and Mr. Che-Kang Chang for technical assistance in this study. We appreciate the structural bioinformatics service provided by the BP Bioinformatics Core (http//:www.tbi.org.tw), funded by National Core Facility for Biopharmaceuticals (NCFB), MOST 108-2319-B-400-001.
Funding Information:
Acknowledgments: We thank Neil A. R. Gow (University of Exeter, UK) and Joachim F. Ernst (Heinrich-Heine-Universität, Germany) for generously providing strains. We thank for Yuan-Chuan Lee (Johns Hopkins University, USA) providing saccharides and valuable comments. We also thank the support from the confocal imaging core in National Tsing Hua University (sponsored by MOST 108-2731-M-007-001), and Mr. Che-Kang Chang for technical assistance in this study. We appreciate the structural bioinformatics service provided by the BP Bioinformatics Core (http//:www.tbi.org.tw), funded by National Core Facility for Biopharmaceuticals (NCFB), MOST 108-2319-B-400-001.
Publisher Copyright:
© 2020 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2020/2
Y1 - 2020/2
N2 - The emergence of drug resistance to Candida albicans is problematic in the clinical setting. Therefore, developing new antifungal drugs is in high demand. Our previous work indicated that the antimicrobial peptide P-113Tri exhibited higher antifungal activity against planktonic cells, biofilm cells, and clinical isolates of Candida species compared to its parental peptide P-113. In this study, we further investigated the difference between these two peptides in their mechanisms against C. albicans. Microscopic examination showed that P-113 rapidly gained access to C. albicans cells. However, most of the P-113Tri remained on the cell surface. Moreover, using a range of cell wall-defective mutants and competition assays, the results indicated that phosphomannan and N-linked mannan in the cell wall are important for peptide binding to C. albicans cells. Furthermore, the addition of exogenous phosphosugars reduced the efficacy of the peptide, suggesting that negatively charged phosphosugars also contributed to the peptide binding to the cell wall polysaccharides. Finally, using a glycan array, P-113Tri, but not P-113, can bind to other glycans commonly present on other microbial and mammalian cells. Together, these results suggest that P-113 and P-113Tri have fundamental differences in their interaction with C. albicans and candidacidal activities.
AB - The emergence of drug resistance to Candida albicans is problematic in the clinical setting. Therefore, developing new antifungal drugs is in high demand. Our previous work indicated that the antimicrobial peptide P-113Tri exhibited higher antifungal activity against planktonic cells, biofilm cells, and clinical isolates of Candida species compared to its parental peptide P-113. In this study, we further investigated the difference between these two peptides in their mechanisms against C. albicans. Microscopic examination showed that P-113 rapidly gained access to C. albicans cells. However, most of the P-113Tri remained on the cell surface. Moreover, using a range of cell wall-defective mutants and competition assays, the results indicated that phosphomannan and N-linked mannan in the cell wall are important for peptide binding to C. albicans cells. Furthermore, the addition of exogenous phosphosugars reduced the efficacy of the peptide, suggesting that negatively charged phosphosugars also contributed to the peptide binding to the cell wall polysaccharides. Finally, using a glycan array, P-113Tri, but not P-113, can bind to other glycans commonly present on other microbial and mammalian cells. Together, these results suggest that P-113 and P-113Tri have fundamental differences in their interaction with C. albicans and candidacidal activities.
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UR - http://www.scopus.com/inward/citedby.url?scp=85079909058&partnerID=8YFLogxK
U2 - 10.3390/microorganisms8020299
DO - 10.3390/microorganisms8020299
M3 - Article
AN - SCOPUS:85079909058
SN - 2076-2607
VL - 8
JO - Microorganisms
JF - Microorganisms
IS - 2
M1 - 299
ER -