A role in intracellular K+ in protecting pathogenic dimorphic fungi against induced cell death by bioinspired antimicrobial peptides

Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the γ-core of the Vu-Def1 seed defensin from Vigna unguiculata L. Walp. named RR, D-RR, and WR, and assessed their actions on Candida tropicalis and...

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Published inBiochimica et biophysica acta. General subjects Vol. 1869; no. 6; p. 130795
Main Authors Damica, Filipe Zaniratti, Lucas, Douglas Ribeiro, Toledo, Estefany Bras, de Carvalho Ribeiro, Marilúcia, Façanha, Anna Lvovna Okorokova, Zeraik, Ana Eliza, Seabra, Sérgio Henrique, da Silva, Juliana Azevedo, Gomes, Valdirene Moreira, de Oliveira Carvalho, André
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.05.2025
Subjects
Antifungal Agents - chemistry
Antifungal Agents - pharmacology
Antimicrobial Peptides - chemistry
Antimicrobial Peptides - pharmacology
Candida albicans - drug effects
Candida albicans - metabolism
Candida tropicalis - drug effects
Candida tropicalis - metabolism
Cell Death - drug effects
Extracellular acidification
Internalization of peptides
Ion flux, Ultrastructure
Mitochondria - drug effects
Mitochondria - metabolism
Oxidative Stress - drug effects
Potassium - metabolism
AA
RR
ΔpH
SSC
AMP
Internalization of peptides
H2DCFDA
dAMP
4-AP
NPPB
TEA
CFU
Δψ
D-RR
FSC
ROS
Extracellular acidification
PI
5-FAM
WR
Ion flux, Ultrastructure
AcA
DIC
Online AccessGet full text
ISSN0304-4165
1872-8006
1872-8006
DOI10.1016/j.bbagen.2025.130795

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Abstract Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the γ-core of the Vu-Def1 seed defensin from Vigna unguiculata L. Walp. named RR, D-RR, and WR, and assessed their actions on Candida tropicalis and Candida albicans. Amidst their actions are cell shrinkage caused by K+ efflux from fungal cells. K+ involvement in fungal death by these peptides was explored. We assessed cell shrinkage, oxidative stress, mitochondria hyperpolarization, membrane permeabilization, medium acidification, antimicrobial activity under hypoosmotic conditions, and cellular degradation. Viability assays were performed with channel blockers and K+ addition at various times. The interactions of dAMPs with salts and fungal cells were analyzed using circular dichroism and microscopy. K+ and Cl− channels were not directly involved in dAMPs-induced death. Supplementation with K+ protected fungal cells from death. In tests, cations often deactivated them through charge neutralization. Peptides maintained their conformation with K+ and were found in cell cytoplasm indicating K+ did not neutralize charges. K+ did not prevent oxidative stress, but protected from cell shrinkage and mitochondria hyperpolarization. dAMPs rapidly stimulated medium acidification, followed by inhibition after 1 min, and K+ prevented acidification. Membrane permeabilization occurred after 20 min, faster with WR, explaining lack of protection from blockers. Fungal death was accelerated under hypoosmotic conditions. Electrophoresis revealed protein degradation, while ultrastructural analysis of the cells showed vacuolization, indicative of cytoplasmic degradation. Thus, K+ prevented cell death by maintaining internal levels, averting activation of cell degradation process. •The peptides enter the fungal cytoplasm, and the entrance is not precluded by K+.•K+ did not block the toxicity of the peptides by surface charge neutralization.•K+ addition to the medium protects fungi from death induced by the peptides.•Fungi preincubated under hypoosmotic conditions were killed faster by the peptides.•K+ protection is related to the maintenance of its critical intracellular concentration.
AbstractList Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the γ-core of the Vu-Def seed defensin from Vigna unguiculata L. Walp. named RR, D-RR, and WR, and assessed their actions on Candida tropicalis and Candida albicans. Amidst their actions are cell shrinkage caused by K efflux from fungal cells. K involvement in fungal death by these peptides was explored. We assessed cell shrinkage, oxidative stress, mitochondria hyperpolarization, membrane permeabilization, medium acidification, antimicrobial activity under hypoosmotic conditions, and cellular degradation. Viability assays were performed with channel blockers and K addition at various times. The interactions of dAMPs with salts and fungal cells were analyzed using circular dichroism and microscopy. K and Cl channels were not directly involved in dAMPs-induced death. Supplementation with K protected fungal cells from death. In tests, cations often deactivated them through charge neutralization. Peptides maintained their conformation with K and were found in cell cytoplasm indicating K did not neutralize charges. K did not prevent oxidative stress, but protected from cell shrinkage and mitochondria hyperpolarization. dAMPs rapidly stimulated medium acidification, followed by inhibition after 1 min, and K prevented acidification. Membrane permeabilization occurred after 20 min, faster with WR, explaining lack of protection from blockers. Fungal death was accelerated under hypoosmotic conditions. Electrophoresis revealed protein degradation, while ultrastructural analysis of the cells showed vacuolization, indicative of cytoplasmic degradation. Thus, K prevented cell death by maintaining internal levels, averting activation of cell degradation process.
Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the γ-core of the Vu-Def1 seed defensin from Vigna unguiculata L. Walp. named RR, D-RR, and WR, and assessed their actions on Candida tropicalis and Candida albicans. Amidst their actions are cell shrinkage caused by K+ efflux from fungal cells. K+ involvement in fungal death by these peptides was explored. We assessed cell shrinkage, oxidative stress, mitochondria hyperpolarization, membrane permeabilization, medium acidification, antimicrobial activity under hypoosmotic conditions, and cellular degradation. Viability assays were performed with channel blockers and K+ addition at various times. The interactions of dAMPs with salts and fungal cells were analyzed using circular dichroism and microscopy. K+ and Cl- channels were not directly involved in dAMPs-induced death. Supplementation with K+ protected fungal cells from death. In tests, cations often deactivated them through charge neutralization. Peptides maintained their conformation with K+ and were found in cell cytoplasm indicating K+ did not neutralize charges. K+ did not prevent oxidative stress, but protected from cell shrinkage and mitochondria hyperpolarization. dAMPs rapidly stimulated medium acidification, followed by inhibition after 1 min, and K+ prevented acidification. Membrane permeabilization occurred after 20 min, faster with WR, explaining lack of protection from blockers. Fungal death was accelerated under hypoosmotic conditions. Electrophoresis revealed protein degradation, while ultrastructural analysis of the cells showed vacuolization, indicative of cytoplasmic degradation. Thus, K+ prevented cell death by maintaining internal levels, averting activation of cell degradation process.Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the γ-core of the Vu-Def1 seed defensin from Vigna unguiculata L. Walp. named RR, D-RR, and WR, and assessed their actions on Candida tropicalis and Candida albicans. Amidst their actions are cell shrinkage caused by K+ efflux from fungal cells. K+ involvement in fungal death by these peptides was explored. We assessed cell shrinkage, oxidative stress, mitochondria hyperpolarization, membrane permeabilization, medium acidification, antimicrobial activity under hypoosmotic conditions, and cellular degradation. Viability assays were performed with channel blockers and K+ addition at various times. The interactions of dAMPs with salts and fungal cells were analyzed using circular dichroism and microscopy. K+ and Cl- channels were not directly involved in dAMPs-induced death. Supplementation with K+ protected fungal cells from death. In tests, cations often deactivated them through charge neutralization. Peptides maintained their conformation with K+ and were found in cell cytoplasm indicating K+ did not neutralize charges. K+ did not prevent oxidative stress, but protected from cell shrinkage and mitochondria hyperpolarization. dAMPs rapidly stimulated medium acidification, followed by inhibition after 1 min, and K+ prevented acidification. Membrane permeabilization occurred after 20 min, faster with WR, explaining lack of protection from blockers. Fungal death was accelerated under hypoosmotic conditions. Electrophoresis revealed protein degradation, while ultrastructural analysis of the cells showed vacuolization, indicative of cytoplasmic degradation. Thus, K+ prevented cell death by maintaining internal levels, averting activation of cell degradation process.
Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the γ-core of the Vu-Def1 seed defensin from Vigna unguiculata L. Walp. named RR, D-RR, and WR, and assessed their actions on Candida tropicalis and Candida albicans. Amidst their actions are cell shrinkage caused by K+ efflux from fungal cells. K+ involvement in fungal death by these peptides was explored. We assessed cell shrinkage, oxidative stress, mitochondria hyperpolarization, membrane permeabilization, medium acidification, antimicrobial activity under hypoosmotic conditions, and cellular degradation. Viability assays were performed with channel blockers and K+ addition at various times. The interactions of dAMPs with salts and fungal cells were analyzed using circular dichroism and microscopy. K+ and Cl− channels were not directly involved in dAMPs-induced death. Supplementation with K+ protected fungal cells from death. In tests, cations often deactivated them through charge neutralization. Peptides maintained their conformation with K+ and were found in cell cytoplasm indicating K+ did not neutralize charges. K+ did not prevent oxidative stress, but protected from cell shrinkage and mitochondria hyperpolarization. dAMPs rapidly stimulated medium acidification, followed by inhibition after 1 min, and K+ prevented acidification. Membrane permeabilization occurred after 20 min, faster with WR, explaining lack of protection from blockers. Fungal death was accelerated under hypoosmotic conditions. Electrophoresis revealed protein degradation, while ultrastructural analysis of the cells showed vacuolization, indicative of cytoplasmic degradation. Thus, K+ prevented cell death by maintaining internal levels, averting activation of cell degradation process. •The peptides enter the fungal cytoplasm, and the entrance is not precluded by K+.•K+ did not block the toxicity of the peptides by surface charge neutralization.•K+ addition to the medium protects fungi from death induced by the peptides.•Fungi preincubated under hypoosmotic conditions were killed faster by the peptides.•K+ protection is related to the maintenance of its critical intracellular concentration.
ArticleNumber 130795
Author Seabra, Sérgio Henrique
Toledo, Estefany Bras
Lucas, Douglas Ribeiro
da Silva, Juliana Azevedo
de Carvalho Ribeiro, Marilúcia
Zeraik, Ana Eliza
de Oliveira Carvalho, André
Damica, Filipe Zaniratti
Gomes, Valdirene Moreira
Façanha, Anna Lvovna Okorokova
Author_xml – sequence: 1
  givenname: Filipe Zaniratti
  surname: Damica
  fullname: Damica, Filipe Zaniratti
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 2
  givenname: Douglas Ribeiro
  surname: Lucas
  fullname: Lucas, Douglas Ribeiro
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 3
  givenname: Estefany Bras
  surname: Toledo
  fullname: Toledo, Estefany Bras
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 4
  givenname: Marilúcia
  surname: de Carvalho Ribeiro
  fullname: de Carvalho Ribeiro, Marilúcia
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 5
  givenname: Anna Lvovna Okorokova
  surname: Façanha
  fullname: Façanha, Anna Lvovna Okorokova
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 6
  givenname: Ana Eliza
  surname: Zeraik
  fullname: Zeraik, Ana Eliza
  organization: Laboratório de Química e Função de Proteínas e Peptídeos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 7
  givenname: Sérgio Henrique
  surname: Seabra
  fullname: Seabra, Sérgio Henrique
  organization: Laboratório de Biologia Celular e Tecidual, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 8
  givenname: Juliana Azevedo
  surname: da Silva
  fullname: da Silva, Juliana Azevedo
  organization: Laboratório de Biologia do Reconhecer, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 9
  givenname: Valdirene Moreira
  surname: Gomes
  fullname: Gomes, Valdirene Moreira
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
– sequence: 10
  givenname: André
  surname: de Oliveira Carvalho
  fullname: de Oliveira Carvalho, André
  email: andre@uenf.br
  organization: Laboratório de Fisiologia e Bioquímica de Microrganismos, Centro de Biociências e Biotecnologia, Universidade Estadual do Norte Fluminense Darcy Ribeiro, Campos dos Goytacazes, RJ 28013-602, Brazil
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Keywords AA
RR
ΔpH
SSC
AMP
Internalization of peptides
H2DCFDA
dAMP
4-AP
NPPB
TEA
CFU
Δψ
D-RR
FSC
ROS
Extracellular acidification
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WR
Ion flux, Ultrastructure
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DIC
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Snippet Antimicrobial peptides (AMPs) are promising drugs, though their fungal combat mechanisms remain partly unclear. We designed three AMPs (dAMPs) based on the...
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SubjectTerms Antifungal Agents - chemistry
Antifungal Agents - pharmacology
Antimicrobial Peptides - chemistry
Antimicrobial Peptides - pharmacology
Candida albicans - drug effects
Candida albicans - metabolism
Candida tropicalis - drug effects
Candida tropicalis - metabolism
Cell Death - drug effects
Extracellular acidification
Internalization of peptides
Ion flux, Ultrastructure
Mitochondria - drug effects
Mitochondria - metabolism
Oxidative Stress - drug effects
Potassium - metabolism
Title A role in intracellular K+ in protecting pathogenic dimorphic fungi against induced cell death by bioinspired antimicrobial peptides
URI https://dx.doi.org/10.1016/j.bbagen.2025.130795
https://www.ncbi.nlm.nih.gov/pubmed/40118348
https://www.proquest.com/docview/3180198769
Volume 1869
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