Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores

Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores

Theonellamides (TNMs) are antifungal and cytotoxic bicyclic dodecapeptides derived from the marine sponge Theonella sp. These peptides specifically bind to 3β-hydroxysterols, resulting in 1,3-β-d-glucan overproduction and membrane damage in yeasts. The inclusion of cholesterol or ergosterol in phosp...

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Main Authors: Espiritu, Rafael Atillo, Cornelio, Kimberly, Kinoshita, Masanao, Matsumori, Nobuaki, Murata, Michio, Nishimura, Shinichi, Kakeya, Hideaki, Yoshida, Minoru, Matsunaga, Shigeki
Format: text
Published: Animo Repository 2016
Subjects:
Oligopeptides
Peptides
Sponges
Liposomes
Bilayer lipid membranes
Chemistry
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/2962
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-39612021-11-18T01:03:56Z Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores Espiritu, Rafael Atillo Cornelio, Kimberly Kinoshita, Masanao Matsumori, Nobuaki Murata, Michio Nishimura, Shinichi Kakeya, Hideaki Yoshida, Minoru Matsunaga, Shigeki Theonellamides (TNMs) are antifungal and cytotoxic bicyclic dodecapeptides derived from the marine sponge Theonella sp. These peptides specifically bind to 3β-hydroxysterols, resulting in 1,3-β-d-glucan overproduction and membrane damage in yeasts. The inclusion of cholesterol or ergosterol in phosphatidylcholine membranes significantly enhanced the membrane affinity of theonellamide A (TNM-A) because of its direct interaction with 3β-hydroxyl groups of sterols. To better understand TNM-induced membrane alterations, we investigated the effects of TNM-A on liposome morphology. 31P nuclear magnetic resonance (NMR) and dynamic light scattering (DLS) measurements revealed that the premixing of TNM-A with lipids induced smaller vesicle formation. When giant unilamellar vesicles were incubated with exogenously added TNM-A, confocal micrographs showed dynamic changes in membrane morphology, which were more frequently observed in cholesterol-containing than sterol-free liposomes. In conjunction with our previous data, these results suggest that the membrane action of TNM-A proceeds in two steps: 1) TNM-A binds to the membrane surface through direct interaction with sterols and 2) accumulated TNM-A modifies the local membrane curvature in a concentration-dependent manner, resulting in dramatic membrane morphological changes and membrane disruption. © 2016 Elsevier B.V. All rights reserved. 2016-06-01T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/2962 Faculty Research Work Animo Repository Oligopeptides Peptides Sponges Liposomes Bilayer lipid membranes Chemistry
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Oligopeptides
Peptides
Sponges
Liposomes
Bilayer lipid membranes
Chemistry
spellingShingle Oligopeptides
Peptides
Sponges
Liposomes
Bilayer lipid membranes
Chemistry
Espiritu, Rafael Atillo
Cornelio, Kimberly
Kinoshita, Masanao
Matsumori, Nobuaki
Murata, Michio
Nishimura, Shinichi
Kakeya, Hideaki
Yoshida, Minoru
Matsunaga, Shigeki
Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores
description Theonellamides (TNMs) are antifungal and cytotoxic bicyclic dodecapeptides derived from the marine sponge Theonella sp. These peptides specifically bind to 3β-hydroxysterols, resulting in 1,3-β-d-glucan overproduction and membrane damage in yeasts. The inclusion of cholesterol or ergosterol in phosphatidylcholine membranes significantly enhanced the membrane affinity of theonellamide A (TNM-A) because of its direct interaction with 3β-hydroxyl groups of sterols. To better understand TNM-induced membrane alterations, we investigated the effects of TNM-A on liposome morphology. 31P nuclear magnetic resonance (NMR) and dynamic light scattering (DLS) measurements revealed that the premixing of TNM-A with lipids induced smaller vesicle formation. When giant unilamellar vesicles were incubated with exogenously added TNM-A, confocal micrographs showed dynamic changes in membrane morphology, which were more frequently observed in cholesterol-containing than sterol-free liposomes. In conjunction with our previous data, these results suggest that the membrane action of TNM-A proceeds in two steps: 1) TNM-A binds to the membrane surface through direct interaction with sterols and 2) accumulated TNM-A modifies the local membrane curvature in a concentration-dependent manner, resulting in dramatic membrane morphological changes and membrane disruption. © 2016 Elsevier B.V. All rights reserved.
format text
author Espiritu, Rafael Atillo
Cornelio, Kimberly
Kinoshita, Masanao
Matsumori, Nobuaki
Murata, Michio
Nishimura, Shinichi
Kakeya, Hideaki
Yoshida, Minoru
Matsunaga, Shigeki
author_facet Espiritu, Rafael Atillo
Cornelio, Kimberly
Kinoshita, Masanao
Matsumori, Nobuaki
Murata, Michio
Nishimura, Shinichi
Kakeya, Hideaki
Yoshida, Minoru
Matsunaga, Shigeki
author_sort Espiritu, Rafael Atillo
title Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores
title_short Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores
title_full Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores
title_fullStr Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores
title_full_unstemmed Marine sponge cyclic peptide theonellamide A disrupts lipid bilayer integrity without forming distinct membrane pores
title_sort marine sponge cyclic peptide theonellamide a disrupts lipid bilayer integrity without forming distinct membrane pores
publisher Animo Repository
publishDate 2016
url https://animorepository.dlsu.edu.ph/faculty_research/2962
_version_ 1718383283791724544

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