Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.

Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.

Candida albicans is a major human pathogen whose treatment is challenging due to antifungal drug toxicity, drug resistance and paucity of antifungal agents available. Myrocin (MYR) inhibits sphingosine synthesis, a precursor of sphingolipids, an important cell membrane and signaling molecule compone...

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Main Authors: Nadja Rodrigues de Melo, Ahmed Abdrahman, Carolyn Greig, Krishnendu Mukherjee, Catherine Thornton, Norman A Ratcliffe, Andreas Vilcinskas, Tariq M Butt
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24260135/pdf/?tool=EBI
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spelling doaj-6d66e5047bb547e09bedfbf2992af3a72021-03-03T22:46:10ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-01811e7890510.1371/journal.pone.0078905Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.Nadja Rodrigues de MeloAhmed AbdrahmanCarolyn GreigKrishnendu MukherjeeCatherine ThorntonNorman A RatcliffeAndreas VilcinskasTariq M ButtCandida albicans is a major human pathogen whose treatment is challenging due to antifungal drug toxicity, drug resistance and paucity of antifungal agents available. Myrocin (MYR) inhibits sphingosine synthesis, a precursor of sphingolipids, an important cell membrane and signaling molecule component. MYR also has dual immune suppressive and antifungal properties, potentially modulating mammalian immunity and simultaneously reducing fungal infection risk. Wax moth (Galleria mellonella) larvae, alternatives to mice, were used to establish if MYR suppressed insect immunity and increased survival of C. albicans-infected insects. MYR effects were studied in vivo and in vitro, and compared alone and combined with those of approved antifungal drugs, fluconazole (FLC) and amphotericin B (AMPH). Insect immune defenses failed to inhibit C. albicans with high mortalities. In insects pretreated with the drug followed by C. albicans inoculation, MYR+C. albicans significantly increased mortality to 93% from 67% with C. albicans alone 48 h post-infection whilst AMPH+C. albicans and FLC+C. albicans only showed 26% and 0% mortalities, respectively. MYR combinations with other antifungal drugs in vivo also enhanced larval mortalities, contrasting the synergistic antifungal effect of the MYR+AMPH combination in vitro. MYR treatment influenced immunity and stress management gene expression during C. albicans pathogenesis, modulating transcripts putatively associated with signal transduction/regulation of cytokines, I-kappaB kinase/NF-kappaB cascade, G-protein coupled receptor and inflammation. In contrast, all stress management gene expression was down-regulated in FLC and AMPH pretreated C. albicans-infected insects. Results are discussed with their implications for clinical use of MYR to treat sphingolipid-associated disorders.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24260135/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Nadja Rodrigues de Melo
Ahmed Abdrahman
Carolyn Greig
Krishnendu Mukherjee
Catherine Thornton
Norman A Ratcliffe
Andreas Vilcinskas
Tariq M Butt
spellingShingle Nadja Rodrigues de Melo
Ahmed Abdrahman
Carolyn Greig
Krishnendu Mukherjee
Catherine Thornton
Norman A Ratcliffe
Andreas Vilcinskas
Tariq M Butt
Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.
PLoS ONE
author_facet Nadja Rodrigues de Melo
Ahmed Abdrahman
Carolyn Greig
Krishnendu Mukherjee
Catherine Thornton
Norman A Ratcliffe
Andreas Vilcinskas
Tariq M Butt
author_sort Nadja Rodrigues de Melo
title Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.
title_short Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.
title_full Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.
title_fullStr Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.
title_full_unstemmed Myriocin significantly increases the mortality of a non-mammalian model host during Candida pathogenesis.
title_sort myriocin significantly increases the mortality of a non-mammalian model host during candida pathogenesis.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Candida albicans is a major human pathogen whose treatment is challenging due to antifungal drug toxicity, drug resistance and paucity of antifungal agents available. Myrocin (MYR) inhibits sphingosine synthesis, a precursor of sphingolipids, an important cell membrane and signaling molecule component. MYR also has dual immune suppressive and antifungal properties, potentially modulating mammalian immunity and simultaneously reducing fungal infection risk. Wax moth (Galleria mellonella) larvae, alternatives to mice, were used to establish if MYR suppressed insect immunity and increased survival of C. albicans-infected insects. MYR effects were studied in vivo and in vitro, and compared alone and combined with those of approved antifungal drugs, fluconazole (FLC) and amphotericin B (AMPH). Insect immune defenses failed to inhibit C. albicans with high mortalities. In insects pretreated with the drug followed by C. albicans inoculation, MYR+C. albicans significantly increased mortality to 93% from 67% with C. albicans alone 48 h post-infection whilst AMPH+C. albicans and FLC+C. albicans only showed 26% and 0% mortalities, respectively. MYR combinations with other antifungal drugs in vivo also enhanced larval mortalities, contrasting the synergistic antifungal effect of the MYR+AMPH combination in vitro. MYR treatment influenced immunity and stress management gene expression during C. albicans pathogenesis, modulating transcripts putatively associated with signal transduction/regulation of cytokines, I-kappaB kinase/NF-kappaB cascade, G-protein coupled receptor and inflammation. In contrast, all stress management gene expression was down-regulated in FLC and AMPH pretreated C. albicans-infected insects. Results are discussed with their implications for clinical use of MYR to treat sphingolipid-associated disorders.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24260135/pdf/?tool=EBI
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