Trans-chalcone activity against Trichophyton rubrum relies on an interplay between signaling pathways related to cell wall integrity and fatty acid metabolism

Bitencourt, Tamires Aparecida; Macedo, Cristiana Santos de; Franco, Matheus Eloy; Rocha, Marina Campos; Moreli, Igor Sawasaki; Cantelli, Bruna; Sanches, Pablo Rodrigo; Beleboni, Renê Oliveira; Malavazi, Iran; Passos, Geraldo A. S.; Marins, Mozart; Fachin, Ana Lúcia

doi:10.1186/s12864-019-5792-0

Cited by 10 publications

(6 citation statements)

References 34 publications

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“…The degree of MIC and Minimum fungicidal concentration of extracts have accounted for 0.078-0.625 mg/mL and 0.078-1.25 mg/mL, correspondingly [180]. Bitencourt et al [181] demonstrated that the four flavonoids such as quercetin, ellagic acid, galangin, and genistein have shown the most potential antifungal property with MIC of 125, 250, 1000, 1000 μg/mL against Trichophyton rubrum, which is common species among the fungal associated dermatophytosis. This team has further reported the antifungal potential of flavonoids that have been recognized as FAS inhibitors which modulate the fatty acid synthesis gene expressions in T. rubrum.…”

Section: Mechanism Of Actions Of Antifungal Flavonoidsmentioning

confidence: 99%

Anti-Fungal Efficacy and Mechanisms of Flavonoids

2020

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The prevalence of fungal infections is growing at an alarming pace and the pathogenesis is still not clearly understood. Recurrence of these fungal diseases is often due to their evolutionary avoidance of antifungal resistance. The development of suitable novel antimicrobial agents for fungal diseases continues to be a major problem in the current clinical field. Hence, it is urgently necessary to develop surrogate agents that are more effective than conventional available drugs. Among the remarkable innovations from earlier investigations on natural-drugs, flavonoids are a group of plant-derived substances capable of promoting many valuable effects on humans. The identification of flavonoids with possible antifungal effects at small concentrations or in synergistic combinations could help to overcome this problem. A combination of flavonoids with available drugs is an excellent approach to reduce the side effects and toxicity. This review focuses on various naturally occurring flavonoids and their antifungal activities, modes of action, and synergetic use in combination with conventional drugs.

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Section: Mechanism Of Actions Of Antifungal Flavonoidsmentioning

confidence: 99%

Anti-Fungal Efficacy and Mechanisms of Flavonoids

2020

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“…T. rubrum has two major developmental stages in its life cycle: the conidial stage, in which the fungus adheres to the stratum corneum of skin, and the mycelial stage, in which the fungus penetrates and destroys the superficial layers [ 37 ]. The biological characteristics and pathogenic mechanisms of T. rubrum have been extensively studied at the molecular level, which has improved our understanding of this fungus [ 38 – 43 ]. The characteristics and roles of circRNAs in T. rubrum remain unknown.…”

Section: Introductionmentioning

confidence: 99%

Genome-wide identification and functional analysis of circRNAs in Trichophyton rubrum conidial and mycelial stages

Cao

Dong

et al. 2022

BMC Genomics

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Background Circular RNAs (circRNAs) are a group of noncoding RNAs that participate in gene expression regulation in various pathways. The essential roles of circRNAs have been revealed in many species. However, knowledge of circRNAs in fungi is still not comprehensive. Results Trichophyton rubrum (T. rubrum) is considered a model organism of human pathogenic filamentous fungi and dermatophytes. In this study, we performed a genome-wide investigation of circRNAs in T. rubrum based on high-throughput sequencing and ultimately identified 4254 circRNAs. Most of these circRNAs were specific to the conidial or mycelial stage, revealing a developmental stage-specific expression pattern. In addition, 940 circRNAs were significantly differentially expressed between the conidial and mycelial stages. PCR experiments conducted on seven randomly selected differentially expressed (DE-) circRNAs confirmed the circularized structures and relative expression levels of these circRNAs. Based on their genome locations, most circRNAs originated from intergenic regions, unlike those in plants and animals. Furthermore, we constructed circRNA-miRNA-mRNA regulatory networks that included 661 DE-circRNAs targeting 140 miRNAs and further regulating 2753 mRNAs. The relative expression levels of two randomly selected circRNA-miRNA-mRNA axes were investigated by qRT-PCR, and the competing endogenous RNA (ceRNA) network theory was validated. Functional enrichment analysis of the target genes suggested that they were significantly involved in posttranscriptional processes and protein synthesis as well as some small-molecule metabolism processes. CircRNAs are relatively more conserved in closely related dermatophytes but rarely conserved in distantly related species. Tru_circ07138_001 is a highly conserved circRNA that was conserved in all ten dermatophytes analyzed in our study and three distantly related species. Its host gene TERG_07138 was also highly conserved in two of these distantly related species Gallus gallus and Caenorhabditis elegans. The specific role of this circRNA deserves further exploration. Conclusions Our study is the first to provide a global profile of circRNAs in T. rubrum as well as dermatophytes. These results could serve as valuable resources for research on circRNA regulatory mechanisms in fungi and reveal new insights for further investigation of the physical characteristics of these significant human fungal pathogens.

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“…Furthermore, knowledge of the molecular mechanisms involved in the fungus-host interaction is still limited because of technical difficulties of the available models that mimic this interaction. However, new models such as co-culture of T. rubrum with keratinocyte cell lines and culture media containing keratin and elastin were introduced recently as strategies to evaluate compounds with antifungal activities [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

The Transcriptional Profile of Trichophyton rubrum Co-Cultured with Human Keratinocytes Shows New Insights about Gene Modulation by Terbinafine

Petrucelli

Matsuda

Peroni³

et al. 2019

Pathogens

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The dermatophyte Trichophyton rubrum is the main causative agent of dermatophytoses worldwide. Although a superficial mycosis, its incidence has been increasing especially among diabetic and immunocompromised patients. Terbinafine is commonly used for the treatment of infections caused by dermatophytes. However, cases of resistance of T. rubrum to this allylamine were reported even with the efficacy of this drug. The present study is the first to evaluate the effect of terbinafine using a co-culture model of T. rubrum and human keratinocytes, mimicking a fungus-host interaction, in conjunction with RNA-seq technique. Our data showed the repression of several genes involved in the ergosterol biosynthesis cascade and the induction of genes encoding major facilitator superfamily (MFS)- and ATP-binding cassette superfamily (ABC)-type membrane transporter which may be involved in T. rubrum mechanisms of resistance to this drug. We observed that some genes reported in the scientific literature as candidates of new antifungal targets were also modulated. In addition, we found the modulation of several genes that are hypothetical in T. rubrum but that possess known orthologs in other dermatophytes. Taken together, the results indicate that terbinafine can act on various targets related to the physiology of T. rubrum other than its main target of ergosterol biosynthetic pathway.

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Trans-chalcone activity against Trichophyton rubrum relies on an interplay between signaling pathways related to cell wall integrity and fatty acid metabolism

Cited by 10 publications

References 34 publications

Anti-Fungal Efficacy and Mechanisms of Flavonoids

Anti-Fungal Efficacy and Mechanisms of Flavonoids

Genome-wide identification and functional analysis of circRNAs in Trichophyton rubrum conidial and mycelial stages

The Transcriptional Profile of Trichophyton rubrum Co-Cultured with Human Keratinocytes Shows New Insights about Gene Modulation by Terbinafine

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