Cinnamaldehyde Exerts Its Antifungal Activity by Disrupting the Cell Wall Integrity of Geotrichum citri-aurantii

Different signaling cascades including the Cell Wall Integrity (CWI), the High Osmolarity Glycerol (HOG) and the Ca2+/calcineurin pathways control the cell wall biosynthesis and remodeling in fungi. Pathogenic fungi, such as Aspergillus fumigatus and Candida albicans, greatly rely on these signaling circuits to cope with different sources of stress, including the cell wall stress evoked by antifungal drugs and the host’s response during infection. Hsp90 has been proposed as an important regulatory protein and an attractive target for antifungal therapy since it stabilizes major effector proteins that act in the CWI, HOG and Ca2+/calcineurin pathways. Data from the human pathogen C. albicans have provided solid evidence that loss-of-function of Hsp90 impairs the evolution of resistance to azoles and echinocandin drugs. In A. fumigatus, Hsp90 is also required for cell wall integrity maintenance, reinforcing a coordinated function of the CWI pathway and this essential molecular chaperone. In this review, we focus on the current information about how Hsp90 impacts the aforementioned signaling pathways and consequently the homeostasis and maintenance of the cell wall, highlighting this cellular event as a key mechanism underlying antifungal therapy based on Hsp90 inhibition.

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Antifungal Activity Directed Toward the Cell Wall by 2-Cyclohexylidenhydrazo- 4-Phenyl-Thiazole Against Candida albicans

Infectious Disorders - Drug Targets ◽

10.2174/1871526518666180531101605 ◽

2019 ◽

Vol 19 (4) ◽

pp. 428-438 ◽

Cited By ~ 1

Author(s):

Nívea P. de Sá ◽

Ana P. Pôssa ◽

Pilar Perez ◽

Jaqueline M.S. Ferreira ◽

Nayara C. Fonseca ◽

...

Keyword(s):

Cell Wall ◽

Candida Albicans ◽

Antifungal Activity ◽

Mammalian Cells ◽

C Elegans ◽

Buccal Epithelial Cells ◽

Mutant Strains ◽

Low Toxicity ◽

High Concentrations ◽

Mic Value

Background: The increasing incidence of invasive forms of candidiasis and resistance to antifungal therapy leads us to seek new and more effective antifungal compounds. Objective: To investigate the antifungal activity and toxicity as well as to evaluate the potential targets of 2- cyclohexylidenhydrazo-4-phenyl-thiazole (CPT) in Candida albicans. Methods: The antifungal activity of CPT against the survival of C. albicans was investigated in Caenorhabditis elegans. Additionally, we determined the effect of CPT on the inhibition of C. albicans adhesion capacity to buccal epithelial cells (BECs), the toxicity of CPT in mammalian cells, and the potential targets of CPT in C. albicans. Results: CPT exhibited a minimum inhibitory concentration (MIC) value of 0.4-1.9 µg/mL. Furthermore, CPT at high concentrations (>60 x MIC) showed no or low toxicity in HepG2 cells and <1% haemolysis in human erythrocytes. In addition, CPT decreased the adhesion capacity of yeasts to the BECs and prolonged the survival of C. elegans infected with C. albicans. Analysis of CPT-treated cells showed that their cell wall was thinner than that of untreated cells, especially the glucan layer. We found that there was a significantly lower quantity of 1,3-β-D-glucan present in CPT-treated cells than that in untreated cells. Assays performed on several mutant strains showed that the MIC value of CPT was high for its antifungal activity on yeasts with defective 1,3-β-glucan synthase. Conclusion: In conclusion, CPT appears to target the cell wall of C. albicans, exhibits low toxicity in mammalian cells, and prolongs the survival of C. elegans infected with C. albicans.

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The newly synthesized thiazole derivatives as potential antifungal compounds against Candida albicans

Applied Microbiology and Biotechnology ◽

10.1007/s00253-021-11477-7 ◽

2021 ◽

Author(s):

Anna Biernasiuk ◽

Anna Berecka-Rycerz ◽

Anna Gumieniczek ◽

Maria Malm ◽

Krzysztof Z. Łączkowski ◽

...

Keyword(s):

Cell Wall ◽

Candida Albicans ◽

Antifungal Activity ◽

Cell Membrane ◽

Mode Of Action ◽

Thiazole Derivatives ◽

Fungal Cell ◽

Erythrocyte Lysis ◽

Low Cytotoxicity ◽

High Antifungal Activity

Abstract Recently, the occurrence of candidiasis has increased dramatically, especially in immunocompromised patients. Additionally, their treatment is often ineffective due to the resistance of yeasts to antimycotics. Therefore, there is a need to search for new antifungals. A series of nine newly synthesized thiazole derivatives containing the cyclopropane system, showing promising activity against Candida spp., has been further investigated. We decided to verify their antifungal activity towards clinical Candida albicans isolated from the oral cavity of patients with hematological malignancies and investigate the mode of action on fungal cell, the effect of combination with the selected antimycotics, toxicity to erythrocytes, and lipophilicity. These studies were performed by the broth microdilution method, test with sorbitol and ergosterol, checkerboard technique, erythrocyte lysis assay, and reversed phase thin-layer chromatography, respectively. All derivatives showed very strong activity (similar and even higher than nystatin) against all C. albicans isolates with minimal inhibitory concentration (MIC) = 0.008–7.81 µg/mL Their mechanism of action may be related to action within the fungal cell wall structure and/or within the cell membrane. The interactions between the derivatives and the selected antimycotics (nystatin, chlorhexidine, and thymol) showed additive effect only in the case of combination some of them and thymol. The erythrocyte lysis assay confirmed the low cytotoxicity of these compounds as compared to nystatin. The high lipophilicity of the derivatives was related with their high antifungal activity. The present studies confirm that the studied thiazole derivatives containing the cyclopropane system appear to be a very promising group of compounds in treatment of infections caused by C. albicans. However, this requires further studies in vivo. Key points • The newly thiazoles showed high antifungal activity and some of them — additive effect in combination with thymol. • Their mode of action may be related with the influence on the structure of the fungal cell wall and/or the cell membrane. • The low cytotoxicity against erythrocytes and high lipophilicity of these derivatives are their additional good properties. Graphical abstract

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Soybean germination limits the role of cell wall integrity in controlling protein physicochemical changes during cooking and improves protein digestibility

Food Research International ◽

10.1016/j.foodres.2021.110254 ◽

2021 ◽

Vol 143 ◽

pp. 110254

Author(s):

Mostafa Zahir ◽

Vincenzo Fogliano ◽

Edoardo Capuano

Keyword(s):

Cell Wall ◽

Protein Digestibility ◽

Cell Wall Integrity ◽

Physicochemical Changes

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Plant‐derived tabersonine exert its antifungal activity by repressing the expression of ergosterol biosynthesis and cell wall mannoprotein encoding genes in Saccharomyces cerevisiae

Letters in Applied Microbiology ◽

10.1111/lam.13446 ◽

2020 ◽

Author(s):

Wenhui Ma ◽

Yu Zhao ◽

Yanyan Wang

Keyword(s):

Saccharomyces Cerevisiae ◽

Cell Wall ◽

Antifungal Activity ◽

Ergosterol Biosynthesis ◽

Encoding Genes

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The N-mannosyltransferase gene BbAlg9 contributes to cell wall integrity, fungal development and the pathogenicity of Beauveria bassiana

Fungal Biology ◽

10.1016/j.funbio.2021.04.011 ◽

2021 ◽

Author(s):

Ji-Zheng Song ◽

Ya-Ping Yin ◽

Wen Cheng ◽

Jia-Hua Liu ◽

Shun-Juan Hu ◽

...

Keyword(s):

Cell Wall ◽

Beauveria Bassiana ◽

Cell Wall Integrity ◽

Fungal Development

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Yeast Nap1-Binding Protein Nbp2p Is Required for Mitotic Growth at High Temperatures and for Cell Wall Integrity

Genetics ◽

10.1093/genetics/165.2.517 ◽

2003 ◽

Vol 165 (2) ◽

pp. 517-529

Author(s):

Kentaro Ohkuni ◽

Asuko Okuda ◽

Akihiko Kikuchi

Keyword(s):

Cell Death ◽

Cell Wall ◽

High Temperature ◽

High Temperatures ◽

Hybrid System ◽

Mapk Pathway ◽

Binding Protein ◽

Cell Wall Integrity ◽

Calcofluor White ◽

Two Hybrid

AbstractNbp2p is a Nap1-binding protein in Saccharomyces cerevisiae identified by its interaction with Nap1 by a two-hybrid system. NBP2 encodes a novel protein consisting of 236 amino acids with a Src homology 3 (SH3) domain. We showed that NBP2 functions to promote mitotic cell growth at high temperatures and cell wall integrity. Loss of Nbp2 results in cell death at high temperatures and in sensitivity to calcofluor white. Cell death at high temperature is thought not to be due to a weakened cell wall. Additionally, we have isolated several type-2C serine threonine protein phosphatases (PTCs) as multicopy suppressors and MAP kinase-kinase (MAPKK), related to the yeast PKC MAPK pathway, as deletion suppressors of the nbp2Δ mutant. Screening for deletion suppressors is a new genetic approach to identify and characterize additional proteins in the Nbp2-dependent pathway. Genetic analyses suggested that Ptc1, which interacts with Nbp2 by the two-hybrid system, acts downstream of Nbp2 and that cells lacking the function of Nbp2 prefer to lose Mkk1, but the PKC MAPK pathway itself is indispensable when Nbp2 is deleted at high temperature.

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