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Microscope images of C. albicans show yeast-like morphology upon GDL treatment (a) and (c) C. albicans treated with GDL are mainly in yeast-form cells. (b) and (d) Untreated C. albicans cells are mainly in hyphal form
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The vaginal microbiome of healthy women is a diverse and dynamic system of various microorganisms. Any sudden change in microbe composition can increase the vaginal pH and thus lead to vaginal infections, conditions that affect a large percentage of women each year. The most common fungal strains involved in infections belong to the yeast species C...
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Natural products are rapidly becoming the primary sources of novel antimicrobial agents, as resistance to existing antimicrobial agents is increasing. Apart from determining the antimicrobial activity of natural products, it is also important to understand their effects on the virulence factors of microorganisms. This study aimed to determine the a...
Citations
... It is reported that the biofilm mode of C. albicans is responsible to most fungal infections in clinical settings, which anchors on surfaces of medical implants and spreads to remote tissue and organs via blood circulation. Biofilm formation starts with the adherence of yeast-form cells on surface, followed by proliferation of yeast-form cells (Ishchuk et al., 2019). Usually mature biofilm forms a robust and complicated structure with yeast, pseudohyphae and hyphae wrapped in extracellular matrix (Finkel and Mitchell, 2011;Metwalli et al., 2013). ...
Norspermidine (Nspd) is a kind of polyamine molecule, which is common in eukaryotes and prokaryotes. It has been reported as a potential anti-biofilms agent of bacteria, but its anti-fungal effect remains unclear. Candida albicans (C. albicans) is a common opportunistic pathogen in oral cavity of human beings. C. albicans biofilm is often seen in dental caries. In this work, we aimed to study the effect of Nspd on mature Candida albicans biofilms and to investigate how Nspd would influence human dental pulp stem cells (DPSCs). Our biofilm assays indicated that 111.7 and 55.9 mM Nspd dispersed 48 h mature fungal biofilms and showed significant fungicidal effect. 27.9 and 14.0 mM Nspd showed moderate fungicidal effect. Live/dead staining echoed the fungicidal effect. 111.7–14.0 mM Nspd showed a dose- inhibitory effect on mature fungal biofilm, where 14.0 mM Nspd reduced the metabolic activity by half compared with blank control. Moreover, we demonstrated that 111.7–27.9 mM Nspd restrained the production of hyphae form of C. albicans via SEM. Low dose Nspd (27.9 and 14.0 mM) could significantly reduce virulence related gene expression in C. albicans biofilms. MTT assay displayed a dose effect relation between 2.5–0.08 mM Nspd and DPSCs viability, where 0.63 mM Nspd reduced the viable level of DPSCs to 75% compared with blank control. Live/dead staining of DPSCs did not show distinctive difference between 0.63 mM Nspd and blank control. Vascular differentiation assay showed capillary-like structure of inducted DPSCs culture with and without 0.63 mM Nspd suggesting that it did not significantly affect angiogenic differentiation of DPSCs. Nspd can penetrate remaining dentin at low level, which is confirmed by an in vitro caries model. In conclusion, our study indicated high dosage Nspd (111.7 and 55.9 mM) could effectively disrupt and kill mature fungal biofilms. Low dosage (27.9 and 14.0 mM) showed mild anti-fungal effect on mature C. albicans biofilms. Human DPSCs were tolerate to 0.08–0.63 mM Nspd, where viability was over 75%. 0.63 mM Nspd did not affect the proliferation and angiogenetic differentiation of DPSCs.
... These aid the yeast to protect itself against antibodies and phagocytic activity of the host immune system (Oliver et al., 2019). About 95.5% of C. albicans produced the most bio lms followed by 78% C. glabrata produced bio lms, and then C. krusei (67.4%) and C. tropicalis (51.7%) as presented in Table 3. Bio lm formation increases the ability of Candida species to withstand host defenses and helps in establishing a reservoir for continuing and recurrent infections (Ishchuk et al., 2019). Infections from bio lm forming Candida species are therefore associated with higher morbidity, recurrence and then mortality rates increase in systemic infections. ...
Vulvovaginal candidiasis (VVC) is a common infection among women of childbearing age, and few of these women experience recurrent vulvovaginal candidiasis (RVVC). The study was aimed at determining the virulent factors, and antifungal susceptibility of the Candida species isolated from women with RVVC attending the Nkawie Government Hospital, Ashanti-Region, Ghana. Over a 6–month period (October 2016 to March 2017), a total of 288 women with RVVC were evaluated. Isolation of the yeast was performed after the inoculation of the vaginal specimens onto Sabouraud Dextrose Agar (SDA), and incubated for 24-48 hours at 37 o C. The isolates were identified by standardized conventional methods. The enzymatic activities of esterase, phospholipase, haemolysis and biofilm production were evaluated for the identification of the yeast isolates. Susceptibility to antifungal agents was determined by using the Kirby-Bauer disk diffusion method. Azole resistant isolates were further tested for ERG11 gene which encodes the enzyme ( cytochrome P450 lanosterol 14-α-demethylase ) by the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) analysis. Vaginal swabs cultures of 200 women (64.4) from 288 samples yielded Candida species. Candida albicans was the commonest isolated specie (33.0%), followed by Candida glabrata (29.5 %), Candida tropicalis (23.0%), and Candida krusei (15.5%). Hemolysin production, phospholipase enzyme activity, and biofilms formation were found in 84.5%, 83%, 77.5%.of the isolates respectively. Most phospholipase producing Candida isolates also formed biofilms. All Candida spp isolated were susceptible to itraconazole while majority of them were resistant to voriconazole. ERG11 genes were detected in 11.1% of Azole resistant Candida species. There is a significant increase in the rate of antifungal resistance among the Candida isolates to fluconazole and voriconazole. There is need for continuous surveillance as well as antifungal susceptibility testing on the Candida spp to guide therapy. A larger epidemiological study is also advocated to determining the degree of spread of ERG11 genes.
... Even though the final product is the same, the Au-based nanozyme may follow a different mechanism. Additional insights with the aid of Nuclear Magnetic Resonance (NMR) techniques and theoretical simulation studies can be noteworthy for the corroboration of these differences in reaction mechanisms between natural enzyme and artificial enzyme systems [45,46,53,[74][75][76]. Furthermore, the silica mesoporous support provides not only a great active surface area for the accommodation of glucose but also a more favorable platform to facilitate the recovery and reutilization of the nanozyme than in freestanding systems. ...
The transformation of glucose represents a topic of great interest at different levels. In the first place, glucose is currently conceived as a green feedstock for the sustainable production of chemicals. Secondly, the depletion of glucose at the cellular level is currently envisioned as a promising strategy to treat and alter the erratic metabolism of tumoral cells. The use of natural enzymes offers multiple advantages in terms of specificity towards the glucose substrate but may lack sufficient robustness and recyclability beyond the optimal operating conditions of these natural systems. In the present work, we have evaluated the potential use of an inorganic based nanohybrid containing gold nanoparticles supported onto ordered mesoporous supports. We have performed different assays that corroborate the enzyme-mimicking response of these inorganic surrogates towards the selective conversion of glucose into gluconic acid and hydrogen peroxide. Moreover, we conclude that these enzyme-like mimicking surrogates can operate at different pH ranges and under mild reaction conditions, can be recycled multiple times and maintain excellent catalytic response in comparison with other gold-based catalysts.
Background
Silver nanoparticles (AgNPs) are a focus of huge interest in biological research, including stem cell research. AgNPs synthesized using Cyperus conglomeratus root extract have been previously reported but their effects on mesenchymal stromal cells have yet to be investigated.
Objectives
The aim of this study is to investigate the effects of C. conglomeratus-derived AgNPs on adipogenesis and osteogenesis of mesenchymal stromal cells.
Methods
AgNPs were synthesized using C. conglomeratus root extract, and the phytochemicals involved in AgNPs synthesis were analyzed using gas chromatography-mass spectrometry (GC-MS). The cytotoxicity of the AgNPs was tested on telomerase-transformed immortalized human bone marrow-derived MSCs-hTERT (iMSC3) and human osteosarcoma cell line (MG-63) using MTT and apoptosis assays. The uptake of AgNPs by both cells was confirmed using inductively coupled plasma-optical emission spectrometry (ICP-OES). Furthermore, the effect of AgNPs on iMSC3 adipogenesis and osteogenesis was analyzed using stain quantification and reverse transcription-quantitative polymerase chain reaction (RT-qPCR).
Results
The phytochemicals predominately identified in both the AgNPs and C. conglomeratus root extract were carbohydrates. The AgNP concentrations tested using MTT and apoptosis assays (0.5-64 μg/ml and 1,4 and 32 μg/ml, respectively) showed no significant cytotoxicity on iMSC3 and MG-63. The AgNPs were internalized in a concentration-dependent manner in both cell types. Additionally, the AgNPs exhibited a significant negative effect on osteogenesis but not on adipogenesis.
Conclusion
C. conglomeratus-derived AgNPs had an impact on the differentiation capacity of iMSC3. Our results indicated that C. conglomeratus AgNPs and the associated phytochemicals could exhibit potential medical applications.
