spirulina platensis
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Author(s):  
Mohammad Reisi ◽  
Leila Rouhi ◽  
Khalil Khashei Varnamkhasti

Introduction: Prostate cancer is one of the most common cancers among men, with an increasing incidence and mortality rate. In the present study, cytotoxic and pro-apoptotic effects of spirulina platensis extract on PC-3 prostate adenocarcinoma cell line were investigated. Methods: In the present experimental study, the PC-3 prostatic cancer cells were treated in four experimental with 400, 200, 100 and 50 μg / ml extract of spirulina and incubated at 24 and 48 hours. Cytotoxicity was analyzed by MTS kit (3-(4, 5-Dimethylthiazol-2-yl)-5-(3-Carboxymethoxyphenyl)-2-(4-Sulfophenyl)-2H-Tetrazolium, Inner Salt) and apoptosis was analyzed by flow- cytometry using an Annexin V-FITC/PI kit according to the manufacturer protocol in both times. Statistical analysis was accomplished by ANOVA and Duncan tests using FlowJo and SPSS 16 software. Results: In the experimental groups treated with extract of spirulina, the viability of the cells showed a decrease compared to control group, while this decrease was more noticeable in the experimental group of 100 μg / ml at both incubation times (<0.0071).Increased incidence of apoptosis was significantly higher in the experimental groups than the control group. However, this increase was significantly higher than the control group at concentrations of 200 μg / ml in 24h incubation time (Ƥ < 0.0331) and 100 μg / ml of 48h incubation time (Ƥ < 0.0502). Conclusion: Extract of Spirulina at specific concentrations reduced cell growth and induced apoptosis in PC-3 prostatic cancer cells. Evidence suggests that spirulina can be used as an anticancer drug for the treatment of prostate cancer.


2022 ◽  
Vol 19 (1) ◽  
pp. 51-59
Author(s):  
Abdossaleh Zar ◽  
Fatemeh Ahmadi ◽  
Forouzan Karimi ◽  
Mozhgan Ahmadi ◽  
Roger Ramsbottom

2022 ◽  
Vol 11 (1) ◽  
pp. 109-118
Author(s):  
Bingna Cai ◽  
Xiangxi Yi ◽  
Qian Han ◽  
Jianyu Pan ◽  
Hua Chen ◽  
...  

2022 ◽  
Vol 343 ◽  
pp. 126077
Author(s):  
Ratana Chaiklahan ◽  
Nattayaporn Chirasuwan ◽  
Thanyarat Srinorasing ◽  
Shewin Attasat ◽  
Annop Nopharatana ◽  
...  

Author(s):  
K. Jagathy ◽  
K. Lavanya

Objectives: Zinc oxide nanoparticles (ZnO-NPs) are widely recognized as one of the most promising types of materials in a wide range of applications, including agriculture.  Modern systemic efforts have identified several therapeutically active microalgae-derived compounds, including phenols, flavonoids and others. The antibacterial properties of the phenolic substances were demonstrated. Hence, the present study aims to exhibit the antibacterial activity of the bioactive compound capped silver nanoparticles under in vitro conditions. Methods: Bioactive compound separated by Solid-phase Extraction method. Dispersible Zinc oxide nanoparticles synthesized using the bioactive compound as the major capping agent. Zinc nitrate was used as starting material and its reduction was carried by phenolic components of Spirulina platensis aqueous extract from Zn2+ to ZnO.  The synthesized Zinc oxide nanoparticles are characterized by H1 NMR spectroscopy. Conjugated nanoparticles are characterized physically by Scanning Electron Microscopy (SEM) analysis. SEM demonstrated particle sizes in the range 10–15 nm. ZnO nanoparticles demonstrated antibacterial activity against an isolated plant pathogen Erwinia amylovora. Time kill determination assay was done. Findings: Phenols obtained after Solid Phase Extraction. Hence, this was regarded as the maximum quantified bioactive compound of Spirulina platensis. H1 NMR spectroscopy analyses showed the presence of phenolic compounds and alcohols groups of long chain were also detected. In SEM analysis, the mean diameter of spherical Phenols-ZnOPs is less than 15 nm surrounded by the capping agent. In given time periods of 4, 8, 16, and 24 hour cells, concentrations of 1000µg/mL were 42 %, 33 %, 20 %, and 18 %. At 500 µg/mL of extract concentration, Spirulina platensis inhibited 50% bacterial proliferation (IC50) of Erwinia amylovora. A significant inhibitory effect (p<0.0001) was seen against the plant pathogenic strain. Novelty: In addition to their antibacterial activities, biosynthesized ZnO-NPs are thought to show promise efficacy as growth accelerators. The most dangerous bacterial disease of pear and apple trees is fire blight, caused by Erwinia amylovora. Phenolic capped ZnO-NPs have been found to be efficient plant pathogen antagonists.


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