Antiobesity and antidyslipidemic properties of Clitoria ternatea petals aqueous extract against rats induced by high-fat diet.

Background/aim: Obesity is a chronic metabolic disease involving dysregulation of fat metabolism that affects 13% of the world's population. Obesity has been linked to dyslipidemia with a lot of complication, including stroke, chronic kidney disease, fatty liver disease, and so on. One of the natural resources that have several potential effects including anticholesterol, antiobesity, and antidyslipidemia is the butterfly pea (Clitoria ternatea/CT). CT's petal has been found to contain high levels of anthocyanins and tannins that can inhibit the biosynthesis of cholesterol and lipid. This study aims to investigate the antiobesity and antidyslipidemic effects of Clitoria ternatea extract (CTE). Materials and methods: The CTE was obtained through the aqueous extract method and then was investigated using spectrophotometry to determine anthocyanin and tannin content. The effect of CTE against a high-fat diet (HFD)-induced rat model was measured by weight and obesity index, lipid profile (total cholesterol (TC), triglycerides (TG), and HDL-C), and histopathology analysis. Results: CTE showed total anthocyanin and tannin content of 78.0943 mg/100 g and 1424.90 mg/100 g, respectively. The data analysis also showed significantly different within groups (p < 0,05), especially between HFD and HFD + CT750 groups on the cholesterol (MD 111.12 mg/dL; 95% CI (99.57 to 122.67); p < 0.001), LDL (MD; 76.38 mg/dL; 95% CI (56.77 to 96.00); p < 0.001), VLDL (MD 0.37 mg/dL; 95% CI (0.18 to 0.57); p < 0.001), body weight (MD: 56.20 g; 95% CI (13.89 to 98.51); p = 0.012); and thickening of tunica layer in the thoracic aorta (MD 22.76 µm; 95% CI (20.11 to 24.4); p < 0.001). Conclusion: This study shows that Clitoria ternatea petals aqueous extract promotes amelioration of the lipid profile, body weight, and tunica thickness in rats with the high-fat diet.

Analysis of antiquorum-sensing and antibiofilm activity by pomelo peel extract (Citrus maxima) on multidrug-resistance Pseudomonas aeruginosa.

Pseudomonas aeruginosa is gram-negative bacteria with high adaptability by forming biofilms and quorum-sensing mechanisms to avoid immune responses and antimicrobial agents which tend to develop into Multidrug Resistance (MDR) related to Healthcare-Associated Infection (HAI) with a prevalence of 3,8% in Indonesia and a mortality of up to 69%. Polyphenol compounds found in pomelo peels (Citrus maxima) have been shown to have antibiofilm and antiquorum-sensing effects but are less investigated. Therefore, this study aimed to investigate those effects on MDR P. aeruginosa. In vitro study design is performed to evaluate the inhibition effect of ethanolic extract on bacterial growth (Kirby-Bauer test), biofilm formation (biofilm assay), and quorum-sensing activity (pyocyanin and pyoverdine assay) on clinical isolates of MDR and ATCC strain as comparator. Furthermore, we employed computational methods using docking protein analysis. Biofilm formation was significantly inhibited by 71.1% ± 4.4% in MDR (pLasR and LasI) by active compounds of Citrus maxima. Molecular docking was used to further strengthen this hypothesis, showing no significant differences in bonding energy of polyphenol compounds found in pomelo peel with LasR and LasI compared to the native ligand and inhibitors. Pomelo peel extract can be considered as a potential therapy for MDR P. aeruginosa infection mediated based on its antibiofilm and antiquorum-sensing effects.