Novel Yttrium-metal–organic framework (Y-MOF) was synthesized under optimal conditions of microwave with a power of 20 W, the temperature of 30 degrees of centigrade, and time duration of 10 min. The products were characterized by SEM (morphology and size distribution), TGA (thermal stability), BET technique (surface area), and FTIR (characterization of the related group). The Yttrium-metal–organic framework (Y-MOF) synthesized in this study, after identifying and confirming the structure, was used as an efficient and recyclable catalyst in the synthesis of new pyrazolopyranopyrimidine derivatives. Following the study of the properties and applications of Y-MOF, its anticancer properties on breast cancer cells based on the MTT method were evaluated, and significant results were observed. In addition, the anticancer properties of the pyrazolopyranopyrimidine derivatives were investigated.
Fungal organisms are an opportunistic pathogen commonly found in different parts in human body like oral cavity and vagina. Recent study has revealed a critical need for novel antifungal medicines developed from medicinal plant extracts due to concerns about fungal pathogen resistance to commercial medication. In the present work, Premna odorata Blanco, belonging to the family Lamiaceae was evaluated in vitro antifungal activity against two fungal organism isolated from clinical cases. With the aim to replace toxic conventional solvents through deep eutectic solvents was used and phytochemical compounds were determined (total phenol content, total flavonoid content). ChMa extracts of Premna odorata Blanco demonstrate a significant antifungal activity against Candida albicans, Monilinia spp. Higher than water extract. While the DES2 extract reported the highest phenolic contents (3.58 mg GAE/100 g DW) and total flavonoid content (0.028 mg RE/100 g DW) compared with water extract. In conclusion, the study suggests that the Premna odorata Blanco extracts by deep eutectic solvents are promising for the development of treatments against various fungal diseases with a friendly green procedure, low toxicity and new application in pharmaceutical industry.
Cholesterol is an essential lipid that serves several important functions, including maintaining the homeostasis of cells, acting as a precursor to bile acid and steroid hormones and preserving the stability of membrane lipid rafts. 25-hydroxycholesterol (25-HC) is a cholesterol derivative that may be formed from cholesterol. 25-HC is a crucial component in various biological activities, including cholesterol metabolism. In recent years, growing evidence has shown that 25-HC performs a critical function in the etiology of cancer, infectious diseases and autoimmune disorders. This review will summarize the latest findings regarding 25-HC, including its biogenesis, immunomodulatory properties and role in innate/adaptive immunity, inflammation and the development of various types of cancer.
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