ŠMEJKAL, Karel, Lenka MOLČANOVÁ, Milan MALANÍK, Margita DVORSKÁ, Josef MAŠEK and Jakub TREML. Prenylated phenols with potent anti-inflammatory effects. In 4th Annual CNPD Conference 2023 on ‘Natural Products in Cosmetics, Food and Medicine’, Liverpool, England. 2023. 2023.
Other formats:   BibTeX LaTeX RIS
Basic information
Original name Prenylated phenols with potent anti-inflammatory effects
Authors ŠMEJKAL, Karel, Lenka MOLČANOVÁ, Milan MALANÍK, Margita DVORSKÁ, Josef MAŠEK and Jakub TREML.
Edition 4th Annual CNPD Conference 2023 on ‘Natural Products in Cosmetics, Food and Medicine’, Liverpool, England. 2023, 2023.
Other information
Original language English
Type of outcome Presentations at conferences
Field of Study 30104 Pharmacology and pharmacy
Country of publisher United Kingdom of Great Britain and Northern Ireland
Confidentiality degree is not subject to a state or trade secret
Organization unit Faculty of Pharmacy
Keywords in English prenyl, flavonoid, Moraceae, inflammation
Tags VRI, ÚPL
Tags International impact
Changed by Changed by: prof. PharmDr. Karel Šmejkal, Ph.D., učo 242261. Changed: 14/3/2024 17:13.
Abstract
Natural substances often have a pleiotropic effect and can affect several cellular processes in parallel. They can have parallel anti-inflammatory and antibacterial effects, together with the current antiviral effect. Their mechanism of action is complex. However, the problem of natural substances is often their limited solubility and consequently also problematic bioavailability (1). Series of prenylated phenols were isolated from Paulowniaceae, Moraceae, and Euphorbiaceae plants (2-5). As part of the lecture, we will introduce the isolation and identification of prenylated phenols with potential antiviral and anti-inflammatory effects, we will describe their bioactivity, their formulations to increase solubility, and will describe the possibilities of their further development. We described the effects of phenolics in vitro in cellular or biochemical systems on the production and release of inflammation-related cytokines; their effects on the inhibition of cyclooxygenases and lipoxygenases, and also some in vivo experiments confirming activity. At the end, an improvement of solubility by incorporating of tested substances into liposomes was presented.
Links
GF21-38204L, research and development projectName: Komplexy vybraných přechodných kovů s rostlinnými látkami s anti-NF-kappa B a pro-PPAR duální aktivitou
Investor: Czech Science Foundation, Partner Agency
PrintDisplayed: 28/5/2024 02:34