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Biomimetic Lipid Raft: Domain Stability and Interaction with Physiologically Active Molecules.

Authors :
Shimokawa N
Takagi M
Source :
Advances in experimental medicine and biology [Adv Exp Med Biol] 2024; Vol. 1461, pp. 15-32.
Publication Year :
2024

Abstract

The cell membrane, also called the plasma membrane, is the membrane on the cytoplasmic surface that separates the extracellular from the intracellular. It is thin, about 10 nm thick when viewed with an electron microscope, and is composed of two monolayers of phospholipid membranes (lipid bilayers) containing many types of proteins. It is now known that this cell membrane not only separates the extracellular from the intracellular, but is also involved in sensory stimuli such as pain, itching, sedation, and excitement. Since the "Fluid mosaic model" was proposed for cell membranes, molecules have been thought to be homogeneously distributed on the membrane surface. Later, at the end of the twentieth century, the existence of "Phase-separated microdomain structures" consisting of ordered phases rich in saturated lipids and cholesterol was suggested, and these were termed "Lipid rafts." A model in which lipid rafts regulate cell signaling has been proposed and is the subject of active research.This chapter first outlines the physicochemical properties and thermodynamic models of membrane phase separation (lipid rafts), which play an important role in cell signaling. Next, how physiologically active molecules such as local anesthetics, cooling agents (menthol), and warming agents (capsaicin) interact with artificial cell membranes will be presented.It is undeniable that the plasma membrane contains many channels and receptors that are involved in the propagation of sensory stimuli. At the same time, however, it is important to understand that the membrane exerts a significant influence on the intensity and propagation of these stimuli.<br /> (© 2024. The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.)

Details

Language :
English
ISSN :
0065-2598
Volume :
1461
Database :
MEDLINE
Journal :
Advances in experimental medicine and biology
Publication Type :
Academic Journal
Accession number :
39289271
Full Text :
https://doi.org/10.1007/978-981-97-4584-5_2