Lipid liquid-crystalline nanoparticles as a suitable platform for accommodating sensitive membrane proteins: monitoring the activity of HMG-CoA reductase
Michalina Zaborowska-Mazurkiewicz, Ewa Nazaruk, Renata Bilewicz

TL;DR
This paper explores using lipid nanoparticles to protect and monitor the activity of a sensitive membrane enzyme, HMG-CoA reductase, offering a new method for studying and controlling such proteins.
Contribution
The study introduces lipid liquid-crystalline nanoparticles as a novel platform for stabilizing and monitoring membrane proteins without using detergents.
Findings
Hexosomes effectively stabilized HMG-CoA reductase and allowed real-time monitoring of its activity.
The encapsulated enzyme was inhibited by fluvastatin, demonstrating the platform's potential for drug screening.
Lipid nanoparticle composition was optimized to enhance the stability and functionality of the enzyme.
Abstract
Biological molecules such as integral membrane proteins, peptides, and nucleic acids that are not soluble or sufficiently stable in aqueous solutions can be stabilized through encapsulation in lipid nanoparticles. Discovering the potential of lipid liquid-crystalline nanoparticles opens up exciting possibilities for housing sensitive membrane proteins. Lipid mesophases provide an environment that protects the cargo, usually a drug, from rapid clearance or degradation. This study employed the mentioned platform to stabilize a different cargo—an essential transmembrane enzyme, HMG-CoA reductase (HMGR). The nanostructured lipid liquid-crystalline (LLC) nanoparticles known as hexosomes are selected as a convenient nanocontainer for the redox–active protein for real-time monitoring of its functions in the bulk of the solution and point to the applicability of the proposed platform in the…
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Taxonomy
TopicsLipid Membrane Structure and Behavior · Computational Drug Discovery Methods · Plant biochemistry and biosynthesis
