Nuclear membrane: A key potential therapeutic target for lipid metabolism

Abstract

Lipid homeostasis plays a pivotal role in cellular growth, necessitating the engagement of numerous lipid metabolism genes and the cohesive functioning of organelles. While the nucleus is traditionally recognized for its genetic roles, emerging evidence highlights its significant contribution to lipid homeostasis maintenance. Certain nuclear membrane proteins or associated proteins have the capacity to directly catalyze lipid synthesis or modification processes. Mutations in the genes encoding these proteins can lead to disrupted lipid metabolism, contributing to a spectrum of metabolic disorders. This article provides a comprehensive reviews of the investigations exploring the interplay between nuclear membrane proteins and lipid metabolism. Additionally, it delves into the heterogeneity of the nuclear membrane, positioning it as a novel therapeutic target for managing metabolic disorders and mitigating adverse drug reactions.