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Environmental Pollutant‐Induced Disruption of Lipid Droplet Homeostasis in Aquatic Animals: Molecular Mechanisms and Cross‐Scale Health Effects

Xiaoping Huang, Dizhi Xie, Jun Wang

2025Reviews in Aquaculture7 citationsDOI

Abstract

ABSTRACT The disruption of lipid metabolic homeostasis in aquatic animals under pollutant stress has become a pivotal research frontier in environmental toxicology. As a crucial adaptive strategy, aquatic animals employ lipid droplet (LD)‐mediated metabolic reprogramming to facilitate energy reallocation and oxidative stress defense in response to environmental pressures. This review analyzes the regulatory mechanisms of LDs, focusing on molecular pathways for their biogenesis, storage, and catabolism. We also explore how pollutants like heavy metals, micro/nanoplastics (MNPs), and fungicides cause LD abnormalities by interfering with multiple targets. Key mechanisms include disrupted lipid metabolism, altered redox signaling, impaired organelle communication, and endocrine interference. By integrating multiscale evidence from cellular dysfunction to population adaptability decline, we establish a novel “pollutant‐LD homeostasis‐health effect” framework that delineates the spatiotemporal cascade effects of LD homeostasis disruption. This study identifies LD‐associated biomarkers as sensitive indicators for monitoring aquatic pollution. These findings establish critical connections between subcellular metabolic responses and ecosystem‐level health outcomes.

Topics & Concepts

PollutantAquacultureScale (ratio)HomeostasisAquatic ecosystemBiologyFish <Actinopterygii>ChemistryEcologyEnvironmental scienceEnvironmental chemistryCell biologyFisheryGeographyCartographyLipid metabolism and biosynthesisAlgal biology and biofuel productionAquaculture Nutrition and Growth
Environmental Pollutant‐Induced Disruption of Lipid Droplet Homeostasis in Aquatic Animals: Molecular Mechanisms and Cross‐Scale Health Effects | Litcius