Insufficient FUNDC1-dependent mitophagy due to early environmental cadmium exposure triggers mitochondrial redox imbalance to aggravate diet-induced lipotoxicity

Cadmium (Cd) is a toxic contaminant widely spread in natural and industrial environments. Adolescent exposure to Cd increases risk for obesity-related morbidity in young adults including type 2 diabetes and metabolic dysfunction-associated steatotic liver disease (MASLD). Despite this recognition, t...

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Published in:Environmental pollution (1987) 2024-11, Vol.361, p.124724, Article 124724
Main Authors: Lian, Cai-Yu, Li, Hui-Jia, Xia, Wei-Hao, Li, Yue, Zhou, Xue-Lei, Yang, Du-Bao, Wan, Xue-Mei, Wang, Lin
Format: Article
Language:English
Subjects:
Animals
Cadmium
Cadmium - toxicity
Diet, High-Fat - adverse effects
Environmental Exposure - adverse effects
Environmental Pollutants - toxicity
Fatty Liver - chemically induced
Fatty Liver - metabolism
High fat diet
Lipotoxicity
Liver - drug effects
Liver - metabolism
Male
Membrane Proteins - genetics
Membrane Proteins - metabolism
Mitochondria - drug effects
Mitochondria - metabolism
Mitochondrial Proteins - genetics
Mitochondrial Proteins - metabolism
Mitophagy
Mitophagy - drug effects
NAFLD
Oxidation-Reduction
Rats
Rats, Sprague-Dawley
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Summary:Cadmium (Cd) is a toxic contaminant widely spread in natural and industrial environments. Adolescent exposure to Cd increases risk for obesity-related morbidity in young adults including type 2 diabetes and metabolic dysfunction-associated steatotic liver disease (MASLD). Despite this recognition, the direct impact of adolescent Cd exposure on the progression of MASLD later in life, and the mechanisms underlying these effects, remain unclear. Here, adolescent rats received control diet or diets containing 2 mg Cd2+/kg feed for 4 weeks, and then HFD containing 15% lard or control diet in young adult rats was selected for 6 weeks to clarify this issue. Data firstly showed that HFD-fed rats in young adulthood due to adolescent Cd exposure exhibited more severe MASLD, evidenced by increased liver damage, disordered serum and hepatic lipid levels, and activated NLRP3 inflammasome. Hepatic transcriptome analysis revealed the potential effects of mitochondrial dysfunction in aggravated MASLD due to Cd exposure. Verification data further confirmed that mitochondrial structure and function were targeted and disrupted during this process, shown by broken mitochondrial ridges, decreased mitochondrial membrane potential, imbalanced mitochondrial dynamic, insufficient ATP concentration, and enhanced mitochondrial ROS generation. However, mitophagy is inactively involved in clearance of damaged mitochondria induced by early Cd in HFD condition due to inhibited mitophagy receptor FUNDC1. In contrast, FUNDC1-dependent mitophagy activation prevents lipotoxicity aggravated by early Cd via suppressing mitochondrial ROS generation. Collectively, our data show that insufficient FUNDC1-dependent mitophagy can drive the transition from HFD-induced MASLD to MASH, and accordingly, these findings will provide a better understanding of potential mechanism of diet-induced metabolic diseases in the context of early environmental Cd exposure. [Display omitted] •Early cadmium (Cd) exposure promotes the development of HFD-induced MASLD.•Decreased FUNDC1 is involved in diet-induced MASLD aggravated by early Cd.•FUNDC1-dependent mitophagy inhibition triggers mtROS to aggravate diet-induced lipotoxicity.
ISSN:0269-7491
1873-6424
1873-6424
DOI:10.1016/j.envpol.2024.124724