Hippocampal Proteomics Reveals the Novel Molecular Profiling of Postnatal Lead (Pb) Exposure on Autism-like Behaviors

Hippocampal Proteomics Reveals the Novel Molecular Profiling of Postnatal Lead (Pb) Exposure on Autism-like Behaviors

Autism spectrum disorder (ASD) is a multifactorial neurodevelopmental disorder, with lead (Pb) exposure increasingly linked to its risk. However, the molecular mechanisms linking Pb to ASD remain poorly understood. This study established a postnatal Pb-exposed mouse model and employed the three-cham...

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Bibliographic Details
Main Authors: Li Liu, Xulan Zhou, Zihan Ma, Ruming Liu, Yuhan Zhang, Yaqi Wang, Yiwen Liu, Xiaochun Xia, Juan Wang
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Toxics
Subjects:
autism spectrum disorder (ASD)
lead (Pb)
postnatal
hippocampus
proteomics
Online Access:https://www.mdpi.com/2305-6304/13/6/465
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Summary:Autism spectrum disorder (ASD) is a multifactorial neurodevelopmental disorder, with lead (Pb) exposure increasingly linked to its risk. However, the molecular mechanisms linking Pb to ASD remain poorly understood. This study established a postnatal Pb-exposed mouse model and employed the three-chamber social test and the marble-burying test to assess ASD-like behavioral phenotypes. The Pb levels in both blood and the hippocampus were quantified, and hippocampal neurons were assessed for morphological alterations. Moreover, a Tandem Mass Tag (TMT)-based quantitative proteomics approach was applied to elucidate the underlying mechanisms. Neurobehavioral experiments revealed Pb-exposed C57BL/6 offspring exhibited reduced social interaction and novelty preference along with increased repetitive marble-burying behavior. The Pb levels in both the blood and hippocampus of Pb-treated mice were significantly elevated compared with those of control animals. Postnatal Pb exposure resulted in a reduction in the neuronal numbers and disorganized neuronal arrangement in the hippocampus. A total of 66 proteins were identified as being differentially expressed after postnatal Pb exposure. Among them, 34 differentially expressed proteins were common in both Pb exposure groups, with 33 downregulated and 1 upregulated. Bioinformatic analysis revealed multi-pathway regulation involved in Pb-induced neurodevelopmental disorders, including dysregulation of synaptic signaling, abnormal activation of neuron apoptosis, and neuroinflammation. Notably, the SYT10/IGF-1 signaling pathway may play a potential key role. These findings enhance understanding of Pb-induced autism-like behaviors, providing novel proteomic insights into the etiology of ASD.
ISSN:2305-6304

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