1. Cortical Synaptic Reorganization Under Chronic Arsenic Exposure
- Author
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Sofía Díaz-Cintra, María E. Jiménez-Capdeville, Ignacio González-Burgos, Sandra A. Niño, Fabiola L. Martín-Amaya-Barajas, Jaime I. Arevalo-Villalobos, Guadalupe Martel-Gallegos, Nallely Vázquez-Hernández, and Erika Chi-Ahumada
- Subjects
medicine.medical_specialty ,Dendritic spine ,Sodium arsenite ,biology ,Chemistry ,General Neuroscience ,Neurodegeneration ,Neurotransmission ,Toxicology ,medicine.disease_cause ,medicine.disease ,Cortex (botany) ,chemistry.chemical_compound ,Endocrinology ,Internal medicine ,medicine ,Synaptophysin ,biology.protein ,Postsynaptic density ,Oxidative stress - Abstract
There is solid epidemiological evidence that arsenic exposure leads to cognitive impairment, while experimental work supports the hypothesis that it also contributes to neurodegeneration. Energy deficit, oxidative stress, demyelination, and defective neurotransmission are demonstrated arsenic effects, but it remains unclear whether synaptic structure is also affected. Employing both a triple-transgenic Alzheimer’s disease model and Wistar rats, the cortical microstructure and synapses were analyzed under chronic arsenic exposure. Male animals were studied at 2 and 4 months of age, after exposure to 3 ppm sodium arsenite in drinking water during gestation, lactation, and postnatal development. Through nuclear magnetic resonance, diffusion-weighted images were acquired and anisotropy (integrity; FA) and apparent diffusion coefficient (dispersion degree; ADC) metrics were derived. Postsynaptic density protein and synaptophysin were analyzed by means of immunoblot and immunohistochemistry, while dendritic spine density and morphology of cortical pyramidal neurons were quantified after Golgi staining. A structural reorganization of the cortex was evidenced through high-ADC and low-FA values in the exposed group. Similar changes in synaptic protein levels in the 2 models suggest a decreased synaptic connectivity at 4 months of age. An abnormal dendritic arborization was observed at 4 months of age, after increased spine density at 2 months. These findings demonstrate alterations of cortical synaptic connectivity and microstructure associated to arsenic exposure appearing in young rodents and adults, and these subtle and non-adaptive plastic changes in dendritic spines and in synaptic markers may further progress to the degeneration observed at older ages.
- Published
- 2021