Developmental exposure to lead (Pb) alters the expression of the human tau gene and its products in a transgenic animal model

•Exposure to lead acetate during development in an animal model of tauopathy resulted in increased levels of the human tau transgene at PND 20 and PND 30.•In the lead exposed transgenic animals phosphorylated tau levels (ser396) were upregulated at PND 20 and 30, while CDK5 was significantly increased at PND 40 and PND 60.•miR-34c a conserved miRNA which regulates tau levels, was increased at PND 50 in Pb exposed mice, suggesting a role for epigenetics as a potential mechanism.

Tauopathies are a class of neurodegenerative diseases associated with the pathological aggregation of the tau protein in the human brain. The best known of these illnesses is Alzheimer’s disease (AD); a disease where the microtubule associated protein tau (MAPT) becomes hyperphosphorylated (lowering its binding affinity to microtubules) and aggregates within neurons in the form of neurofibrillary tangles (NFTs). In this paper we examine whether environmental factors play a significant role in tau pathogenesis. Our studies were conducted in a double mutant mouse model that expressed the human tau gene and lacked the gene for murine tau. The human tau mouse model was tested for the transgene’s ability to respond to an environmental toxicant. Pups were developmentally exposed to lead (Pb) from postnatal day (PND) 1-20 with 0.2% Pb acetate. Mice were then sacrificed at PND 20, 30, 40 and 60. Protein and mRNA levels for tau and CDK5 as well as tau phosphorylation at Ser396 were determined. In addition, the potential role of miRNA in tau expression was investigated by measuring levels of miR-34c, a miRNA that targets the mRNA for human tau, at PND20 and 50. The expression of the human tau transgene was altered by developmental exposure to Pb. This exposure also altered the expression of miR-34c. Our findings are the first of their kind to test the responsiveness of the human tau gene to an environmental toxicant and to examine an epigenetic mechanism that may be involved in the regulation of this gene’s expression.