Histone acetylation maps in aged mice developmentally exposed to lead: Epigenetic drift and Alzheimer-related genes

Authors

Aseel Eid, University of Rhode Island
Waseem Bihaqi, University of Rhode Island
Christopher Hemme, University of Rhode Island
John M. Gaspar, Rutgers University–New Brunswick
Ronald P. Hart, Rutgers University–New Brunswick
Nasser H. Zawia, University of Rhode Island

Document Type

Article

Date of Original Version

5-1-2018

Abstract

Aim: Early life exposure to lead (Pb) has been shown to increase late life biomarkers involved in Alzheimer's disease (AD) pathology. Here, we tested the hypothesis that latent over expression of AD-related genes may be regulated through histone activation pathways. Methods: Chromatin immunoprecipitation sequencing was used to map the histone activation mark (H3K9Ac) to the mouse genome in developmentally Pb exposed mice on postnatal days 20, 270 and 700. Results: Exposure to Pb resulted in a global downregulation of H3K9Ac across the lifespan; except in genes associated with the Alzheimer pathway. Discussion: Early life exposure to Pb results in an epigenetic drift in H3K9Ac consistent with latent global gene repression. Alzheimer-related genes do not follow this trend.

Publication Title, e.g., Journal

Epigenomics

Volume

10

Issue

5

Citation/Publisher Attribution

Eid, Aseel, W. Bihaqi, Christopher Hemme, John M. Gaspar, Ronald P. Hart, and Nasser H. Zawia. "Histone acetylation maps in aged mice developmentally exposed to lead: Epigenetic drift and Alzheimer-related genes." Epigenomics 10, 5 (2018): 573-583. doi: 10.2217/epi-2017-0143.