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Altered Histone Deacetylase Versus Histone Acetyltransferase Activity in Peripheral Blood Mononuclear Cells from Apparently Healthy Young Adults with Prior Exposure to Adverse Childhood Experiences

Abstract only Introduction: Adverse childhood experiences (ACEs) are severe psychosocial stressors which occur in early developmental periods and promote later life cardiometabolic disease in a dose-dependent manner. ACE-related risk may be mediated in part by epigenetic alterations, particularly in...

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Published in:Physiology (Bethesda, Md.) Md.), 2024-05, Vol.39 (S1)
Main Authors: Schwager, Laura, Rogers, Emily, Banks, Nile F, Teague, T. Kent, Tan, Chibing, Jenkins, Nathaniel D.M., West, Kylee
Format: Article
Language:English
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Summary:Abstract only Introduction: Adverse childhood experiences (ACEs) are severe psychosocial stressors which occur in early developmental periods and promote later life cardiometabolic disease in a dose-dependent manner. ACE-related risk may be mediated in part by epigenetic alterations, particularly in myeloid lineage immune cells. Histone acetylation is a dynamic epigenetic process that regulates gene expression via modification of chromatin structure and is dictated by the opposed actions of histone acetyltransferases (HATs) and histone deacetylases (HDACs). An appropriate balance between HDAC and HAT activity is critical for maintaining cellular function, and an imbalance has been implicated in the premature development of human diseases including cardiometabolic disease. Glucocorticoids (e.g., cortisol) are well-described regulators of immune function and can influence histone acetylation through glucocorticoid receptors. Thus, we hypothesized that HDAC:HAT activity would be altered in young adults with prior ACE exposure, and that HDAC:HAT activity would be associated with salivary cortisol concentrations. Purpose: We examined HDAC:HAT activity in peripheral blood mononuclear cells (PBMCs) in apparently healthy young adults with versus without prior exposure to ACEs and explored whether circulating cortisol was associated with HDAC:HAT activity. Methods: PBMCs were isolated from whole blood collected within 1 hour of wakening from 27 young adult women who reported high (≥ 4 ACEs) ACE exposure (ACE 4+ ; mean ± SD; age = 21 ± 3 y, BMI = 25.7 ± 4.5 kg/m 2 ) and from 14 young adult women who reported no ACE exposure (CON; age = 21 ± 3 y, BMI = 26.1 ± 6 kg/m 2 ). Salivary cortisol was also collected within 1 hour of wakening and 8 hours later. Nuclear proteins were isolated from PBMCs and HDAC and HAT activities were quantified by commercially available assay kits. Salivary cortisol was quantified via ELISA. Independent samples t-tests were used to examine differences in HDAC:HAT, HDAC, and HAT activity. Pearson correlation coeffcients were used to examine the relation of HDAC:HAT activity with morning and afternoon cortisol concentrations, and the diurnal cortisol slope in the complete sample. Results: HDAC:HAT activity was reduced in ACE 4+ versus CON (140.4 ± 52 vs. 189.6 ± 42 arbitrary units, p = 0.004). This difference was primarily driven by reduced HDAC activity (13,706 ± 4,696 vs. 18,060 ± 3,641 ng/h/mg, p = 0.004) in ACE 4+ versus CON, whereas HAT ac
ISSN:1548-9213
1548-9221
DOI:10.1152/physiol.2024.39.S1.1692