Palmitic Acid Induces Dynamic Time-Dependent Alterations in HDACs, Neuronal Chromatin Acetylation, and Gene Expression
Saúl Santiago Rueda-Díaz, Iker Francisco Soto-Santarriaga, Karla Torres-Arciga, Valeria Melissa García-Cruz, Rodrigo González-Barrios, Manuel Flores-León, Clorinda Arias

TL;DR
This study shows how palmitic acid, a common fatty acid, affects gene regulation and chromatin acetylation in brain cells.
Contribution
The study reveals new insights into how palmitic acid alters HDACs and gene expression in neurons.
Findings
Palmitic acid changes HDAC levels in a time-dependent manner in neurons.
It alters chromatin acetylation and affects BDNF and LINE1 gene expression.
These effects suggest a link between fatty acid exposure and epigenetic regulation in the brain.
Abstract
Chronic consumption of high fat diets (HFD) is a risk factor for the development of metabolic diseases such as obesity and diabetes, and it is also associated with cognitive impairment and Alzheimer´s disease. Palmitic acid (PA) is a major component of HFD, and high concentrations of this saturated fatty acid exerts pleiotropic actions in cells. The PA effects have been largely studied in peripheral tissues where is considered a driving force for the development of many metabolic diseases such as obesity, insulin resistance and Type II diabetes. In the brain, particularly in neurons, it is able to increase oxidative metabolism, induce insulin resistance, and alter gene expression. However, little is known about how PA-induced metabolic alterations may affect gene expression mechanisms in neurons. One of the most studied PA-dependent mechanisms is associated with the lipid-induced…
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Taxonomy
TopicsHistone Deacetylase Inhibitors Research · Nuclear Receptors and Signaling · Protein Degradation and Inhibitors
