Inhibiting certain enzymes involved in abnormal gene transcription may offer a way to restore memory loss associated with Alzheimer’s disease, a new study in mice suggests.
The findings could pave the way toward new treatments for Alzheimer’s disease (AD).
“By treating AD mouse models with a compound to inhibit these enzymes, we were able to normalize gene expression, restore neuronal function, and ameliorate cognitive impairment,” says senior author Zhen Yan, a professor in the department of physiology and biophysics in the Jacobs School of Medicine and Biomedical Sciences at the University at Buffalo.
Alzheimer’s disease alters the expression of genes in the prefrontal cortex, a key region of the brain controlling cognitive processes and executive functions.
When they focused on gene changes caused by epigenetic processes (those not related to changes in DNA sequences) such as aging, the researchers could reverse elevated levels of harmful genes that cause memory deficits in AD.
The current research extends the work the team reported in 2019 in the journal Brain, in which they reversed the loss or downregulation of genes beneficial to cognitive function in AD.
In the new paper in Science Advances, the team reports they reversed the upregulation of genes involved in impairing cognitive function.
Enzyme-targeted drugs
Yan explains that transcription of genes is regulated by an important process called histone modification, where histones, the proteins that help package DNA into chromosomes, are modified to make that packaging looser or tighter.
The nature of the packaging, in turn, controls how genetic material gains access to a cell’s transcriptional machinery, which can result in the activation or suppression of certain genes.
Yan says they found that H3K4me3, a histone modification called histone trimethylation at the amino acid lysine 4, which is linked to the activation of gene transcription, is significantly elevated in the prefrontal cortex of people with AD and mouse models of the disease.
That epigenetic change, she says, is linked to the abnormally high level of histone-modifying enzymes that catalyze the modification known as H3K4me3.
The researchers found that when they treated AD mouse models with a compound that inhibits those enzymes, they exhibited significantly improved cognitive function.
“This finding points to the potential of histone modifying enzyme-targeted drugs for AD treatment, which may have broad and powerful impact,” says Yan.
Controlling Alzheimer’s disease progress
In making that discovery, the team also identified a number of new target genes, including Sgk1 as a top-ranking target gene of the epigenetic alteration in AD. Sgk1 transcription is significantly elevated in the prefrontal cortex of people with AD and in animal models with the disorder.
Yan says they found that abnormal histone methylation at Sgk1 contributes to its elevated expression in AD.
“Interestingly, the upregulation of Sgk1 is also strongly correlated with the occurrence of cell death in other neurodegenerative diseases, including Parkinson’s disease and amyotrophic lateral sclerosis,” she says.
Sgk1 encodes an enzyme activated by cell stress, which plays a key role in numerous processes, such as regulating ion channels, enzyme activity, gene transcription, hormone release, neuroexcitability, and cell death. The researchers found that it is highly connected to other altered genes in AD, suggesting it may function as a kind of hub that interacts with many molecular components to control disease progress.
“In this study, we have found that administration of a specific Sgk1 inhibitor significantly reduces the dysregulated form of tau protein that is a pathological hallmark of AD, restores prefrontal cortical synaptic function, and mitigates memory deficits in an AD model,” she says. “These results have identified Sgk1 as a potential key target for therapeutic intervention of AD, which may have specific and precise effects.”
The National Institute on Aging of the National Institutes of Health funded the work.
Source: University at Buffalo
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