Some
psychedelics, psychoactive substances that alter people's mood, perceptions and
mental processes, were recently found to be promising alternative treatments
for some mental health disorders. The substance that has attracted the most
interest so far is psilocybin, a naturally occurring hallucinogenic compound
found in more than 200 types of mushrooms.
Past studies have found that psilocybin can help
reduce the symptoms experienced by some patients with treatment-resistant
depression and substance use disorders, including alcohol use disorder (AUD).
However, the biological mechanisms underpinning its therapeutic effects are
still poorly understood.
Researchers at the University of Heidelberg and the
University of Zurich recently carried out a study aimed at exploring how
psilocybin influences how the genes of people recovering from AUD are modified.
Their findings, published in Translational Psychiatry,
offer some hints about how the psychedelic compound might influence these
individuals' epigenome, the network of chemical compounds and proteins that are
attached to DNA and influence how genes behave.
"The primary goal of our study was to examine
epigenetic associations with psilocybin treatment in patients with AUD, as well
as potential relationships between such associations and treatment
outcomes," Marvin M. Urban, first author of the paper, told Medical
Xpress. "Epigenetic mechanisms, including DNA methylation, are involved in
psychiatric conditions, such as AUD or depression, and have been proposed to
play a role in psychedelic effects as well.
"Despite the potential in this field (e.g., for biomarker identification or mechanistic insights), the epigenetics of psychedelics are still largely unexplored in clinical studies, and we sought to provide a starting point for further research on this topic."
Mapping epigenetic changes after psilocybin treatment
The recent study by Urban and his colleagues specifically explored the
effects of psilocybin treatment on a mechanism known as DNA methylation. This
mechanism entails the addition of "chemical tags" called methyl
groups to DNA, which turn genes on or off by preventing proteins from accessing
it.
To investigate how psilocybin influenced DNA methylation in patients
recovering from AUD, the team analyzed data collected as part of a clinical
trial led by Dr. Nathalie Rieser and her colleagues at the Psychiatric
University Clinic in Zurich. The 37 patients who took part in this trial had
already completed their detox period and were given either a single 25 mg dose
of psilocybin or an inactive placebo as a potential treatment to prevent
relapses.
"We received blood samples from before, shortly after, and one month
after the treatment, and extracted DNA from them," Urban explained.
"The methylation status of
roughly 1 million locations in the genome was then assessed in these samples,
and a series of statistical approaches was used to identify changes related to
the psilocybin treatment and potential correlations with behavioral and
psychological outcomes."
The team's analyses led to the identification of a specific DNA
methylation-related change that was significantly linked with the intake of
psilocybin. This alteration was located in the gene TLE4, which encodes a
gene-suppressing protein.
In addition, the researchers observed altered methylation in the
gene RASGRP4 and some changes near the genes HTR2A and TNF. RASGRP4 plays a
role in the development and function of mast cells, as well as various immune
responses. HTR2A encodes a serotonin receptor that plays a role in psilocybin's
effects. Finally, TNF is known to be involved in inflammation and immune
responses.
"While the findings of this study have to be seen as exploratory and
require replication in larger data sets, it was interesting to observe that
different lines of analysis pointed to genes related to the immune
system," Urban said. "It is known that AUD involves immunological
dysregulation, and psilocybin seems to possess immunomodulatory
capacities, thus our findings could hint at a potential therapeutic
mechanism."
Informing future clinical trials with psilocybin
While the results of this study are still preliminary, they suggest that
psilocybin can influence the human epigenome in patients with AUD. Other
research groups could build on the team's observations and set out to explore
the effects of the psychedelic compound on other epigenetic mechanisms or on
DNA methylation in patients with other psychiatric conditions.
Urban and his colleagues hope that their efforts will also inspire more
clinical trials involving psychedelics. These trials could lead to the
collection of more blood samples that could be used to perform similar
analyses, potentially yielding more valuable insights.
"My current plans are just vaguely related to this project and mainly
revolve around multimodal neuroimaging in preclinical addiction models, in one
study also including intervention with a hallucinogenic compound," Urban
added. "However, some of my colleagues are now analyzing epigenetic data
collected during a clinical trial on psilocybin against treatment-resistant
depression. I am excited to see what they will find out."



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