Scientists at the Salk Institute have uncovered a remarkable potential for antidepressants beyond mental health treatment. Their groundbreaking research reveals that Prozac can actually protect against serious infections and potentially life-threatening conditions like sepsis. The study shows the drug can both kill pathogens and protect bodily tissues, functioning as a dual-purpose medical intervention. These findings could revolutionize how we approach infectious disease treatment and pandemic preparedness.
February 18, 2025
New study explains how antidepressants can protect against infections, sepsis
"Finding dual protective and defensive
effects in a repurposed drug is really exciting." - Professor Janelle
Ayres, Salk Institute
California, February 16: Antidepressants,
such as Prozac, are routinely used to treat mental health issues, but recent
research reveals they may also protect against major infections and
life-threatening sepsis.
Key Points
1 Prozac demonstrates unexpected antimicrobial
properties
2 SSRI drugs can regulate immune system response
3 Study reveals infection protection mechanism
independent of serotonin
Scientists at the Salk Institute have now
discovered how medications regulate the immune system and protect against
infectious disease, providing insights that could lead to a new generation of
life-saving treatments and improve global readiness for future pandemics.
The Salk study follows recent findings that
users of selective serotonin reuptake inhibitors (SSRIs) like Prozac had less
severe COVID-19 infections and were less likely to develop long COVID.
Another study found that Prozac--also known
as fluoxetine--was effective in protecting mice against sepsis, a
life-threatening condition in which the body's immune system overreacts to an
infection and can cause multi-organ failure or even death. By identifying a
mechanism to explain fluoxetine's surprising defence-boosting effects, Salk
researchers have brought fluoxetine and potentially other SSRIs closer to
clinical testing for use against infections and immune disorders.
"When treating an infection, the optimal
treatment strategy would be one that kills the bacteria or virus while also
protecting our tissues and organs," says Professor Janelle Ayres, holder
of the Salk Institute Legacy Chair and Howard Hughes Medical Institute
Investigator. "Most medications we have in our toolbox kill pathogens, but
we were thrilled to find that fluoxetine can protect tissues and organs, too.
It's essentially playing offense and defense, which is ideal, and especially
exciting to see in a drug that we already know is safe to use in humans."
While our immune systems do their best to
protect us against infections, sometimes they can overreact. In sepsis, the
inflammatory response spins so out of control that it starts damaging a
person's own tissues and organs to the point of failure. This same overreaction
is also characteristic of severe COVID-19 illness.
An obvious solution would presumably be to
suppress the inflammatory response, but doing so can actually make patients
more vulnerable to their initial infection--and more susceptible to new ones.
Timing is also critical, as immunosuppressive drugs need to be administered
before any tissue damage has taken place.
Instead, an ideal treatment would 1)
proactively control the intensity and duration of the immune response to
prevent any bodily damage and 2) kill the infection that puts the body at risk
to begin with.
To understand what SSRIs might be doing in
this context, the researchers studied mice with bacterial infections and
separated them into two categories: one pretreated with fluoxetine and the
other not. Excitingly, they saw the mice pretreated with fluoxetine were
protected from sepsis, multi-organ damage, and death. The team then launched a
series of follow-up experiments to make sense of these effects.
First, they measured the number of bacteria
in each mouse population eight hours after infection. Mice treated with
fluoxetine had fewer bacteria at this stage, signifying a less severe
infection. The findings demonstrated that fluoxetine had antimicrobial
properties, which allowed it to limit bacterial growth.
Next, the researchers measured the levels of
different inflammatory molecules in each group. They saw more anti-inflammatory
IL-10 in their pretreated populations and deduced that IL-10 prevented
sepsis-induced hypertriglyceridemia--a condition in which the blood contains
too many fatty triglycerides. This enabled the heart to maintain the proper
metabolic state, protecting the mice from infection-induced morbidity and
mortality.
The team decoupled this IL-10-dependent
protection from multi-organ damage and death from their earlier discovery of
fluoxetine's antimicrobial effects, in turn revealing the drug's dual-purpose
potential to 1) kill pathogens and 2) alleviate infection-induced damage to the
body.
To understand how fluoxetine's influence on
serotonin levels might be contributing to these effects, the researchers also
looked at two new mouse populations: Both were pretreated with fluoxetine, but
one had circulating serotonin, while the other did not. Circulating serotonin is
a little chemical messenger that travels your brain and body to regulate things
like mood, sleep, and pain, and is the main target for fluoxetine's mental
health effects. They found that fluoxetine's positive health outcomes were
entirely unrelated to circulating serotonin--regardless of whether the mice had
serotonin in circulation, they experienced the same infection defense benefits
from fluoxetine.
"That was really unexpected, but also
really exciting," says study first author Robert Gallant, a former graduate
student researcher in Ayres' lab. "Knowing fluoxetine can regulate the
immune response, protect the body from infection, and have an antimicrobial
effect--all entirely independent from circulating serotonin--is a huge step
toward developing new solutions for life-threatening infections and illnesses.
It also really goes to show how much more there is to learn about SSRIs."
Ayres and Gallant say their next step is to
explore fluoxetine dosing regimens appropriate for septic individuals. They're
also eager to see whether other SSRIs can have the same effects.
"Fluoxetine, one of the most prescribed drugs in the United States,
is promoting cooperation between host and pathogen to defend against
infection-induced disease and mortality," says Ayres, also the head of
Molecular and Systems Physiology Laboratories at Salk. "Finding dual
protective and defensive effects in a repurposed drug is really exciting."
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