Round-up® on your brain
By Arizona State University
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In a groundbreaking new study, Arizona State University researcher
Ramon Velazquez and his colleagues at the Translational Genomics Research
Institute (TGen), part of City of Hope, demonstrate that mice exposed to the
herbicide glyphosate develop significant brain inflammation, which is
associated with neurodegenerative disease. The findings suggest the brain may
be much more susceptible to the damaging effects of the herbicide than
previously thought. Glyphosate is one of the most pervasive herbicides used in
the U.S. and worldwide.
The research, which appears in the Journal of
Neuroinflammation, identifies an association between glyphosate exposure in
mice and symptoms of neuroinflammation, as well as accelerated Alzheimer’s
disease-like pathology. This study tracks both the presence and impact of
glyphosate’s byproducts in the brain long after exposure ends, showing an array
of persistent, damaging effects on brain health.
Glyphosate exposure in mice also resulted in premature death
and anxiety-like behaviors, which replicates findings by others examining
glyphosate exposure in rodents. Further, the scientists discovered these
symptoms persisted even after a 6-month recovery period during which exposure
was discontinued.
Concerning Byproducts in the Brain
Additionally, the investigation demonstrated that a
byproduct of glyphosate —aminomethylphosphonic acid—accumulated in brain
tissue, raising serious concerns about the chemical’s safety for human
populations.
“Our work contributes to the growing literature highlighting
the brain’s vulnerability to glyphosate,” Velazquez says. “Given the increasing
incidence of cognitive decline in the aging population, particularly in rural
communities where exposure to glyphosate is more common due to large-scale
farming, there is an urgent need for more basic research on the effects of this
herbicide.”
Velazquez is a researcher with the ASU-Banner
Neurodegenerative Disease Research Center at the ASU Biodesign Institute and an
assistant professor with the School of Life Sciences. He is joined by first
author Samantha K. Bartholomew, a PhD candidate in the Velazquez Lab, other ASU
colleagues, and co-senior author Patrick Pirrotte, associate professor with the
Translational Genomics Research Institute (TGen) and researcher with the City
of Hope Comprehensive Cancer Center in California.
According to the Centers for Disease Research, farm
laborers, landscape workers, and others employed in agriculture are more likely
to be exposed to glyphosate through inhalation or skin contact. Additionally,
the new findings suggest that ingestion of glyphosate residues on foods sprayed
with the herbicide potentially poses a health hazard. Most people living in the
U.S. have been exposed to glyphosate during their lifetime.
“My hope is that our work drives further investigation into
the effects of glyphosate exposure, which may lead to a reexamination of its
long-term safety and perhaps spark discussion about other prevalent toxins in
our environment that may affect the brain,” Bartholomew says.
The team’s findings build on earlier ASU research that demonstrates
a link between glyphosate exposure and a heightened risk for neurodegenerative
disorders.
The previous study showed that glyphosate crosses the
blood-brain barrier, a protective layer that typically prevents potentially
harmful substances from entering the brain. Once glyphosate crosses this
barrier, it can interact with brain tissue and appears to contribute to
neuroinflammation and other harmful effects on neural function.
The EPA considers certain levels of glyphosate safe for
human exposure, asserting that the chemical is minimally absorbed into the body
and is primarily excreted unchanged. However, recent studies, including this
one, indicate that glyphosate, and its major metabolite
aminomethylphosphonic acid, can persist in the body and accumulate in
brain tissue over time, raising questions about existing safety thresholds and
whether glyphosate use is safe at all.
Herbicide may attack more than weeds
Glyphosate is the world’s most heavily applied herbicide,
used on crops including corn, soybeans, sugar beets, alfalfa, cotton, and
wheat. Since the introduction of glyphosate-tolerant crops (genetically
engineered to be sprayed with glyphosate without dying) in 1996, glyphosate
usage has surged, with applications predominately in agricultural settings.
The U.S. Geological Survey notes approximately 300 million
pounds of glyphosate are used annually in the United States alone. Although
glyphosate levels are regulated on foods imported into the United States,
enforcement and specific limits can vary. Due to its widespread use, the
chemical is found throughout the food chain. It persists in the air,
accumulates in soils, and is found in surface and groundwater.
Despite being considered safe by the EPA, the International
Agency for Research on Cancer classifies glyphosate as “possibly carcinogenic
to humans,” and emerging research, including this study, points to its
potential role in worsening neurodegenerative diseases by contributing to
pathologies, like those seen in Alzheimer’s disease.
The chemical works by inhibiting a specific enzyme pathway
in plants that is crucial for producing essential amino acids. However,
its impact extends beyond the intended weed, grass, and plant targets,
negatively affecting the biological systems in mammals, as demonstrated by its
persistence in brain tissue and its role in inflammatory processes.
“Herbicides are used heavily and ubiquitously around the
world,” says Pirrotte, associate professor in TGen’s Early Detection and
Prevention Division, director of the Integrated Mass Spectrometry Shared
Resource at TGen and City of Hope, and senior author of the paper. “These
findings highlight that many chemicals we regularly encounter, previously
considered safe, may pose potential health risks. However, further research is
needed to fully assess the public health impact and identify safer alternatives.”
Is glyphosate safe to use at all?
The researchers hypothesized that glyphosate exposure would
induce neuroinflammation in control mice and worsen neuroinflammation in
Alzheimer’s model mice, causing elevated Amyloid-β and tau pathology and
worsening spatial cognition after recovery. Amyloid-β and Tau are key proteins
that comprise plaques and tau tangles, the classic diagnostic markers of
Alzheimer’s disease. Plaques and tangles disrupt neural functioning and are
directly linked to memory loss and cognitive decline.
The experiments were conducted over 13 weeks, followed by a
six-month recovery period. The main metabolite, aminomethylphosphonic acid, was
detected in the brains of both normal and transgenic mice with Alzheimer’s
pathology. Transgenic mice are genetically modified to carry genes that cause
them to develop Alzheimer’s-like symptoms as they age. This allows researchers
to study the progression and effects of the disease in a controlled laboratory
setting.
The researchers tested two levels of glyphosate exposure: a
high dose, similar to levels used in earlier research, and a lower dose that is
close to the limit used to establish the current acceptable dose in humans.
This lower dose still led to harmful effects in the brains
of mice, even after exposure ceased for months. While reports show that most
Americans are exposed to glyphosate daily, these results show that even a short
period could potentially cause neurological damage.
Glyphosate caused a persistent increase in inflammatory
markers in the brain and blood, even after the recovery period. This prolonged
inflammation could drive the progression of neurodegenerative diseases,
including Alzheimer’s, indicating even temporary glyphosate exposure can lead
to enduring inflammatory processes that affect brain health.
The data emphasizes that glyphosate exposure may be a
significant health concern for human populations. The researchers stress the
need for continued vigilance and intensified surveillance of glyphosate
neurological and other long-term negative health effects.
“Our goal is to identify environmental factors that
contribute to the rising prevalence of cognitive decline and neurodegenerative
diseases in our society,” Velazquez says. “By unveiling such factors, we can
develop strategies to minimize exposures, ultimately improving the quality of
life for the growing aging population.”
Reference: “Glyphosate exposure exacerbates
neuroinflammation and Alzheimer’s disease-like pathology despite a 6-month
recovery period in mice” by Samantha K. Bartholomew, Wendy Winslow, Ritin
Sharma, Khyatiben V. Pathak, Savannah Tallino, Jessica M. Judd, Hector Leon,
Julie Turk, Patrick Pirrotte and Ramon Velazquez, 4 December 2024, Journal
of Neuroinflammation.
DOI: 10.1186/s12974-024-03290-6
The National Institutes on Aging, National Cancer Institute
of the National Institutes of Health, and ASU Biodesign Institute funded
this study.
