Natural
compound in vegetables helps fight fatty liver disease
Texas
A&M AgriLife Communications
A
new study led by Texas A&M AgriLife Research scientists shows how a natural
compound found in many well-known and widely consumed vegetables can also be
used to fight fatty liver disease.The study demonstrates how non-alcoholic fatty liver disease, or NAFLD, can be controlled by indole, a natural compound found in gut bacteria -- and in cruciferous vegetables such as cabbage, kale, cauliflower and Brussels sprouts. It also addresses how this natural compound may lead to new treatments or preventive measures for NAFLD.
The
study was recently published in Hepatology.
"Based
on this research, we believe healthy foods with high capacity for indole
production are essential for preventing NAFLD and are beneficial for improving
the health of those with it," said Chaodong Wu, M.D., Ph.D., a Texas
A&M AgriLife Research Faculty Fellow and principal investigator for the
study.
"This is another example where altering the diet can help prevent or treat disease and improve the well-being of the individual."
"This is another example where altering the diet can help prevent or treat disease and improve the well-being of the individual."
NAFLD
occurs when the liver becomes "marbled" with fat, sometimes due to
unhealthy nutrition, such as excessive intake of saturated fats. If not
properly addressed, this condition can lead to life-threatening liver disease,
including cirrhosis or liver cancer.
Many
diverse factors contribute to NAFLD. Fatty liver is seven to 10 times more
common in people with obesity than in the general population. In addition,
obesity causes inflammation in the body.
Driving this inflammation are macrophages, types of white blood cells that normally battle infection. This inflammation exacerbates liver damage in those with liver disease.
Driving this inflammation are macrophages, types of white blood cells that normally battle infection. This inflammation exacerbates liver damage in those with liver disease.
Gut
bacteria can also have an effect -- either positive or negative -- on the
progression of fatty liver disease. These bacteria produce many different
compounds, one of which is indole. This product of the amino acid tryptophan
has been identified by clinical nutritionists and nutrition scientists as
likely having preventive and therapeutic benefits to people with NAFLD.
The
National Cancer Institute also notes the benefits of indole-3-carbinol found in
cruciferous vegetables, including their anti-inflammatory and cancer-fighting
properties.
A
comprehensive and multi-level study on fatty liver disease
The
present study examined the effect of indole concentrations on people, animal
models and individual cells to help determine indole's effect on liver
inflammation and its potential benefits to people with NAFLD.
It investigated the extent to which indole alleviates non-alcoholic fatty liver disease, incorporating previous findings on gut bacteria, intestinal inflammation and liver inflammation. It also incorporated investigation into how indole improves fatty liver in animal models.
It investigated the extent to which indole alleviates non-alcoholic fatty liver disease, incorporating previous findings on gut bacteria, intestinal inflammation and liver inflammation. It also incorporated investigation into how indole improves fatty liver in animal models.
For
the study, researchers investigated the effects of indole on individuals with
fatty livers. As research collaborator Qifu Li, M.D., was also a physician at
Chongqing Medical University in China, the team decided he should lead the
clinical research using Chinese participants.
In
137 subjects, the research team discovered people with a higher body mass index
tended to have lower levels of indole in their blood.
Additionally, the indole levels in those who were clinically obese were significantly lower than those who were considered lean. And in those with lower indole levels, there was also a higher amount of fat deposition in the liver.
Additionally, the indole levels in those who were clinically obese were significantly lower than those who were considered lean. And in those with lower indole levels, there was also a higher amount of fat deposition in the liver.
This
result will likely extend to other ethnicities, Li noted, though ethnic
background may have some influence on gut bacteria populations and the exact
levels of metabolites.
To
further determine the impact of indole, the research team used animal models
fed a low-fat diet as a control and high-fat diet to simulate the effects of
NAFLD.
"The
comparisons of animal models fed a low-fat diet and high-fat diet gave us a
better understanding of how indole is relevant to NAFLD," said Gianfranco
Alpini, M.D., a study collaborator and former distinguished professor of Texas
A&M Health Science Center, now the director of the Indiana Center for Liver
Research.
Alpini
said treatment of NAFLD-mimicking animal models with indole significantly
decreased fat accumulation and inflammation in the liver.
The
research team also studied how indole affected individual cells.
Shannon
Glaser, M.D., a professor of Texas A&M Health Science Center, said that in
addition to reducing the amount of fat in liver cells, indole also acts on
cells in the intestine, which send out molecular signals that dampen
inflammation.
"The
link between the gut and the liver adds another layer of complexity to studies
on non-alcoholic fatty liver disease, and future studies are very much needed
to fully understand the role of indole," Glaser said.
Additional
nutrition research needed
"Foods
with a high capacity of indole production or medicines that mimic its effects
may be new therapies for treatment of NAFLD," Wu said, adding prevention
is another important aspect to consider.
"Preventing
NAFLD's development and progression may depend on nutritional approaches to
ensure that gut microbes allow indole and other metabolites to function
effectively," he said. "Future research is needed to investigate how
certain diets may be able to achieve this."
Wu
said in future research he hopes to collaborate with food scientists and
clinical nutritionists to examine what healthy foods can alter gut microbiota
and increase indole production.
