Scientists propose novel therapy to lessen risk of obesity-linked disease
Cincinnati Children's Hospital Medical Center Jul 27, 2017
Researchers propose in the Journal of Clinical Investigation using a blood thinner to target molecular drivers of chronic metabolic inflammation in people eating high–fat diets to limit weight gain and disease.
In a study published online July 24, a multi–institutional scientific team led by Cincinnati ChildrenÂs Hospital Medical Center uncover a previously unknown molecular link in the body that drives obesity and inflammation.
Researchers tested genetically manipulated mice on a high–fat diet and donated human tissues from obese people who had fatty liver disease. They found that an insoluble glycoprotein called fibrinogen binds with a receptor of leukocyte white blood cells called alphaMbeta2–integrin, which fuels diet–induced obesity and disease.
ÂOur findings provide a novel mechanistic link between elevated pro–coagulant function and fibrin–driven inflammation in adipose fat–storing tissue and the liver. These exacerbate obesity and its associated diseases, said Matthew Flick, PhD, lead study investigator and scientist in the Division of Experimental Hematology and Cancer Biology at Cincinnati ChildrenÂs. ÂWe also provide the proof–of–concept that targeting thrombin or fibrin may limit pathologies in obese patients.Â
Flick and his colleagues used an FDA–approved blood thinner called dabigatran to treat mice fed a high–fat diet to block an enzyme called thrombin. ThrombinÂs job is to promote blood coagulation. In obesity, however, the enzyme can cause hyper–coagulation, inflammation, and the production of tissue–damaging insoluble fibrin strands.
Treatment with the drug protected mice from the onset of obesity related disease, the researchers reported.
To test their hypotheses about what drives metabolic inflammation and obesity, the researchers bred genetically manipulated Fibgamma390–396 mice that carry a mutant form of fibrinogen. The mutant fibrinogen is unable to bind with the leukocyte receptor alphaMbeta2–integrin.
Although the animals were fed a high–fat diet, the tests revealed that Fibgamma390–396 mice were significantly protected from diet–induced weight gain and elevated fat in adipose tissues. These mice also had markedly diminished systemic, adipose and liver inflammation. Researchers also noted these mice had significantly reduced macrophage white blood cell counts in white adipose tissue and almost complete protection from development of fatty liver disease and defective blood sugar metabolism.
When researchers treated normal mice with established obesity with the direct thrombin inhibitor dabigatran, the animals progression of high–fat–diet–induced obesity was stopped. Treatment also suppressed development of obesity related disease, according to the authors.
Flick and his colleagues said there are several additional research steps needed before direct thrombin inhibition can be tested in overweight patients who may be at high risk of obesity related disease. This includes working with the Pediatric Obesity Tissue Repository at Cincinnati ChildrenÂs, which contains donated biopsy samples from patients. The researchers will be looking for the amount of fibrin content in visceral adipose tissues to see if there is a correlation with diseases like non–alcoholic fatty liver disease (NASH), type 2 diabetes, hypertension and other obesity linked diseases.
If researchers find this to be true, high fibrin content in white adipose tissue may serve as a biomarker for obese patients to identify those who are at high risk for progressing to NASH or severe type 2 diabetes, Flick said.
The research team also is working with the German pharmaceutical company that developed the direct thrombin inhibitor dabigatran.
Go to Original
In a study published online July 24, a multi–institutional scientific team led by Cincinnati ChildrenÂs Hospital Medical Center uncover a previously unknown molecular link in the body that drives obesity and inflammation.
Researchers tested genetically manipulated mice on a high–fat diet and donated human tissues from obese people who had fatty liver disease. They found that an insoluble glycoprotein called fibrinogen binds with a receptor of leukocyte white blood cells called alphaMbeta2–integrin, which fuels diet–induced obesity and disease.
ÂOur findings provide a novel mechanistic link between elevated pro–coagulant function and fibrin–driven inflammation in adipose fat–storing tissue and the liver. These exacerbate obesity and its associated diseases, said Matthew Flick, PhD, lead study investigator and scientist in the Division of Experimental Hematology and Cancer Biology at Cincinnati ChildrenÂs. ÂWe also provide the proof–of–concept that targeting thrombin or fibrin may limit pathologies in obese patients.Â
Flick and his colleagues used an FDA–approved blood thinner called dabigatran to treat mice fed a high–fat diet to block an enzyme called thrombin. ThrombinÂs job is to promote blood coagulation. In obesity, however, the enzyme can cause hyper–coagulation, inflammation, and the production of tissue–damaging insoluble fibrin strands.
Treatment with the drug protected mice from the onset of obesity related disease, the researchers reported.
To test their hypotheses about what drives metabolic inflammation and obesity, the researchers bred genetically manipulated Fibgamma390–396 mice that carry a mutant form of fibrinogen. The mutant fibrinogen is unable to bind with the leukocyte receptor alphaMbeta2–integrin.
Although the animals were fed a high–fat diet, the tests revealed that Fibgamma390–396 mice were significantly protected from diet–induced weight gain and elevated fat in adipose tissues. These mice also had markedly diminished systemic, adipose and liver inflammation. Researchers also noted these mice had significantly reduced macrophage white blood cell counts in white adipose tissue and almost complete protection from development of fatty liver disease and defective blood sugar metabolism.
When researchers treated normal mice with established obesity with the direct thrombin inhibitor dabigatran, the animals progression of high–fat–diet–induced obesity was stopped. Treatment also suppressed development of obesity related disease, according to the authors.
Flick and his colleagues said there are several additional research steps needed before direct thrombin inhibition can be tested in overweight patients who may be at high risk of obesity related disease. This includes working with the Pediatric Obesity Tissue Repository at Cincinnati ChildrenÂs, which contains donated biopsy samples from patients. The researchers will be looking for the amount of fibrin content in visceral adipose tissues to see if there is a correlation with diseases like non–alcoholic fatty liver disease (NASH), type 2 diabetes, hypertension and other obesity linked diseases.
If researchers find this to be true, high fibrin content in white adipose tissue may serve as a biomarker for obese patients to identify those who are at high risk for progressing to NASH or severe type 2 diabetes, Flick said.
The research team also is working with the German pharmaceutical company that developed the direct thrombin inhibitor dabigatran.
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