A fat-heavy diet triggers an immune response that may lead to diabetes and other health problems, according to a study of fruit flies from King’s College London.
A fat-rich diet has been linked to obesity, insulin resistance and type 2 diabetes, cardiovascular disease and a shortened lifespan in many species. The King’s team set out to understand the relationship between a chronic high fat diet, the immune system, and insulin resistance and lifespan.
The study used drosophila or fruit flies as a model to explore the molecular pathways involved in the immune response to excess dietary fats and metabolic stress, and identify the role of macrophages (immune cells that scavenge fat) in blood sugar regulation, fat storage and lifespan.
After chronic feeding with a high fat diet, flies exhibited strikingly similar effects to humans;
they accumulated excess fat,
their blood sugar levels rose,
they became insulin-resistant and
their lifespan dropped.
In addition, fly immune blood cells known as plasmatocytes became filled with fat droplets whilst also triggering the production of a pro-inflammatory cytokine molecule known as unpaired3 . Unpaired3 has a counterpart in mammals called Interleukin-6, which has previously been associated with diseases induced by high fat diets.
The King’s team demonstrated that unpaired3 produced by macrophages is responsible for insulin resistance high blood sugar, and reduced lifespan, whilst fat storage in itself did not affect longevity and blood sugar levels. They also defined the signalling pathway responsible for unpaired3 production by macrophages, and found that blocking any step of the pathway that led to cytokine production was sufficient to prevent the elevated sugar levels and insulin resistance observed in the flies and boosted their lifespan, even though fat continued to accumulate in the flies’ tissues.
Dr Katie Woodcock of King’s College London said: “We have discovered the mechanism which may be responsible for the detrimental effects of excess dietary fat. This immune pathway may offer potential future therapeutic targets for the treatment of diet-related diseases such type II diabetes. However, further work is needed to establish whether similar pathways might operate in mammals and whether these would be useful targets for health interventions.”
Professor Frederic Geissmann, also of King’s, said: “This is an increasingly important and relevant research. The next stage of our work will be to determine which tissues or organs in the fly are the critical targets of the cytokine produced by fly immune blood cells.”
The message is, if you have a high fat diet, stop it now. Choose a healthier pathway, which will not shorten your life and reduce your quality of living.